Cerm - Index
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
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P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
1% flood, 20-62,4-D, 32-1110-minute unit hydrograph, 20-1218-kip ESAL, 75-1260-degree method, 40-285th percentile speed, 73-4100 yr
flood, 20-6storm, 20-6
A
A36 steel properties, 58-2
AAR, 48-2AASHTO, G
flexible pavement nomograph, 75-17
lump-sum loss, 56-3
rigid pavement nomograph, 76-6, 76-7
sight distance, 78-10
soil classification, 35-4, 35-5
Abandonment, GAbbreviations, stake markings, 80-2
ABET (see Accreditation Board forEngineering and Technology)
Abram’s strength law, 48-4Abscissa, 7-2Absolute
convergence, 3-12English system, 1-4position, 71-9pressure, 14-2volume method, 49-2, 76-2
Absorbedasphalt, 75-9dose, G
Absorption, Gcoefficient, 22-7, 31-8
gas, 31-9
dry, 34-14dynamometer, 84-12factor, 34-17masonry, 67-5process, 34-2
ABS pipe, 16-10, 28-3Abstraction, initial, 20-2Abundance, relative, 22-2Abutment, GAcanthamoeba castellani, 27-2Accelerated
Cost Recovery System, 86-21depreciation, 86-23flow, 19-20, G
Accelerating force, railroad, 74-3Acceleration
centripetal, 15-19 (ftn)
Coriolis, 71-8fluid mass, 15-19gravity, 1-2head, 18-2, 18-3
linear, 71-4normal, 71-8resultant, 71-8tangential, 71-7uniform, 71-3
formulas, 71-3
Accelerator, set, 48-3Acceptance, 87-3
testing, concrete, 49-1Access
control of, Gpoint, 73-2right of, G
Accessibility, 19-15Accessible parking, 73-19
space, 73-19Accident
data, 74-7history warrant, signalization, 73-14rate, 74-7type, 74-7
Accounting, 86-35Accreditation Board for Engineering and
Technology, 88-1 (ftn)Accrual system, 86-34Accumulation, 8-6Accumulator, 17-36Accuracy, 11-13, 84-1
concrete batch, 49-2degree of, 77-4formwork, 49-7order of, 77-4, 77-5
ACImoment coefficient, 47-19
shear coefficient, 47-19
Acid, 22-9, Gamino, 23-1
carbonic, 25-1, 31-8, 34-18 (ftn)carboxylic, 23-2
constant, 22-12-extractable metal, 28-14fatty, 23-2, 27-6-forming bacteria, 30-14fulvic, Ggas, 32-4haloacetic, 25-10humic, Ghydrochloric, 25-9hypochlorous, 25-9organic, 23-2
polyprotic, 22-13rain, 32-4-splitting bacteria, 30-14-test ratio, 86-35volatile, 27-6
Acidity, 25-1AC machine, 83-17
Acousticemission testing, 43-12holography, 43-12
Acoustical velocity, 14-14Acquired immunodeficiency syndrome, 27-6ACR, 48-2Actinide, 22-2Actinon, 22-2Action
capillary, 14-11composite, 57-1galvanic, 22-16level, 82-3line of, 5-1, 41-2prying, 65-6shear force of, 45-16
Activatedcarbon, 29-12, 34-3
granular, 26-12controller, 73-17sludge, G
plant, characteristics, 30-3, 30-5
process, 30-2Active
collection, gas, 31-6component, retaining wall, A-69, A-70
earth pressure, 37-2, 37-3coefficient, 37-3
pressure, Gresultant, total, 37-3zone, 37-2
Activity, 85-1-on-branch, 85-12-on-node, 85-10specific, G
Acute angle, 6-1ADA, 73-19Add chain, 77-7Addition of vectors, 5-3Additive, pozzolanic, 48-3Adenosine triphosphate, 27-5, GAdenoviruses, 27-2Adfreeze force, 38-6Adhesion, 14-11 (ftn), 38-3
clay, 38-4
factors, 38-3, 38-4
road, coefficient of, 74-4
Index
Adiabaticcompressibility, 14-13compression, 15-13expansion, Gflame temperature, 24-15
Adjacentangle, 6-2side, 6-2
Adjoint, classical, 4-5Adjudication, GAdjunct, code, 81-2Adjusted weight, 49-3Adjusting, traverse, 77-13, 77-14Admittance, 83-5Admixture, 48-3, G (see also type)
lithium-based, 48-2Adsorbed water, G Adsorbent, 26-7, 34-3Adsorption, 26-12, 34-3, 34-24
carbon, 29-12edge, G
Advancedflue gas cleanup, 34-4oxidation, 34-4
process, 26-17scrubbing, 24-5wastewater treatment, 29-3
Advantagemechanical, 41-10
pulley block, 41-11
pulley, 41-11Advection, GAdverse cross slope, 78-8Aerated
grit chamber, 29-6lagoon, 29-5, G
characteristics, 29-6
Aeration, 26-4, Gcharacteristics, 30-4
complete-mix, 30-3conventional, 30-3cost, 30-9extended, 30-3high purity oxygen, 30-3high-rate, 30-3period, 30-8power, 29-4, 29-5, 30-9sludge, 30-3 step-flow, 30-3tank, 30-8tapered, 30-3zone of, G
Aerial mapping, 77-17Aerobe, G
obligate, 27-3Aerobic, G
decomposition, 27-5digester, 30-15
characteristics, 30-15
digestion, 30-14pond, 29-4
Aero horsepower, 17-39Affinity law, 18-18Afterburner, 34-12
AgeBOD, sludge, 30-6of the suspended solids, 30-6
Agency, 87-2Agent, 87-2
chelating, 34-15 (ftn)sequestering, 26-16weighting, 26-6
Aggregate, 48-2, 75-3, Galkali reactivity, 48-2coarse, 48-2, 75-3, Gfine, 48-2, 75-3, Glightweight, 48-9, GPCC, 76-3
properties, 49-1 Aggressive index, 26-16Agonic line, GAgreement, letter of, 87-3Ahead stationing, 78-3AHJ, 81-2AIDS, 27-6Air
atmospheric, 24-8, 30-8blower, 30-9 change, Gentraining mixture, 48-3entrainment, 76-3excess, 24-12flow rate, SCFM, 30-9flush, G-fuel ratio, 24-9, 24-12heater ash, 24-3in concrete, 49-3injection, 26-4pollutant, 32-2prewash, 26-11properties, A-14
resistance, 74-2coefficient, 74-1
stripping, 29-12, 34-16-to-cloth ratio, 34-5toxic, 32-2voids, 75-9
Airborne survey, 77-5Aircraft cable, 45-20Airfoil, 17-37Airport
pavement grade, 78-19runway, 73-26
Alachlor, 32-11Alcohol, 23-2, 24-7
aliphatic, 23-2
aromatic, 23-2
Aldehyde, 23-1, 23-2
Aldrin, 32-11Alex Westley Skempton, 39-3Algae, 27-1, 27-2, 27-2, 27-3, G
growth, in water, 25-7pretreatment, 26-3
Algebra, 3-1matrix, 4-3
Algebraic equation, 3-2Algicide, 26-3Alias component, 9-7 (ftn)Alidade, 77-9, G
Alignmentchart, column, 53-2, 53-3, 61-3
stake, 80-1Aliphatic alcohol, 23-2
Alkali-aggregate reactivity, 48-2-carbonate reaction, 48-2metal, 22-2-silica reaction, 48-2
Alkaline earth metal, 22-2Alkalinity, 25-2, 25-4, G
vs. hardness diagram, 25-5
Alkane, 23-1, 23-3, 24-1Alkene, 23-1Alkoxy, 23-1
Alkyl, 23-1
halide, 23-2
Alkyne, 23-1, 23-3, 24-1All-directional interchange, 73-21Allergen, 32-4Alligator crack, 75-4All-lightweight concrete, 48-9Allochthonous material, 25-7Allowable
bearing capacity, 36-2, 36-2strength, 65-3
bending stress, 59-3, 59-4compressive strength, steel column, 61-4floor area, 81-8height, building, 81-8load, fastener, 65-3strength method, 50-3, 59-7stress
bending, 59-3, 59-4design, 58-4fasteners, 65-3masonry wall, 68-4sheet piling, 39-4
tensile strength, 60-3Alluvial deposit, GAlluvium, GAlphabet, Greek, 3-1, 3-1, back endpaper
Alphanizomenon flos-aquae, 27-2Alternate
depth, 19-15, Gmode, 73-15
Alternating current, 83-2, 83-4Alternative
disinfection, 29-13sewer, 28-4to chlorination, 25-12, 26-17
Alternator, 83-10 (ftn)Altitude valve, 26-19Alum, 26-6Aluminum, structural, properties, A-74
American National Standards Institute, 81-2,81-3
American Society for Testing and Materials,81-2, 81-3
American Society of Civil Engineers, 88-1Amictic, GAmide, 23-2
Amine, 23-1, 23-2
Amino acid, 23-1, 23-2
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-2
Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-3
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
Ammoniain wastewater, 28-13in water, 25-10nitrogen, in wastewater, 28-13removal, in wastewater, 29-3, 29-12slip, 34-15 (ftn)stripping, 28-13, 29-12toxic effect on fish, 25-8un-ionized, in water, 25-8
Amoeba, 27-2Amoebic dysentery, 27-2Amortization, 86-24Ampere, 83-2Amperometric sensor, 84-3Amphoteric behavior, GAMU, GAnabaena flos-aquae, 27-2Anabolism, 27-5, GAnabranch, GAnaerobe, G
digester, 30-15obligate, 27-3pond, 29-4
Anaerobic digester, characteristics, 30-16
Analysis (see also type)accident data, 74-7chemical, 22-6dimensional, 1-8first-order, 53-1Fourier, 9-6frequency, 9-7 (ftn)gravimetric, 24-2hydrograph, 20-7period, 75-14proximate, 24-2sensitivity, 86-43signature, 9-7 (ftn)time-series, 9-7 (ftn)ultimate, 22-4, 22-5, 24-2volumetric, 24-2
Analytic function, 8-1Analyzer
FFT, 9-7signal, 9-7spectrum, 9-7
Anchorpull, 39-5trench, 31-4
Anchoragemasonry, 67-6shear reinforcement, 50-19
Anchored bulkhead, 39-5Andrade’s equation, 43-16Amemiza, 27-2Andesite porphyry, 35-31Anemometer, 17-26Angle
banking, 78-7between figures, 7-8between lines, 6-1contact, 14-12
deflection, 77-13, 78-3depression, 6-2direction, 5-2, 7-5elevation, 6-2
explement, 77-13friction, external, 37-3
friction, soil, 37-3function of, 6-2helix thread, 45-13interfacial friction, 31-5, 31-5
interior, 77-13internal friction, 35-16, 35-25, 40-7, 43-7,
72-7intersection, 78-1lead, bolt, 45-13lift valve, 16-12of repose, 40-7, 72-6, 79-3plane, 6-1power, 83-7rupture, 43-7solid, 6-6spiral, 79-18static friction, 72-6station, 77-13to the right, 77-11trihedral, 6-5twist, 43-8, 45-13type, 6-2 (see also by name)valve, 16-12
Angularacceleration, 71-6frequency, 83-4impulse, 72-12momentum, 72-3motion, 71-6orientation, 5-1perspective, 2-3position, 71-6velocity, 71-6
Anhydride, 23-3
Anion, 25-1, GAnisotropic material, 5-1Annual
amount, 86-7 cost, 86-7cost method, 86-15return method, 86-15traffic, 73-4
Annuity, 86-7 Anode, sacrificial, 22-17Anoxic
condition, 27-3decomposition, 27-5denitrification, 27-3
ANSI, 81-2, 81-3Antecedent
moisture condition, 20-16 (ftn)runoff condition, 20-16
Anthracite, 24-4Anthrafilt, 26-11Anticlinal spring, GAntiderivative, 9-1Antilock brake, 74-5Antiskid brake, 74-5Antoine equation, 14-9 (ftn)Apex, 41-22Aphelion, 72-19API scale, 14-4Apogee, 72-19
ApparatusOrsat, 24-11vane shear, 35-28
Apparentcolor, in water, 25-8modulus, 43-11specific gravity, 75-8, Gvelocity, 21-3
Applicationexam, 89-2point of, 5-1
Applied load, pressure from, 40-2Approach
tangent, 78-1velocity of, 16-4, 17-16
Approaches, 73-12Approximate structural methods, 47-18Approximation, small angle, 6-3Approximations, series, 8-8Appurtenance, GApron, GAquatic plant, 25-9Aquation, 22-7Aquiclude, 40-10, GAquifer, 21-1, G
confined, 21-2free, 21-1unconfined, 21-1
Aquifuge, GAquitard, GAramid
fiber, 32-4tendon, 56-4
Arbitraryproportions method, 49-2volume method, 49-2weight method, 49-2
ARC, 20-16Arc, 85-9
basis, 78-3length, by integration, 9-5
Archimedes’ principle, 15-14Architect, 87-4Arctic, 32-11Area
between two curves, 9-4bolt, tensile stress, 65-3by integration, 9-4centroid, 42-1circulation, pedestrian, 73-15critical net, 60-2effective net, 60-3first moment, 42-2, 46-5gross, 60-1irregular, 7-1law of, 72-18method, landfill, 31-2moment of inertia, 42-3net, 60-1, 60-2of steel reinforcement bars, 50-10, 51-3
reduction in, 43-6second moment of, 42-3specific, filter, 29-9transformation method, 44-19
Ind
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
under the standard normal curve, A-12
weaving, 73-21Areal rain, 20-19Argument, 3-8Arithmetic
sequence, 3-11series, 3-11
Arm, moment, 41-2Aromatic, 23-3
alcohol, 23-2
liquid, 14-9 (ftn)Array, 4-1Arrival type, 73-13Arterial, 73-3
highway, GArtesian
formation, Gspring, Gwell, 21-2
Artificial expense, 86-20Aryl, 23-1
halide, 23-3
Asbestos, 32-4-cement pipe, 16-10, 26-10, 28-4substitutes, 32-4, 32-5
Asbestosis, 32-4As-built documents, 85-14Ascaris lumbricoides, 27-2ASCE (see American Society of Civil
Engineers)ASD, 58-4Aseptic meningitis, 27-2As fired, 24-3Ash, 24-3
air heater, 24-3bottom, 24-3, 32-5coal, 24-3combined, 32-5economizer, 24-3fly, 24-3pit, 24-3refractory, 24-3soda, 26-13
ASME long-radius nozzle, 17-30 (ftn)Aspect ratio, 17-37
diaphragm, 68-12
ellipse, 7-11Aspergillus, 27-2Asphalt
absorbed, 75-9binder, 75-2
grade, Superpave, 75-3
cement, 75-2concrete, 75-1
mix, 75-4
contenteffective, 75-9optimum, 75-11
cutback, 75-2emulsion, 75-2, Ggrading, 75-2mix, 75-3
hot rubber, 75-24mixer, 75-6modifier, 75-5
pavement, 75-1full-depth, 75-20, 75-21
recycling, 75-22polymer-modified, 75-5rubber, 75-23stone matrix, 75-23synthetic, 75-24
Asphaltic coating, pipe, 16-11ASR, 48-2Assembly, door, 81-4Assessment, life-cycle, 85-7Asset
account, 86-33current, 86-34fixed, 86-34
Assignment, 87-3Associative law
addition, 3-3matrix, 4-4multiplication, 3-3sets, 11-2
Assumedinflection point, 47-18meridian, 77-11
Assumption, Whitney, 50-9AST, 33-1ASTM, 81-2, 81-3
C330, 48-9E-119, 81-4prestressing tendon, 56-5
soil tests, 35-15, 35-16, 35-16
standardspipe, 16-11steel reinforcing, A-91, A-92
Asymmetrical function, 7-4Asymptote, 7-2Asymptotic, 7-2Atmosphere,
air, 30-8
properties, A-14
earth, 15-12pressure, 14-3
standard, A-33
Atmosphericair, 24-8, 30-8fluidized bed combustion, 24-5head, 18-6 (ftn)refraction, 77-9
Atom, 22-1Atomic
mass unit, 22-1number, 22-2, A-46, Gnumbers and weights of the elements,
A-51
structure, 22-1weight, 22-1, A-46, G
Atrazine, 32-11At-rest
earth pressure coefficient, 37-5soil pressure, 37-5
Attack, intergranular, 22-16Attenuator, impact, 74-8Atterberg limit test, 35-4, 35-21
Augerboring, 40-11hole method, 35-23
Augmented matrix, 4-1Austenitic stainless steel, 22-16 (ftn)Authority having jurisdiction, 81-2Autochthonous material, 25-7Autogenous
fuel, 31-11waste, 34-8 (ftn)
Autoignition temperature, 24-8Automatic traffic recorder, 73-5Autotroph, 27-1, 27-3, GAutotrophic bacteria, 28-9Auxiliary
equation, 10-1lane, Gview, 2-2
Availablecombined residual, 28-13compressive strength, 62-2hydrogen, 24-3, 24-14method, 32-13moment table, 59-4
Averageannual daily
flow, 26-18, 73-4traffic, 73-5
daily traffic, 73-4end area method, 79-4highway speed, 73-4power, 83-7precipitation, 20-2pressure, 15-6running speed, 73-4spot speed, 73-4travel speed, 73-4value
by integration, 9-4sinusoid, 83-5
velocity, 16-8Avogadro’s
hypothesis, 22-4law, 22-4, Gnumber, 22-4
AWWA standards, pipe, 16-11Axial
compressionlarge, 62-2small, 62-2
flow impeller, 18-4, 26-9turbine, 18-24
loading, 44-11member, 41-11strain, 43-4stress, 35-25tensile stress, 60-1
Axis,bending, 45-15conjugate, 7-11neutral, 44-10oblique, 2-2parabolic, 7-10principal, 42-8, 59-14, 70-2
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-4
Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-5
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
rotation, 42-7torsional, 45-15
Axleload (see Equivalency factors)spread-tandem, 75-13
Axonometric view, 2-3Azimuth, 77-11, 77-12, G
magnetic, 73-26
B
B1-B2 procedure, 62-2Babcock formula, 17-9Bacillary dysentery, 27-2Back
station, 78-3tangent, 78-1
Backfill, 40-8broken slope, 37-5
Backsight, 77-9Backward
pass, Gsoil pressure, 37-2
Backwashing, filter, 26-11Backwater, G
curve, GBacteria, 27-1, 27-2, 27-3
acid-forming, 30-14acid-splitting, 30-14autotrophic, 28-9carbonaceous, 28-8facultative, 27-3iron, 27-3mesophyllic, Gthermophilic, G
Bacteriology, 27-1Bag, cement, 48-1Baghouse, 34-4Balance
line, 79-6point, 79-6sheet, 86-34water, equation, 20-2weld group, 66-4
Balancedcondition (masonry), 68-6draft point, 34-8load, electrical, 83-9point, column, 52-5steel, 50-4, 50-6, 68-6
Balancing, 70-2chemical equations, 22-6traverse, 77-13, 77-14
Balantidiosis, 27-2Balantidium coli, 27-2Ballast circuit, 84-9Balling scale, 14-4 (ftn)Ballistic pendulum, 72-3Balloon payment, 86-41Ball valve, 16-12Bandwidth, 9-8, 73-17Banking
angle, 78-7roadway, 72-19
Bank measure, 79-1
Barchart, 85-9dowel, 55-5, 76-10purple, 48-8steel, 48-6
Barsreinforcing, A-91
total area of, 50-13, 51-3
Barometer, 15-2multi-fluid, 15-5
Barometricheight relationship, 15-12pressure, 14-3
Barrel, 19-26Basalt, 35-31Base, 22-9, G
breakaway, 74-8cement-treated, 48-9, Gcircle failure, 40-7constant, 22-12course, Gexchange process, 26-14flow, 20-6, 20-7 (ftn), Gmetal, 66-1of the cut, 39-2plate, column, 61-8time, 20-6unit, 1-5
Baseball, 17-34 (ftn), 17-39Baseline rate, 83-7Base units, SI, 1-5
Basinchemical sedimentation, 29-7sedimentation, plain, 29-6settling, Gstilling, G
Basis, depreciation, 86-20Batch
gravity thickening, 30-13mix, 75-6trial, 49-2
Batching, 49-1Bathtub distribution, 11-7Batter
decrement, 37-1, 37-9pile, G
Baumé scale, 14-5Bazin formula, 19-4 (ftn)Beam (see also type)
allowable loads table, 59-9moments chart, 59-9
bearing plate, 59-16bending coefficient, 59-3circular, 50-24-column, 44-11, 59-1, 62-1composite, 64-1concrete
cracking, 50-15deflection, 50-17design, 50-8, 50-10maximum deflection, 50-19
minimum thickness, 50-18
minimum width, 50-8
shear stress, 50-24
conjugate, 44-15, 47-6
continuous, 46-5plastic design, 59-11
curved, 44-19, 44-19
deep, 50-3, 50-30deflection, 44-13–44-16, 47-4
elastic, A-78–A-81
midspan, prestressing, 56-4
prestressed, 56-4steel, 59-5
depth, concrete, minimum, 50-18design selection table, 59-8doubly reinforced, 50-20, 50-21fixed-end, 46-1, 46-6hole in, 59-16indeterminate, 46-1, A-85–A-89
over-reinforced, 50-6serviceability, 50-15, 50-17shear
strength, 50-23stress, 44-9
soldier, cofferdam, 39-6, 39-8steel, 59-1steel, analysis flowchart, 59-6
steel, design flowchart, 59-8
T-, 50-19under-reinforced, 50-6unsymmetrical bending, 59-14width, minimum, 50-8
Bearing, 45-10, 77-12capacity, 36-1
allowable, 36-2, 36-2
clay, 36-4factors, 36-3, 36-3, 36-4
factors, long trench, 39-3
factors, piles, 38-2
gross, 36-3net, 36-4rock, 36-7sand, 36-6ultimate, 36-3ultimate, pile, 38-1water table, 36-7
connection, 65-2length, plate, 59-17plate, beam, 59-16pressure, safe, 36-2ratio, California, 35-29, 75-15stiffener, 44-18, 59-5, 63-4strength, allowable, 65-3stress, base plate, available, 61-9value, plate, test, 35-30wall, 54-2
Bedbiological, 29-8chemically active, 34-9fluidized, 31-10moisture, 24-3residence time, 34-5sand drying, 30-17sand filter, 32-13
Bedding load factor, 40-9Begin slope rounding, 80-3Beginning of curve, 78-3
Ind
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
Bell, G-shaped curve, 11-6
Beltfilter press, 30-16friction, 72-7highway, Gthickening, gravity 30-14
Benchmark, 77-7Bend, pipe, force on, 17-34Bending
axis, 45-15biaxial, 59-14moment diagram, 44-8plane of, 59-2strength, steel beam, 59-2stress, beam, 44-10unsymmetrical, beam, 59-14
Beneficial reuse program, 30-18Benefit-cost ratio, 86-16Bent, GBent, pile, GBenthic zone, GBenthos, GBentonite, 40-10, G
cement, 40-10soil, 40-10
Benzene ring, 23-1
Berm, Gfilter, 32-13
Bernoulli equation, 16-2, 17-14, 19-7Bessel equation, 10-5Best available technology, 34-2Beta
distribution, 85-13-method, 38-3ratio, 17-28
Bias, 11-13, 84-2Biaxial bending, 59-14, 69-4Bidding
competitive, 88-3phase, project scheduling, 85-8
Bifurcation ratio, GBillion, 1-7
Binary fission, 27-4, GBinder
asphalt, 75-2grade, Superpave, 75-3
specification, 75-23Bingham
fluid, 14-7-plastic model, 17-11
Binomialcoefficient, 11-2distribution, 11-4theorem, 3-3
Bioaccumulation, Gfactor, G
Bioactivation process, GBioassay, GBioavailability, G Biochemical oxygen demand, 28-8, G (see
also BOD)Biochemistry, 27-1Biocide, 27-4, 34-17 (ftn)
Bioconcentration, Gfactor, G
Biodegradation, GBiofilm filter, 26-11Biofilter, 34-5Biogas, GBiological
bed, 29-8contactor, rotating, 29-11contactor, rotating, characteristics, 29-11
filter, 29-8Biology, 27-1Biomagnification, G
factor, GBiomass, GBioreactor, 34-6Bioremediation, 34-5Biosolid, 30-2, 32-2 (ftn)Biosorption process, 30-3, GBiosphere, G Biostat, 34-17 (ftn)Biota, GBiot number, 1-9
Bioventing, 34-6Bisection method, 3-4, 12-1Bituminous
coal, 24-4coating, pipe, 16-11mix, 75-1
Black steel pipe, 16-10Blade
jet force on, 17-33pitch, circular, 18-4
Blasiusequation, 17-5solution, 17-42
Blast furnace gas, 24-7 (ftn)Bleeding, G
pavement, 75-5Blind drainage, GBlock
and tackle, 41-11shear strength, 60-3stress, 50-9
Bloom, GBlow
-down, 32-6-up, pavement, 75-5
Blowerair, 30-9wastewater, 29-4, 30-9
Blowingpavement, 75-5whistle, 88-3 (ftn)
Blue center steel, 45-20Blunder, 77-13Board
of directors, 87-2of engineering licensing, 89-1
BOCA, 58-4building code, 81-1
BOD, 28-8escaping treatment, 30-6exertion, 28-8loading, 29-9removal
efficiency, 29-9, 30-6fraction, 29-9, 30-6rate constant, 29-5
seeded, 28-9sludge age, 30-6soluble, 30-6treatment efficiency, 30-6ultimate, 28-8
Body burden, GBoiler
efficiency, 24-16horsepower, 24-16
Boilerplate clause, 87-3Boiling, 14-9
-point margin, 32-8Bolster, 50-2Bolt, 45-8, 65-1
allowable stress, 65-3
area, tensile stress, 65-3common, 65-1dimension, 45-10
family, 45-8grade, 45-8grade and type, 45-9
high-strength, 65-1marking, 45-9preload, 45-11, 65-3pretension, 65-3standards, 45-8tensile stress area, 65-3tension, minimum, 65-3
thread, 45-8torque factor, 45-12structural, 65-3
Bolted connection reduction values, 60-3
Bomb calorimeter, 24-14Bond, 86-29
fully amortized, 86-29 (ftn)masonry, 67-4pattern, 67-7running, 67-7yield, 86-30
Bondedstrain gage, 84-8tendon, 56-2
Bookkeeping, 86-33Book value, 86-23Boom, sonic, 14-14Boring, auger, 40-11Borrow
common, 79-2pit, 79-4
Bottom ash, 24-3, 32-5Bound
lower, 9-4upper, 9-4vector, 5-1 (ftn)
Boundaryirregular, 7-1layer, 16-8, 17-42value, 10-2
Bourdon pressure gauge, 15-2Boussinesq contour chart, 40-2Boussinesq’s equation, 40-1Boussinesq stress contour chart, A-71, A-72
Bowditch method, 77-14
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-6
Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-7
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
Boxclosed, 45-14section, 61-2shape, 59-2shoring, 39-1
Bracedcolumn, 45-2, 53-2, 53-4cut, 39-1
clay, 39-2medium clay, 39-3sand, 39-1, 39-2stability, 39-3, 39-4
Bracingcofferdam, 39-7diagonal, 53-2lateral, 59-2, 59-3member, 61-1spacing, 59-3
Braided stream, GBrake
antilock/antiskid, 74-5assist system, 74-5dynamometer, 84-12horsepower, pump, 18-9pump power, 18-9
Brakingdistance, 74-5rate, 74-5time, 74-5
Brale indentor, 43-13Branch (see Curve)Branch sewer, G Brass pipe, 16-10Breach of contract, 87-5Breakaway pole, 74-8Break-even point, 86-37Breaking
chain, Gstrength, 43-3
Breakpoint, 28-13, 34-3chlorination, 26-17, 26-17, 28-13, G
Breakthrough, 26-11, 29-12, 34-3Breathing apparatus, 82-2Breeze, 24-5Brick, 67-1
building, 67-3face, 67-3hollow, 67-3
Bridgeconstant, 84-10crane, 59-16deck, 46-11, 48-8deck, orthotropic, Grotary, 73-21truss, 41-12Wheatstone, 84-9
Brinell hardness, 43-12Brink depth, 19-19British thermal unit, 13-1Brittle
failure, 43-14, 50-5material, 43-16
Brix scale, 14-4 (ftn)Broad-crested weir, 19-13Broad fill, 40-9
Broken slope backfill, 37-5Bromine, 26-17Btu (see British thermal unit)Bubbling bed combustor, 34-7Buckingham pi-theorem, 1-8Buckling, 45-2
beam, 44-18coefficient, web plate, 63-2elastic, 61-4Euler, 61-2flexural, 61-2inelastic, 61-4lateral torsional, 59-2load, 53-4
Euler, 61-2local, 59-4, 61-2, 61-6modification factor, lateral torsional, 59-3stress, 61-2torsional, 61-2
Budgeting, 85-2, 85-5parametric, 85-6system, 85-5
Buffer, 22-9Building
brick, 67-3code, 58-4, 81-1, 81-2 cost, 85-4designer, 87-4element, fire resistance, 81-5height, allowable, 81-8-related illness, 32-4type, 81-8
Building Officials and Code AdministratorsInternational, 81-1
Built-in end beam, 46-6Bulk
modulus, 14-13water, 14-14
specific gravity, 75-8, 75-9, Gvelocity, 16-8
Bulkheadanchored, 39-5cantilever, 39-4flexible, 39-4tied, 39-5untied, 39-5
Bulking, Gsludge, 30-6, 30-11, G
Bunker C oil, 24-5Buoyancy, 15-14
center, 15-16pipelines, 15-16theorem, 15-14
Buoyant density, 35-7Burden, 86-36Buried pipe loading coefficients, 40-9
Buried pipe, loads on, 40-8Burner, staged-air, 34-16Burning
mass, 31-9rate, 31-9
Burnout velocity, 72-17Bus, 73-3
equivalent, 73-7
Business property, 86-20 (ftn)
Butterfly valve, 16-13, 17-12
Buttress wall, 37-1Byproduct, disinfection, 25-9, 25-10
C
C330, ASTM, 48-9Cabinet projection, 2-3Cable, 41-16–41-20
aircraft, 45-20catenary, 41-19hoisting, 45-19parabolic, 41-17tension, 72-11
Caisson, 40-10, Gpneumatic, 39-8
Cakefilter, 30-18sludge, 30-16
Calcium carbonate equivalents, A-48, A-49
hardness, 25-3Calculus, fundamental theorem of, 9-4Calibration, 84-2California bearing ratio, 35-29, 35-29, 75-15,
76-5
Calming, traffic, 73-22Calorimeter, bomb, 24-14Camp formula, 29-6Camp’s correction, 19-4Campylobacter jejuni, 27-2Candida, 27-2Canon, 88-1Canonical form, row, 4-2Cantilever
bulkhead, 39-4dimension, critical, base plate, 61-9footing, 36-2retaining wall, 37-1, 54-2wall, 39-4
Capacitance, 83-5Capacitive reactance, 83-5Capacitor, 83-5Capacity
bearing, 36-1allowable, 36-2, 36-2
clay, 36-4gross, 36-3net, 36-4rock, 36-7sand, 36-6ultimate 36-3
design, traffic, 73-5field, 31-7heat, 13-4, 13-4
ideal, 73-5intersection, 73-12landfill, 31-3moment, 50-9pedestrian, 73-17pile group, 38-5point, 38-2pull-out, 38-5reduction factor, 50-4, 52-3sewer, 28-4
shaft, 38-3
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
skin friction, 38-3specific, 21-3tensile, pile, 38-5
Capillaryaction, 14-11water, G
Capitalized cost, 86-7, 86-15Capitalizing an asset, 86-20Capital recovery method, 86-15Cap, landfill, 31-5Carbamate, 32-11Carbinol, 23-1
Carbohydrate, 23-3 , 28-14Carbon
adsorption, 29-12dioxide, 31-6
emission, 32-5in leachate, 31-8in water, 26-13properties, 31-6
fiber-reinforced concrete, 48-8fixed, 24-4granular activated, 26-12, 29-13, 34-3monoxide, emission, 32-5powdered activated, 29-13steel, 58-1
Carbonaceousbacteria, 28-8demand, G
Carbonatehardness, 25-3, 26-13, Greaction with alkali, 48-2
Carbonic acid, 25-1, 31-8, 34-18 (ftn)Carbonyl, 23-1
Carboxylic acid, 23-2
Carcinogen, GCar resistance, railroad, 74-3Carrier, G
slurry, 17-11Carryover factor, 47-14Cartesian
coordinate system, 7-3equation form, 3-3 (ftn)triad, 5-2unit vector, 5-2
Carver-Greenfield process, 30-19Casagrande method, 35-24Cascade impactor, GCased hole, GCase, Westergaard, 40-2Cash flow, 86-3
analysis, 86-9diagram, 86-3factors, 86-6, A-136
Cash system, 86-34Cast-iron pipe, 16-10, 26-20, 28-3, A-23
Catabolism, 27-5, GCatalytic
cracking, 24-3reduction, selective, 34-14
Categoryseverity, 74-7
Catena, GCatenary cable, 41-19Cathodic protection, 48-7
Cation, 25-1, GCauchy
equation, 10-5number, 1-9
-Schwartz theorem, 5-3Caustic embrittlement, 22-16Cavalier projection, 2-3Caveat emptor, 87-6Cavitation, 18-14, 18-15
coefficient, 18-15corrosion, 22-17preventing, 18-15
CBR, 35-29, 76-5
loads, 35-29
C-coefficient, runoff, A-44
CD-test, 35-27Cell, 31-3
height, 31-3wall, Gyield, 30-12, 30-12
Cellular cofferdam, 39-6Cement, 48-1
asbestos, pipe, 16-10asphalt, 75-2bentonite, 40-10factor, 49-2low-alkali, 48-2properties, 49-1
soil, 48-9-treated base, 48-9, G
Center, 7-2-entry mixer, 75-6instantaneous, 71-12, 71-13of
buoyancy, 15-16force, 72-17gravity, 9-6, 70-1mass, 70-1pressure, 15-4, 15-9, 15-10, 41-5pressure, shapes, 15-10
rotation, 66-7twist, 45-16vision, 2-3
-radius form, 7-9shear, 45-15, 59-14, 59-15torsional, 45-16
Centerline velocity, 16-8Centipoise, 14-7Centistoke, 14-8Central
force field, 72-17impact, 72-16limit theorem, 11-11tendency, 11-10view, 2-2
Centrate, 30-17Centrifugal
factor, 78-7force, 72-5pump, 18-2, 18-4ratio, unbalanced, 78-7
Centrifugation, 30-17Centrifuge, 30-17
Centripetalacceleration, 15-19 (ftn)force, 72-5
Centroid, 9-6, A-73
area, 42-1line, 42-2of volume, 70-1plastic, 52-6
Centroidalmass moment of inertia, 70-2moment of inertia, 42-3
Century storm, 20-5Cesspool, 29-2Cetane number, 24-7CFR, GCFSTR, 30-6Cgs system, 1-4Chain
breaking, Gengineer’s, 77-7Gunter’s, 77-7surveyor’s, 77-7
Chair, 50-2Chalk, 35-31Challenger, 86-18Chamber
diversion, 29-12filter, 32-13grit, 29-6secondary combustion, 31-11surge, 18-21
Changeair, Gorder, 85-14
Channelerodible, 19-25nonrectangular, 19-18open, 19-2rectangular, 19-6, 19-8, 19-17routing, 20-22steel, 61-2transition, 19-15trapezoidal, 19-6, 19-8, 19-9triangular, 19-7
Channeling, 34-16pavement, 75-5
Channelization, 20-22, Gdevice, 73-26taper, 73-26
Chaos theory, 84-2 (ftn)Chaotic error, 84-2Char, 24-5Characteristic
dimension, 16-6equation, 4-7, 10-1length, 19-18log, 3-5polynomial, 4-7specific feed, 31-11, 34-9
Characteristicsactivated sludge plant, 30-3, 30-5
aerated lagoon, 29-6
aeration, 30-4
aerobic digester, 30-15
anaerobic digester, 30-16
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-9
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
electrostatic precipitator, 34-7
final clarifier, 30-5
flocculator-clarifier, 26-10
gasoline, 32-8
grit chamber, 29-6
municipal solid waste, 31-2, 31-10
pump, 18-2, 18-12
rotating biological contactor, 29-11
sedimentation basin, 29-7
septage, 29-3
septic tank, 29-2
sludge, 30-13
stabilization pond, 29-5
valves, 16-13
wastewater, 28-5Charcoal, activated, 34-3Charge
electric, 83-2number, 22-3
Charpy test, 43-14Chart
alignment, column, 53-2, 53-3, 61-3
bar, 85-9control, 11-13Cox, 14-9Gantt, 85-9influence, 40-2Newmark, 40-2particle size distribution, 35-4Taylor, slope stability, 40-7
Check, Gvalve, 16-12
Chelant, 34-15 (ftn)Chelate, 34-15 (ftn), GChelating agent, 34-15 (ftn)Chelation, GChemical
application point, water treatment, 26-2
equations, balancing, 22-6equilibrium, 22-9flocculation, 29-7hazard, 82-1loading, 34-18oxygen demand, 28-12precipitation, Greaction, 22-5scrubbing, 34-14sedimentary rock, 35-31sedimentation basin, 29-7volatile organic, G
Chemically active bed, 31-11, 34-9Chemicals
names and formulas, A-51
used in water treatment, A-64
Chemistryinorganic, 23-1organic, 23-1
Chemocline, GChemotroph, 27-1Chert, 35-31Chezy
coefficient, 19-4equation, 19-4-Manning equation, 19-4
Chloramination, 26-18
Chloramine, 25-9, 28-13, GChlordate, 32-11Chloride
corrosion, 48-7limit, 48-7
Chlorinated pesticide, 32-10, 32-11Chlorination, 26-16, 28-13, 32-6
alternatives, 25-12breakpoint, 26-17, Gcontact tank, 29-12pretreatment, 26-4split, Gsuper-, 26-13wastewater, 29-12
Chlorinator, flow pacing, 29-12Chlorine, 26-16, 34-6
alternatives, 29-12demand, 28-13, Gdioxide, 26-17dose, 26-17, 28-13dose, well, 21-4in pesticide, 32-11in water, 25-9
Chlorofluorocarbon, 32-5, 32-6
Chlorothalonil, 32-11Chlorpyrifos, 32-11Choke, 19-20Choked flow, 19-20Cholera, 27-2Chord, 41-12, 61-1
basis, 78-3distance, 78-4length, 17-37modulus, masonry, 67-4offset, 78-5
Churn, 18-16Cipoletti weir, 19-12Circle, 7-9
Mohr’s, 42-8, 44-6unit, 6-1
Circularbeam, 50-24blade pitch, 18-4channel, critical depth, A-39
channel ratios, 19-5, A-38
curve, 78-1mil, 83-2motion, 71-6permutation, 5-5pipe ratios, A-15, A-38
shaft, design, 45-13transcendental function, 6-2
Circulating fluidized-bed boiler, 34-9Circulation, 8-7 (ftn), 17-38
area, pedestrian, 73-15Circumferential
strain, 45-5stress, 45-3, 45-4
Cis form, 3-8Civil
complaint, 87-5tort, 87-5 (ftn)
Clam, 27-4Clarification, 29-7
zone, 30-13
Clarifierchemical, 29-7final, 29-12, 30-5-flocculator, 26-10grit, 29-6intermediate, 29-12plain sedimentation, 29-6secondary, 29-12
Class, G-A surface, 65-3-B surface, 65-3construction, 81-7limit, 11-9occupancy, 81-6property, bolt, 45-9survey, 77-4
Classical adjoint, 4-5Classification, soil, 35-4
AASHTO, 35-4, 35-5Unified, 35-5, 35-6
USCS, 35-5, 35-6
Classified label, 81-3Clastic sedimentary rock, 35-31Clausius-Clapeyron equation, 14-9 (ftn)Clay, 35-4
adhesion, 38-4
bearing capacity, 36-4bentonite, 40-10braced cut, 39-2cap, 31-5cohesion, 35-26, 38-4
consistency, 35-21formation, 35-31heave, 39-3liner, 31-4masonry, 67-3pipe, vitrified, 16-10, 28-4raft on, 36-9sensitivity, 35-28, 35-28
slope stability, 40-7varved, 40-4versus sand, 36-1
Clean coal technology, 24-5Clean-out, GClearance, GClear distance, 50-8Clearwell, 26-11Client, dealing with, 88-2Clinker, 24-3, 26-16Clinographic projection, 2-3Closed
box, 45-14loop recovery, 34-3traverse, 77-13
Closely held corporation, 87-2Close sheeting, 39-1Closure
error, 77-5
in departure, 77-14in latitude, 77-14
Cloth, filter, 40-10Cloud point, 24-7Cloverleaf interchange, 73-21Cluster information, 80-1CMP, A-25, A-43
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Coagulant, 26-6, 29-7dose, 26-7
Coagulation, 29-7Coal, 24-4
ash, 24-3blending, 32-13cleaning, 24-5dry ultrafine, 32-7formation, 35-31micronized, 24-5properties, 24-5
substitution, 32-14tar epoxy, 16-11upgrading, 24-5
Coarseaggregate, 48-2, 75-3
PCC, 76-3
properties, 49-1
screen, wastewater, 29-6Coat
prime, Gseal, Gtack, G
Coating, pipe, 16-11COD, 28-12Code, 88-1
adjunct, 81-2building, 58-4, 81-1, 81-2model, 81-1
Coefficientabsorption, 22-7, 31-8air resistance, 74-1binomial, 11-2cavitation, 18-15Chezy, 19-4conductivity, 35-23Coriolis, 19-26correlation, 11-13discharge, venturi, 17-28
distribution, Gdrag, 17-39drag, cars, 17-39drainage, 31-7, 76-5draining, 75-18earth pressure, 37-5
end condition, 61-3, 61-3
endogenous decay, 28-7, 30-7end restraint, 45-2, 45-2
film, 30-16flexibility, 47-8flow, orifice plate, 17-30
friction, 72-7
gas absorption, 31-9
half-velocity, 28-6Hazen uniformity, 35-3Horton, 19-13layer, 75-18layer strength, 75-18
load transfer, 76-5, 76-5
loss, 17-12, 17-12, 17-13
Manning roughness, 19-4, A-35
mass-transfer, 34-17matrix, 4-6maximum yield, 28-6moment, ACI, 47-18, 47-19
neutral stress, 21-9nozzle, 18-22of
active earth pressure, 37-3compressibility, 14-12, 40-5consolidation, 40-5contraction, 17-16, 17-28creep, 56-3curvature, soil, 35-3discharge, 17-17, 17-28drag, 17-39, 17-40
earth pressure at rest, 37-5expansion, thermal, 14-12 (ftn)flow, 17-28friction, 72-6friction, skidding, 74-4
friction, static, 15-12friction, tire, 74-4gradation, 35-3heat transfer, overall, 30-16lateral earth pressure, 38-3lift, 17-37linear expansion, 44-3passive earth pressure, 37-4permeability, 21-2restitution, 72-15road adhesion, 74-4rolling friction, 72-8rolling resistance, 72-7, 72-19secondary consolidation, 40-6the instrument, 17-27thermal expansion, 34-14, 44-4
thermal resistance, 84-6
transformation, 5-2transmissivity, 21-3uniformity, 21-5variation, 11-11velocity, 17-16, 17-28viscosity, 14-6viscous damping, 72-16volumetric expansion, 44-3
orifice, 17-17
oxygen saturation, 30-9partition, Groughness, 17-7saturation, 67-5shear, ACI, 47-19, 47-19
skin friction, 17-42, 38-3slip, 65-3smoothing, 86-41spillway, 19-13stability, 53-2Steel rainfall, 20-5
storage, 21-3strength, 43-5, 75-18torque, 45-12valve flow, 17-13web plate buckling, 63-2yield, 30-7
Coefficients, method of undetermined, 10-4Cofactor
matrix, 4-1of entry, 4-2
Cofferdam, 39-5, 39-6, 40-10bracing, 39-7
cellular, 39-6double wall, 39-5horizontal sheeting, 39-8liner-plate, 39-8single wall, 39-6vertical-lagging, 39-8
Co-firing, 31-10Cogeners, 22-2Coherent unit system, 1-2Cohesion, 14-11 (ftn), 35-25, 43-7
clay, 35-26gravel, 35-26intercept, 35-25sand, 35-26soil, 35-25
Cohesionless soil, 37-2Cohesive soil, 37-2Coke, 24-5Coke-oven gas, 24-7 (ftn)Cold
-cracking, pavement, 75-5flow, 43-16in-place recycling, 75-22planing, 75-22train, 75-22-weather concrete, 49-6
Colebrook equation, 17-5Coli, Escherichieae, GColiform, G
fecal, 27-4, Gtotal, 27-4
Collapsing pressure, 45-4 (ftn)Collector, 28-2
road, 73-3sewer, 28-2
Collinear, 7-2force, 41-6
Collision, 72-15diagram, 74-7
Colloid, 34-19, GColor, in water, 25-8Column
alignment chart, 53-2, 53-3, 61-3
base plate, 61-8braced, 45-2, 53-2, 53-4concrete, 52-1design strength, 52-3eccentricity, 52-3, 52-7effective length, 53-2end coefficient, 45-2
footing, 36-2, 55-2ideal, 61-2interaction diagrams, A-93–A-110,
A-119–A-124
intermediate, 45-3, 61-4long, 52-1, 53-1, 61-4masonry, 69-1matrix, 4-1rank, 4-5 (ftn)short, 52-1slender, 45-2spiral, 52-2spiral wire, 52-3
steel, 61-1strip, slab, 51-7
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-11
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
tied, 52-1unbraced, 53-2, 53-4
Combination, 11-2direct, 22-5sections, compression, 61-7
Combinedash, 32-5footing, 36-2residual, 25-11, Gresidual, available, 28-13residual, unavailable, 28-13sewer, 28-2sewer overflow, 29-12stress, 44-5system, G
Combining weight, 22-5Combustible loss, 24-15Combustion
complete, 24-12data, 24-10
efficiency, 24-16fluidized bed, 24-5, 31-10heat of, 24-14, A-55
incomplete, 24-11loss, 24-15reaction, 24-8, 24-9
staged, 34-16stoichiometric, 24-9temperature, 24-15
Combustor, fluidized-bed, 34-7Comfort curve length, 79-16Comity, 89-2Comminutor, 29-7, GCommon
bolt, 65-1borrow, 79-2excavation, 79-2ion effect, 22-10ratio, 3-11
Commutative law,addition, 3-3matrix, 4-4multiplication, 3-3sets, 11-2
Compacted measure, 79-1Compaction, G
factor, 31-3relative, 35-17relative, suggested, 35-19
Compact section, 59-2Comparative negligence, 87-5Comparison test, 3-12Compartment, water quality, 32-12Compass rule, 77-14Compatibility method, 46-2Compensation
footing, 36-9level, G
Compensatorydamages, 87-6fraud, 87-6
Competitive bidding, 88-3Complaint, 87-5Complementary
angle, 6-2
equation, 10-1probability, 11-4solution, 10-4
Complement, set, 11-1Complete
combustion, 24-12filtration, 26-2-mix aeration, 30-3, 30-6mixing, Gmixing model, 26-8
Completion time, 85-13Complex
conjugate, 3-8matrix, 4-1number, 3-1, 3-7number operations, 3-8plane, 3-7power, 83-7
Componentalias, 9-7 (ftn)moment, 41-3
Components of a vector, 5-2 Composite
action, 57-1full, 64-2
beam, 64-1concrete member, 57-1construction, 64-1load, 57-3pile, 38-1spring constant, 45-19steel member, 64-1structure, 44-19
Compositing, wastewater, 28-14Composition, atmospheric air, 30-8, 30-8
Compostingin-vessel, 30-19sludge, 30-19static pile, 30-19
Compound, 22-3, Gamount factor, 86-5curve, 78-6interest, 86-11organic, 23-1organic family, 23-3, 23-3
properties, A-64
volatile, organic, 28-14, 32-14, 34-3Compounding
factors, 86-7period, 86-28
Compressed soil pressure, 37-2Compressibility, 14-1, 14-12
adiabatic, 14-13coefficient of, 14-12, 40-5factor, 14-12 (ftn)index, 35-24isentropic, 14-13isothermal, 14-13
Compressible fluid, flow, 17-30Compression
adiabatic, 15-13 air, 30-9index, 35-24, 40-4
secondary, 40-6isentropic, 30-9
isothermal, 15-12line, virgin, 35-23member, 61-2
steel, 61-1polytropic, 15-13ratio, 40-4strength
concrete, 76-2
masonry, 67-3
zone, 30-13Compressive strength, 43-7
steel column, 61-4concrete, 48-4grout, 67-6masonry, 67-3unconfined, 35-28
Compressor efficiency, 30-9Concave, 7-2
down curve, 7-2up curve, 7-2
Concavity, 7-2Concentrated
force, 41-2plate girder, 63-5
web force, 59-4Concentration
cell corrosion, 22-16curve, 20-6ionic, 22-9metal, 28-14stress, 44-4stress, press-fit, 45-7time of, 20-3, G
Concentricconnection, 65-1, 65-4cylinder viscometer, 14-6, 14-6 (ftn)loading, 44-11shear connection, 65-4tension connection, 66-3
Concrete, 48-1, Gall-lightweight, 48-9asphalt, 75-1asphalt, mix, 75-4
beamdeflection, 50-17–50-19doubly reinforced, 50-20, 50-21maximum deflection, 50-19
minimum thickness, 50-18
minimum width, 50-8
shear stress, 50-24carbon fiber-reinforced, 48-8cold-weather, 49-6column, 52-1
long 53-1components, properties, 49-1, 49-3compressive strength, 48-4consolidation, 49-5cover, 50-8, 50-15curing, 49-5density, 15-11 (ftn), 48-4disintegration cracking, 48-2durability, 49-1fiber-reinforced, 48-8, 76-10flowable, 48-9footing, 55-1
Ind
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
form, 49-6, 49-7formwork, 49-7high
-performance, 48-8-slump, 48-3-strength, 48-8
honeycomb, 49-5hot-weather, 49-5lightweight, 48-9masonry unit, 67-1member, composite, 57-1mixing, 49-5mixture, proportioning, 76-2MMA, 48-9modulus of
elasticity, 48-5rupture, 48-5
nonvibration, 48-9normal weight, 48-9pavement, 76-1 (see also type)pipe, 16-10, 28-3, A-22
placing, 49-5Poisson’s ratio, 48-6polymer, 48-9, 76-10post-tensioned, 56-2pressure, lateral, 49-7prestressed, 56-1pretensioned, 56-1proportions, typical, 48-1
roller-compacted, 48-9, 75-24sand-lightweight, 48-9segregation, 49-5self
-compactible, 48-9-consolidating, 48-9-placing, 48-9
shear strength, 48-6, 50-18, 50-23shrinkage compensating, 48-2slab, 51-1
effective width, 64-2slump, 49-1, 49-1
strength acceptance testing, 49-1test cylinder, 48-4wall, 54-1water pipe, 26-20tremie, 40-10workability, 49-1
Concurrent force, 41-6Condemnation, G
inverse, GCondenser cooling water, 32-6Condition
antecedent moisture, 10-16 (ftn)runoff, 20-16
standard, 24-2Conditional
convergence, 3-12probability, 11-4
of failure, 11-7Conditions
of equilibrium, 41-6standard, 14-4
Conductance, 83-2, 83-5
Conductivity, 83-2coefficient, 35-23hydraulic, 21-2
Conduitburied, 40-8pressure, 16-6
Coneinfluence, 40-2of depression, 21-5, Gpenetrometer test, 35-17
Confidenceinterval, 77-2level, 11-11
z-values, 11-12
limit, 11-11Confined
aquifer, 21-2compression test, 35-23space, 82-2water, G
Confining stress, 35-25Confirmed test, GConflagration, GCongestion pricing, 73-23Congruency, 7-3Conic section, 7-8, 7-9
Conjugateaxis, 7-11beam, 44-15
method, 47-6supports, 47-6
complex, 3-8depth, 19-22, 19-25, G
Connate water, GConnection
bearing, 65-2bolt, 45-10concentric, 65-1, 65-4
tension, 66-3eccentric, 45-17, 65-1, 65-5, 66-4flexible, 65-6framing, 65-6, 66-7
type 1, 65-6, 65-7type 2, 65-6type 3, 65-6
moment-resisting, 65-7nonconcentric tension, 66-4reduction values, 60-3
rigid framing, 65-6shear, 65-4, 65-5simple framing, 65-6slip-critical, 65-2tension, 65-5type 1, 65-6type 2, 65-6type 3, 65-6
Connector, 65-1shear, 57-2, 64-1stud, 64-1
Consequential damages, 87-7Conservation of momentum, 17-31, 72-2Consideration, 87-3Consistency
clay, 35-21concrete, 48-3
Consistentdeformation method, 46-2, 44-19, 47-7system, 3-7unit system, 1-2
Consolidated-drained test, 35-27normally, 35-23normally, curve, 40-4soil, normally, Gvolume method, 49-2-undrained test, 35-27
Consolidation, 40-3, Gclay, 36-2coefficient of, 40-5concrete, 49-5curve, 40-3, Gdegree of, 40-5primary, 40-3, 40-4rate, primary, 40-5secondary, 40-3, 40-5
coefficient of, 40-6test, 35-23time factors, 40-5
virgin, 35-23Constant
acid, 22-12base, 22-12bridge, 84-10coefficient, 10-1, 10-2, 10-3 deoxygenation, 28-8dissociation, 22-12elastic, 43-8
relationships, 43-8equilibrium 22-11Euler’s, 9-8 (ftn)formation, 22-12fundamental, back endpaper
gravitational, 1-2, 72-18
Hazen-Williams, A-25
-head test, 35-22Henry’s law, 22-7, 34-17
ionization, 22-12, 22-12
Joule’s, 13-1Manning, 19-4matrix, 4-6Newton’s gravitation, 72-18of integration, 9-1, 10-1percentage method, 86-21 (ftn)physical, back endpaper
reaction rate, 22-10, 22-11, 34-5reaeration, 28-7reoxygenation, 28-7self-purification, 28-10spring, 44-2, 45-19stability, 22-12storage, 21-3temperature variation, 28-8thermoelectric, 84-7torsional, 59-3universal gas, inside back cover
warping, 59-3Constrained motion, 72-9Construction
class, 81-7contract, 87-3 (ftn)
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-12
Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-13
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
joint, 76-1, 76-9manager, 87-4sequencing, 85-8shored, 57-3slip-form, 76-1stake, 80-1
markings, 80-4
time, 85-8unshored, 57-3
Consulting engineer, 89-1Contact
angle, 14-12, 14-12
stabilization, 30-3tank, 30-3
chlorinator, 29-12unit, solid, 26-10
Contactor, biological, rotating, 29-11Containment
landfill, 31-2wall, 40-10
Contaminant level, maximum, 25-5, 28-14Content
moisture, 35-7water, 35-7
Contingency cost, 85-5Continuing curve, point of, 78-6Continuity equation, 17-2Continuous
beam, 46-1, 46-5plastic design, 59-11
compounding, 86-28distribution function, 11-5-flow stirred tank reactor, 30-6
Continuously reinforced concrete pavement,76-1
Contourchart, Boussinesq, 40-2, A-71, A-72
interval, 77-20line, 77-20
Contract, 87-2breach, 87-5documents, 87-3 (ftn)construction, 87-3 (ftn)discharge of, 87-5privity, 87-6requirements for, 87-2standard, 87-4
Contracted weir, 19-10Contraction, 17-12, 17-13, G
coefficient, 17-16, 17-28joint, 76-9weir, 19-10
Contractor, 87-4Contraflexure, point of, 7-2, 8-2, 44-16Control
chart, 11-13delay, 73-12downstream, 19-20inlet, 19-26joint, 76-9of access, G on flow, 19-20outlet, 19-26station, 77-7
upstream, 19-20zones, temporary traffic, 73-26
Controlled low-strength material, 48-9Controller
activated, 73-17fixed-time, 73-15multi-dial, 73-15on-demand, 73-16
Conventionhalf-year, 86-3year-end, 86-3
Conventionalaeration, 30-3filtration, 26-2
Convergenceabsolute, 3-12conditional, 3-12tests for, 3-11
Convergentsequence, 3-10series, 3-11
Converging-diverging nozzle, 17-27Conversion
factors, A-1–A-6, front endpaper
power, 13-6
viscosity, 14-8
Convex, 7-2hull, 7-2, 7-3
Convexity, 7-3Conveyance, 19-4, 19-8
factorEspey, 20-12
trapezoidal channel, A-40, A-42, GConveyor, submerged scraper, 32-5Convolution integral, 10-7Cooling
Newton’s law of, 10-10tower blow-down, 32-6
Coordinateholonomic, 71-2system, 7-3
Coordinates of fluid steam, 17-17Coordination warrant, signalization, 73-15Coordinating, project, 85-14Coplanar, 7-2
force, 41-6Copper
loss, 83-15pipe, 16-10tubing, 16-10
Copperas, 26-6Cordon charge, 73-23Core, 44-12, 84-4 (ftn)
loss, 83-15wire rope, 45-20
Coriolisacceleration, 71-8coefficient, 19-26
Corner, meander, GCornering ratio, 78-7Corona wire, 34-7Corporation, 87-2Correction, overburden, 36-7
Correlationcoefficient, 11-13
Germain, 29-10hardness, 43-14Othmer, 14-11Schulze, 29-11
Corrosion, 22-15cavitation, 22-17chloride, 48-7concentration cell, 22-16crevice, 22-16erosion, 22-16fatigue, 22-17fretting, 22-17galvanic, 22-16intergranular, 22-15-resisting compound, 48-3stress, 22-17tendon, 56-4two-metal, 22-16
Corrosive substance, 32-2Corrugated metal pipe, 19-30Corrugation, pavement, 75-5Cosine
direction, 5-2, 7-5, 41-2function, integral, 9-8
Cosines, law of, 6-5, 6-6Cost (see also type), 86-31
accounting, 86-35aeration, 30-9analysis, life-cycle, 85-7building, 85-4capitalized, 86-7construction, 85-4contingency, 85-5direct, 85-9effect of
inflation, 85-7location, 85-7
electricity, 18-9estimating, 85-3financing, 85-5fixed, 85-9indirect, 85-9information, 85-6moveable equipment, 85-4on, 85-9of goods sold, 86-37operating, 85-9opportunity, 86-18overhead, 85-6plus fee, 87-4prime, 85-9professional services, 85-5road user, 73-23site development, 85-4sunk, 86-3-time trade-off, 85-2, 85-9variable, 85-9
Costing, matrix, 85-6Coulomb, 83-2
earth pressure theory, 37-2, 37-3, 37-4friction, 72-5
Coulomb’s equation, 35-25Counter-flow mixer, 75-6Counterfort wall, 37-1Couple, 41-4, 41-9
Ind
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
Coupon rate, 86-30Course, base, GCover
concrete, 50-8, 50-15final, 31-5plate, 61-2steel, 50-8type, 20-16
Cox chart, 14-9CPM, 85-10CPT value, 35-17Crack
alligator, 75-4concrete disintegration, 48-2reflection, 75-5
Crackedmoment of inertia, 50-16transformed inertia, 50-16
Crackingconcrete beam, 50-15hydrocarbon, 24-2moment, 50-17, 56-5pavement, 75-5strength, 40-9
Cramer’s rule, 3-7, 4-6Crandall method, 77-14Crane, bridge, 59-16Crank-slider, 71-13Crash
cushion, 74-8experience warrant, signalization, 73-15
Crawl speed, 73-4Credit, 86-33
investment, 86-25tax, 86-25
Creed, 88-1Creep, 43-15
coefficient of, 56-3modulus, plastics, 43-11pretension loss, 56-3rate, 43-15strength, 43-15test, 43-15
Crestcurve, 78-14, 79-13
length, 79-13dam, 15-11
Crevice corrosion, 22-16Crippling, web, 59-4, 59-5Criteria pollutant, 32-2Critical
cantilever dimension, base plate, 61-9density, 73-6depth, 19-17, 38-2, A-39, Gexcavation height, 39-3fastener, 45-17flow, 16-8, 19-17, G
nonrectangular channel, 19-18occurrences, 19-18
lane group, 73-12load, column, 45-2movement, 73-12net area, 60-2part, 65-1
path, 85-1, 85-2method, 85-10
point, 8-2, 28-10slenderness ratio, 45-2slope, 19-3, Gspeed, 73-6velocity, 26-5, G
sludge, 18-6volume-capacity ratio, 73-12zone, 16-8
Cross-beam deck, 46-11Hardy, Professor, 47-13product, 41-2
vector, 5-4section
at pluses, 79-2, 79-3most efficient, 19-9roadway, 79-2typical, 79-2
-section monosymmetric parameter, 59-3slope, adverse, 78-8
Crosswalk, 73-17Crown, 19-26 (ftn), 78-8
runoff, 78-8Crow’s foot, 80-1Crud, 26-15Crumb-rubber asphalt, 75-23, 75-24Crushing strength, 40-9Crustacean, 27-1, 27-4Crusting agent, 32-7Cryptosporidiosis, 27-2Cryptosporidiuma, 27-2Crystallization, water of, 22-4CSO, 29-12CSTR, 30-6CTB, 48-9Cubic yard, 79-1Culvert, 17-19, 19-26
classifications, 19-27
entrance loss, 17-19
pipe, 19-30Cumulative
frequency, 11-9rainfall curve, 20-2
Cunette, GCup-and-bob viscometer, 14-6 (ftn)Cup-and-cone failure, 43-4Curb
flare, 78-4inlet, 28-5
Cure speed, asphalt, 75-2Curing, G
concrete, 49-5Curl, 8-7Current
asset, 86-34divider, 83-4electrical, 83-2liability, 86-34meter, 17-26ratio, 86-34
Curvaturecoefficient of, soil, 35-3earth, 77-9
Curve, 7-3backwater, Gbeginning of, 78-3bell-shaped, 11-6circular, 78-1compound, 78-6concentration, 20-6consolidation, 40-3crest, 78-13, 78-14cumulative rainfall, 20-2degree, 7-3degree of, 78-1, 78-2drawdown, Geasement, 79-17e-log-p, 35-23end of, 78-3Euler’s, 45-2flow, 35-21, 43-5highway, 78-3horizontal, 78-1horizontal, through point, 78-5IDF, 20-5intensity-duration-frequency, 20-5layout, 78-3learning, 86-42, 86-42
length, 78-2, 78-3, 78-12, 78-13comfort, 78-16crest curve, 78-13–78-15
load-elongation, 43-1number
runoff, 20-17, 20-18
NRCS, 20-15overconsolidated, 40-4parabolic, 78-4, 78-10performance, 18-16point of continuing, 78-6power, 43-5preconsolidation, 40-4q-, Grailway, 78-3rating, Grebound, 35-23recession, 20-6recompression, 40-4reloading, 35-23, 43-7resistance, 74-2, 74-4sag, 28-10, 79-15spiral, 78-17stationing, 78-3stress-strain, 43-1, 43-3symmetry, 7-4system, 18-16transition, 78-17unloading, 43-7vertical, 78-10
through point, 78-12, 78-13unequal tangent, 78-16unsymmetrical, 78-16
virgin, 40-4zero air voids, 35-18
Curvature, point of, 78-3Curved beam, 44-19, 44-19
Cushion, crash, 74-8Cut
and fill, 79-2, 79-3
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-14
Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-15
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
-and-sum method, 41-15base of, 39-2braced, 39-1
clay, 39-2sand, 39-2
chain, 77-7-off wall, 40-10size, 34-6
Cutback asphalt, 75-2CU test, 35-27Cutting hardness, 43-13Cyanazine, 32-11Cycle, hydrologic, 20-1, GCyclic
strain, 43-9 (ftn)stress, 43-9 (ftn)
ratio, 40-11Cycloalkene, 23-3
Cycloid, 7-3Cyclone, 34-6
impactor, GCylinder
-operated pump, 18-2split, concrete, 48-5thick-walled, 45-4, 45-5
Cylindrical coordinate system, 7-3, 7-4
Cypermethrin, 32-11
D
D-load strength, 40-9Daily traffic, 73-4D’Alembert’s
paradox, 17-2 (ftn)principle, 72-6
Dalton’s law, 24-13, 31-6Dam
flood control, 20-21force on, 15-11gravity, 15-11RCC, 48-9
Damage, 87-6 (see also type)hydrogen, 22-16punitive, 87-5relative, 75-15
Damaging flood, 20-6Damper, pulsation, (pump) 18-2Dangerous section, 44-11Darcy, 21-2
chart, 17-6
equation, 17-7friction factor, 17-5, A-26–A-29
velocity, 21-4Darcy’s law, 21-2, 31-7, 35-22Darcy-Weisbach equation, 17-7Data collector, 77-5Date, examination, 89-3Datum, 77-7Davis equation, 74-4Daylight
line, 80-3stake, 80-3
DBF, 20-6DC
machine, 83-14
motors, A-134
D-cracking, 48-2DDE, 32-11DDT, 32-10, 32-11Dead load, 41-4, G
pressure, 40-8Deaeration, 28-7Debit, 86-33Decay
coefficient, endogenous, 30-7endogenous, 28-7exponential, 10-9rate, Velz, 29-10weld, 22-15
Deceleration, braking, 74-5Dechlor, 26-17Dechlorination, 29-12, 34-6Decile, 11-10Decision sight distance, 78-10, G Deck
bridge, 46-11, 48-9orthotropic, G
cross-beam, 46-11Declaration, negative, 32-3Declination, 77-11Declining balance method, 86-21, 86-26Decoloration time, 28-12Decomposition, 22-6, 27-5
aerobic, 27-5anaerobic, 27-6anoxic, 27-5end product, 27-5
Decrement, batter, 37-1, 37-9Deep
beam, 50-3, 50-30strength asphalt pavement, 75-2
Defect, spherical, 6-6Defendant, 87-5Defender, 86-18Deficit, oxygen, 28-7Definite integral, 9-1 (ftn), 9-4Deflection, 44-3
angle, 77-11, 77-13, 78-3spiral, 78-18
beam, 44-13–44-16, 47-4elastic, A-78–A-80
bridge, 84-9concrete beam, 50-17
long-term, 50-18maximum, 50-19, 50-19
frame, 47-5prestressed member, 56-4slab, 51-2, 51-7steel beam, 59-5temperature, 43-11truss, 44-17, 47-4
Deformationconsistent, method of, 44-19elastic, 44-2, 46-1linear, 47-3thermal, 44-3, 47-3
Deformed bar, 48-6Degenerate
circle, 7-10ellipse, 7-11
Degradability, VOC and VIC, 34-4
Degree of, 6-1accuracy, 77-4consolidation, 40-5curve, 7-3, 78-1, 78-2freedom, 47-11, 71-2indeterminacy, 41-7, 46-1
kinematic, 47-10 static, 47-7
polynomial, 3-3redundancy, 46-1saturation, 35-7, 73-12
Dehydration, 23-2Deicing chemical, 48-7Delay, control, 73-12Del operator, 8-5Delta-connection, 83-9Delta rosette, 84-12Demand
biochemical oxygen, 28-8, Gcarbonaceous, Gchemical oxygen, 28-12chlorine, 28-13, Gelectrical, 83-7first-stage, Gmultiplier
wastewater, 28-2
water, 26-17
nitrogen, Gnitrogenous, 28-9oxygen, 30-9second stage, Gstarvation, 73-20water, 26-17, 26-18,
Demineralization, 26-18De Moivre’s theorem, 3-8de Morgan’s law, sets, 11-2Denitrification, 27-5, 28-13Denitrifier, 27-3Dense-graded mix, 75-3Density
buoyant, 35-7concrete, 15-11 (ftn), 48-4critical, traffic, 73-6drainage, Gdry, 35-7dry, maximum, 35-17equivalent, 37-6fluid, 14-3
function, 11-4gauge, nuclear, 35-20index, 35-7jam, G
traffic, 73-6mass, 1-3moist, 35-7of a fluid, 14-3-on-the-run meter, 75-8optical, 32-13pedestrian, 73-17relative, 35-8, 35-17, 35-17
saturated, 35-7seawater, back endpaper
soil, 35-7solid, 35-7submerged, 35-7, 36-7
Ind
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
testfield, 35-20in-place, 35-20
traffic, 73-6weight, 1-3wet, 35-7zero air voids, 35-19zero-voids, 35-7
Deoxygenation, 28-7, Grate constant, 28-8
Departure, 77-12tangent, 78-1
Dependentevent, 11-3motion, 71-11variable, 3-2
Depletion, 86-24Deposit, alluvial, GDepreciation, 86-20, 86-21
accelerated, 86-23basis, 86-20formulae, 86-27
rate, 86-21recovery, 86-26
Depressionangle of, 6-2cone of, 21-5, Gstorage, G
Depth, 2-2alternate, 19-15, G-area-duration, Gbrink, 19-19concrete beam, minimum, 50-18conjugate, 19-22, 19-25, Gcritical, 19-17, 38-2, A-39, Ghydraulic, 19-3, Gimpoundment, 20-20mean hydraulic, 19-18normal, 19-6, Gplate girder, 63-1profile, 19-21side water, 29-7-thickness ratio, 63-1
Derivative, 8-1directional, 8-6Laplace transform of, 10-6
Derivedfrom rule, 32-2unit, 1-5, 1-6
Desalination, 26-18Descartes’ rule of signs, 3-4Design
allowable stress, 58-4basis flood, 20-6capacity, 73-5development phase, project scheduling,
85-8flood, 20-4, 20-6interaction diagram, 52-5life, 75-14limit state, 58-5load and resistance factor design, 58-4period, 75-14power, 72-7 (ftn)professional, 87-6sequencing, 85-8
slip resistance, 65-3speed, 73-3, 73-4
storm, 20-4strength, 50-4traffic, 75-12, 75-13vehicle, 73-3
vehicle, standard, 73-3, 75-13Desorption
gas, 34-2 (ftn)thermal, 34-18
Destruction removal efficiency, 34-10Destructive test, 43-14, 81-4Desulfurization, flue gas, 24-5, 34-2Detector-transducer, 84-3Detention (see also Retention)
period, 26-5surface, Gtime, 26-5, 29-7time, hydraulic, 30-5, 30-8
Detergent, 25-9Determinacy, 41-7Determinant, 4-3Detour, 73-26Detrial mineral, GDetritus tank, 29-6Deuterium, 22-2Devastating flood, 20-6Developer, 87-4Development length, 55-5
masonry, 67-6Deviation, standard, 11-10Deviator stress, 35-26Device, pressure measurement, 15-2Devlo admixture, 48-3Dewatering, 26-10, G
groundwater, 31-7sludge, 30-16
Dew point, flue gas, 24-13Dezincification, 22-16Diagonal
bracing, 53-2matrix, 4-1parking, 73-18shear reinforcement, 50-18tension stress, 50-22
Diagramcash flow, 86-3collision, 74-7free-body, 41-7influence, 46-7–46-13interaction, 52-5–52-7mass, 20-21, 79-6moment, 44-8plastic moment, 59-13profile, 79-6ripple, 20-21shear, 44-8time-space, 73-15
Diameterequivalent, 16-6, 16-7, 17-9, 17-40hydraulic, 16-6, 17-9
Diametralinterference, 45-6strain, 45-5
Diamond interchange, 73-20
Diaphragmflexible, 68-11floor, span-to-width ratio, 68-12
gauge, 15-2 pump, 18-3rigid, 68-11
Dieldrin, 32-11Diene, 23-1 (ftn)Diesel
-electric locomotive, 74-4fuel, 24-7
Differencedivided, 12-3Rth-order, 3-10table, divided, 12-3 (ftn)
Differentialequation, 10-1equation, higher order, 10-8gear ratio, 74-2leveling, 77-9manometer, 15-3positioning, 77-6settlement, 36-1term, 9-1transformer, 84-4
Differentiationimplicit, 8-4partial, 8-4
Diffused air injection, 26-4Diffusion-controlled cell, 84-3Digester
aerobic, 30-15anaerobic, 30-15egg, 30-15gas 30-15 (see also Methane)
Digestion, Gaerobic, 30-14
Digit, significant, 3-1Dihaloacetonitrile, 25-10Dilatancy, G
test, 35-4Dilatant fluid, 14-6, 14-7Dilation, 44-2Dilution
disposal, G of position, 77-6purification, 28-9
Dimensioncharacteristic, 16-6nominal, 16-10primary, 1-7sieve, 35-2
Dimensional analysis, 1-8Dimensionless
group, 1-7, 1-9
groups, 1-9
number, 1-7, 1-9
unit hydrograph, NRCS, 20-11
Dimensionsbolt, 45-10
cast iron pipe, A-23
concrete pipe, A-22
of variables, 1-8
parking lot, 73-14
prestressing tendon, 56-5
PVC pipe, A-21
steel pipe, 16-11, A-16–A-19
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-16
Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-17
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
Dimetric view, 2-3Dimictic, GDimple spring, GDioxin, 32-7Direct
-acting pump, 18-2combination, 22-5cost, 85-9current, 83-2design method, 51-6design method, ACI, 47-18filtration, 26-2impact, 72-16labor, 86-32leveling, 77-9runoff, 20-8shear, 66-5shear test, 35-24
Directed graph, 85-9Direction
angle, 5-2, 7-4cosine, 5-2, 7-5, 41-2, 41-22number, 7-5
Directionalderivative, 8-6design hour volume, 73-5distribution factor, 75-13factor, 73-5interchange, 73-21
Directrix, 7-10Disabled parking, 73-17Disbenefit, 86-16Disbursement, 86-3Discharge, 18-4
coefficient of, 17-17, 17-28coefficients, venturi, 17-28
from tank, 17-16, 17-17of contract, 87-5side, 18-4specific, 21-4
Discounting, 86-5Discriminant, 3-3, 7-9Disinfection, 26-16
byproduct, 25-9, 25-10(chlorine) dose, 28-13
Disintegration, pavement, 75-5Disjoint set, 11-1Dispersion, 11-10
test, 35-5Displacement, 22-6, 71-2
meter, 17-25virtual, 46-9
Disposal,dilution, Geffluent, 29-12sludge, 30-18
Dissociation constant, 22-12Dissolved
air flotation thickening, 30-13metal, in wastewater, 28-14organic solid, 29-3oxygen, 28-7
in water, A-50
standard, 28-10solids, 28-6
Distance, 71-2between figures, 7-7braking, 74-5clear, 50-18decision sight, 78-10, Gedge, 65-1embedment, 50-19freeboard, Gnonstriping sight, Gpassing sight, 78-9, Gsight, Gskidding, 74-5stopping, 74-5stopping sight, 78-9, 78-10, G
Distillate oil, 24-6Distillation, 26-18
global, 32-11temperature, 32-8
Distortion energy theory, 43-8Distributed load, 41-4, 41-6Distribution (see also type)
and marketing, sludge, 30-18bathtub, 11-7beta, 85-13binomial, 11-4chart, particle size, 35-3, 35-4coefficient, Gcontinuous, 11-6discrete, 11-4exponential, 11-6factor, 47-13
directional, 75-13lane, 75-13
frequency, 11-9Gaussian, 11-6gravity, 26-19hypergeometric, 11-5multiple hypergeometric, 11-5normal, 11-6of moments, 5-17, 51-7
particle size, 35-2Poisson, 11-5velocity, 16-8water, 26-19
Distributive law, 3-3, 4-4, 11-2Ditch, oxidation, 30-3Diverge gore area, 73-22Divergence, 8-6Divergent sequence, 3-10Diversion
chamber, 29-12road, 73-26
Divideddifference, 12-3
table, 12-3 (ftn)highway, 73-3, G
Division, matrix, 4-4Documentation, project, 85-14Domain, eminent, GDomestic
sewage, 28-6waste, Gwastewater, 28-1
Dominant load, 46-13LRFD, 67-4
Donnan formula, 31-7Door assemblies, fire testing, 81-4Dose
absorbed, Gchemical feed, 26-7chlorine, 26-17, 28-13coagulant, 26-7fluoride, 26-11infective, 27-6
DOT geotextile specifications, 40-10
Dot product, 5-3Double
-acting hammer, 38-2-acting pump, 18-2-action shear, 55-3alternate mode, 73-15-alternate parking, 73-18-angle formula, 6-4angle member, 61-7butt, 45-10 (ftn)declining balance, 86-21, 86-26draining, 40-5-entry bookkeeping, 86-33integral, 9-3integration method, 44-13liner, 31-3meridian distance, 77-16ring infiltration test, 21-9rivet, 45-10 (ftn)root, 3-3seal, 34-13shear, 45-10-stage process, 26-13suction pump, 18-4-wall cofferdam, 39-5
Doubling time, 86-8, 86-8
Doubly reinforced concrete beam, 50-20,50-21
Dowel, 55-5bar, 55-5, 76-10bar spacing, pavement, 76-8
Downcycling, 32-11Downdrag, 38-6Downpull, GDownstream
control, 19-20taper, 73-26
Draftforced, 26-4gauge, 15-3 (ftn)tube, 18-24
Drag, 17-38 (see also type)coefficient, 17-39, 17-39, 17-40
cars, 17-39disk, 17-39sphere, 17-39vehicular, 74-2
Drain-down, pavement, 75-5extraction, 31-7relief, 31-7subgrade, 75-24
Drainageblind, Gcoefficient, 31-7, 75-18, 76-5density, G
Ind
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
pavement, 76-5two-way, 40-5
Drainingcoefficient, 31-7double, 40-5netting, 31-3one-way, 40-5single, 40-5
Drawbar pull, 74-3Drawdown, G
curve, Gwell, 21-5
Drawing, pictorial, 2-2 (ftn)Dredge line, 39-2Drift
story, 53-2velocity, 34-7
Drilled hole, 60-2Drinking water
demand, 26-18standards, 25-5, A-57
Drins, 32-11Drive train efficiency, 74-3Driving dynamometer, 84-12Drop
hammer, 38-2hydraulic, 19-19 (ftn), 19-25panel, 51-5pressure, steel pipe, A-30
spherical, 10-10Drum
filter, vacuum, 30-16mixer, 75-6wire rope, 45-20
Dryabsorption, 34-14air, composition, 24-8
basis, concrete, 49-3density, 35-7density, maximum, 35-17flue gas loss, 24-15scrubbing, 34-14strength test, 35-4ultrafine coal, 32-7unit weight at zero air voids, 35-19weather flow, 20-7 (ftn), G
Drying bed, sand, 30-17Dual-certified steel, 58-5Dual-layer
filter, 26-10pavement, 76-10
Ductilecast iron, pipe, 16-10failure, 50-6material, 43-5transition temperature, 43-15
Ductility, 43-5, 58-2transition temperature, 43-15
Dulong’s formula, 24-14Dummy
activity, 85-10joint, 76-9node, 85-10unit load, 46-6
method, 47-3–47-5Dump, 31-2
Dumping, ocean, sludge 30-19Dumpy level, 77-9Du Nouy
ring, 14-10torsion balance, 14-11
Duplex pump, 18-2Dupuit equation, 21-5Durability
concrete, 49-1factor, 49-1masonry, 67-5pavement, 75-3
Dust, 32-7coal, 32-7control, 32-7
Duty cycle, 83-12Dye penetrant testing, 81-4Dynamic
analysis, 44-7, 47-2balance, 70-2energy, 16-2 (ftn)equilibrium, 72-5friction, 72-6friction, coefficient of, 74-4head, 18-6reaction, 72-5 (ftn)response, 44-7similarity, 17-43viscosity, 14-6 (ftn)
Dynamics, 71-1vehicle, 74-1
Dynamometer, 84-12Dyne, 1-4Dysentery, 27-2Dystrophic, G
E
Earthcurvature, 77-9pressure, 37-2
active, 37-2, 37-3coefficient, 37-3–37-5, 37-5
Coulomb, 37-2–37-4lateral, coefficient of, 38-3passive, 37-2, 37-4Rankine, 37-2, 37-4
rare, 22-2Earthquake load, 50-3Earth’s atmosphere, 15-12, 15-13Earthwork, 79-1
factor load, 79-1factor, swell, 79-1measure
bank, 79-1compacted, 79-1loose, 79-1
volume, 79-4Easement, G
curve, 79-17East declination, 77-11Eastern coal, 24-4Eccentric
connection, 65-1, 65-5, 66-4impact, 72-16load
column, 45-3
connection, 45-17 footing, 36-8
loading, 44-11shear connection, 65-4
Eccentricity, 7-8, 7-11, 7-12, 44-11, 45-3column, 52-3, 52-7dam, 15-12normalized, 52-3 orbit, 72-19, 72-19
Echelonform, row-reduced, 4-2matrix, 4-1
Echoviruses, 27-2Eckert number, 1-9
E. coli, 27-3, 27-4, GEconocrete, 76-10Economic
analysis factors, A-137–A-155
evaluation, roads, 73-23indicator, 86-39life, 86-19order quantity, 86-42
Economical shape, 58-5Economizer ash, 24-3Eddy current testing, 43-11Edge, adsorption, GEdge distance, 65-1EDM, 77-5, 77-8EDTA, 25-4Eductor pipe, 21-4Effect
common ion, 22-10isotope, 22-2 (ftn)Magnus, 17-38P-delta, 53-1, 62-1Peltier, 84-6 (ftn)photoelectric, 84-4piezoelectric, 15-2, 84-4second-order, 62-1Seebeck, 84-6Thompson, 84-6 (ftn)
Effectiveasphalt content, 75-9flexural stiffness, 53-3floor area, 26-19fluid weight (see Equivalent fluid weight)force, 72-5 (ftn)grain size, 35-22green
ratio, 73-12time, 73-16
head, 17-16, 18-6height, masonry column, 69-2interest rate, 86-28, 86-5 length, 61-2
column, 45-2, 53-2length factor, 53-2, 61-2, 61-3
alignment chart, 53-3, 61-3
wall, 54-2moment of inertia, 50-17, 64-3net area, 60-3number of passes, 29-10period, 86-2porosity, 21-2pressure, 37-6, 40-5
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-18
Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-19
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
radius of gyration, steel beam, 59-3red time, 73-16roadbed soil resilient modulus chart,
75-16
section modulus, 64-3slab width, composite member, 57-2soil resilient modulus, 75-15specific gravity, 75-8, G stress, 35-14, 35-27, 37-6, 40-5
friction angle, 35-25
value, 83-5velocity, 21-3walkway width, 73-17weld throat, 45-13width, 50-19, 64-2
concrete slab, 64-2Effectiveness, lever, 15-14Efficiency, 13-6
boiler, 24-16combustion, 24-16compressor, 30-9destruction removal, 34-10drive train, 74-3furnace, 24-16isentropic, 30-9joint, 16-10, 45-11lever, 15-14motor, 83-15overall, pump, 18-9oxygen transfer, 30-9pile group, 38-5pulley, 41-11pump, 18-9
pumping (temperature), 18-20removal, 34-5thermal, 24-16
Efficient cross section, 19-9Effluent, G
disposal, 29-12stream, G
Efflux, speed of, 17-16Effort, 41-10Egg digester, 30-15Eigenvalue, 4-7Eigenvector, 4-7EIR, 32-3Ejector pump, 18-2Elastic
analysis, 45-16 (ftn)beam deflections, A-78–A-80
buckling, 61-4constants, 43-8
constants, relationships, 43-8deformation, 44-2, 46-1design method, 59-8failure, 44-18fixed-end moments, A-83, A-84
impact, 72-15limit, 43-2line, 44-14method, 66-5region, 43-2, 48-7settlement, 40-3strain, 43-2toughness, 43-6
Elasticity, modulus of, 43-2, 43-2, 44-2, 58-2Electric
charge, 83-2machine, 83-14
motor size, 18-10
Electricalplant, hydroelectric, 18-21protection, rebar, 48-7
Electricity, cost, 18-9Electrode, 66-1Electrodialysis, 26-18Electromotive force, 83-2Electronic distance measurement, 77-5, 77-8Electrostatic
precipitator, 34-7precipitator, characteristics, 34-7
unit, 83-2Element (structural)
building, fire resistance, 81-5stiffened, 61-6unstiffened, 61-6
Elementary row operation, 4-2Elements (chemical), G
atomic numbers and weights, A-46
periodic table of the, A-47
transition, 22-2types, 22-2
Elevationangle of, 6-2drawing, 2-2equilibrium, 79-9
Elimination, Gauss-Jordan, 4-2Ellipse, 7-10, 7-11
equation, 31-7Elliptic integral function, 9-8 (ftn)e-log-p curve, 35-23Elongation at failure, 43-5Elutriation, G Elutriator, GEmbankment, G
fill, 40-9, 79-6Embedment
distance, 50-19length, masonry, 67-6
Embrittlementcaustic, 22-16hydrogen, 22-16
Eminent domain, G Emission, fugitive, 32-8Employer, dealing with, 88-2Emulsified asphalt, 75-2Emulsion, 22-7 (ftn), G
asphalt, GEncephalitis, 27-2Encroachment, G End
condition coefficient, 61-3, 61-3
plate construction, 65-8
point, titration, 25-2post, 41-12-restraint coefficient, 45-2, 45-2
-restraint factor, 61-3slope rounding, 80-3
Endoergic impact, 72-15Endogenous decay, 28-7
coefficient, 28-7, 30-7
Endosulfan, 32-11Endothermic reaction, 22-14Endrin, 32-11Endurance
limit, 43-9ratio, 43-9strength, 43-9
Energy, 13-1change, 47-3conservation law, 13-2dynamic, 16-2 (ftn)-efficiency ratio, 13-6 (ftn)falling mass, 13-3 (ex)flow, 13-3, 16-2grade line, 16-9, 17-15gradient, 19-3, G gravitational, 13-3impact, 16-4internal, 13-4kinetic, 13-3, 16-2line, 16-9lost in a jump, 19-22method, 47-3potential, 13-3, 16-2pressure, 13-3, 16-2-production efficiency, 13-6sink, 17-15source, 17-15specific, 13-1, 16-1, 16-9, 19-14spring, 13-3stagnation, 16-4static, 13-3, 16-2 strain, 43-6, 44-11, 44-2tapered, 26-9total, 16-2, 16-4-use efficiency, 13-6velocity, 16-2 (ftn)-work principle, 13-3, 13-4
Engineeringdimensional system, 1-7economy factors, A-137–A-155
intern, 89-1 (ftn)News Record equation, 38-2registration, 89-1
strain, 43-2stress, 43-2
Engineer-In-Training exam, 89-1Engineer’s
chain, 77-7level, 77-9transit, 77-11
Engineers’ Creed, 88-1Engineers, dealing with, 88-3English
engineering system, 1-2gravitational system, 1-3
Enlargement, 17-12, 17-13ENR equation, 38-2Entamoeba histolytica, 27-2Enteric, GEnteropathogenic coli, 27-2Enteroviruses, 27-2Enthalpy
of formation, 22-14, 22-15
of reaction, 22-14Entrained air, 76-3, 76-3
Ind
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
Entranceloss, culvert, 17-19
spiral, 79-17Envelope
failure, 35-25maximum shear, 47-20shear, 50-23
Environment, 32-2Environmental
engineering, 32-2impact report, 32-3
Enzyme, 27-3, G Eötvös number, 17-43Ephemeral stream, G Epicycloid, 7-3Epidemic, 10-10Epilimnion, GEpoxy
coal tar, 16-11-coated rebar, 48-8, 67-6coating factor, 55-5pipe coating, 16-11
Equalangle, 61-1-tangent parabola, 78-10vectors, 5-1
Equality of matrices, 4-3Equalization, flow, 29-3Equation, 3-2
Andrade’s, 43-16Antoine, 14-9 (ftn)auxiliary, 10-1Bernoulli, 16-2, 17-14, 19-7Bessel, 10-5Blasius, 17-5Boussinesq’s, 40-1Camp, 29-6Cauchy, 10-5characteristic, 10-1Chezy, 19-4Chezy-Manning, 19-4Clausius-Clapeyron, 14-9 (ftn)Colebrook, 17-5complementary, 10-1Coulomb’s, 35-25Darcy, 17-7Darcy-Weisbach, 17-7Davis, 74-4differential, 10-1Donnan, 31-7Dupuit, 21-5ellipse, 31-7Engineering News Record, 38-2ENR, 38-2Euler’s, 3-8, 10-5
of motion, 72-8Francis weir, 19-11Gauss’ hypergeometric, 10-5Hagen-Poiseuille, 17-7Hazen’s, 35-22Hazen-Williams, 17-7Horton, 19-13, 21-9interaction, 62-2
AISC (steel), 59-15Jacob’s, 21-7
Legendre, 10-5Lloyd-Davies, 20-13 (ftn)Manning, 19-4Mohr-Coulomb, 35-25 (ftn)Monod’s, 28-6Nikuradse, 17-5non-parametric, 3-3NRC, 29-10O’Connor and Dobbins, 28-7parametric, 3-2quadratic, 3-3rational, 20-13reduced, 10-1Rehbock weir, 19-11Rohsenow, 14-10NRCS lag, 20-4simultaneous linear, 3-7Streeter-Phelps, 28-10tension field action, 63-3Terzaghi-Meyerhof, 36-3Theis, 21-6Thiem, 21-5three-moment, 46-5Torricelli’s, 17-16Velz, 29-10water balance, 20-2Weisbach, 17-7Zuber, 14-10
Equiangular rosette, 84-12Equilateral hyperbola, 7-12Equilibrium, 72-2
chemical, 22-9, 22-11conditions, 41-6conditions, static, 41-6
constant, 22-11dynamic, 72-5elevation, 79-9in three dimensions, 41-20isopiestic, 14-9method, beams, 47-17phase, 72-6static, 15-16
Equipotential line, 17-3, 21-7Equity, 86-34Equivalence, economic, 86-5Equivalency factor
flexible pavement, A-126–A-128
rigid pavement, A-129–A-131
Equivalentsand derived SI units, back endpaper
axial compression method, 62-1calcium carbonate, A-48, A-49
chemical, 22-4density, 37-6diameter, 16-7, 16-7, 17-9, 17-40fluid
height, 15-5
pressure, 37-6weight, 37-6
frame method, 51-5hydrostatic pressure, 37-6Joule, 13-1length, 17-11, 17-12, A-31
population, 28-3resultant, 41-4
single-axle load, 75-12specific weight, 37-6spring constant, 45-19truck/bus/RV, 73-7
uniform annual cost, 86-7vector, 5-1 (ftn)vehicle, 73-6velocity, 21-3water chemistry, A-48, A-49
weight, 22-4, Gmilligram, 22-8
erf, 9-8Erodible channel, 19-25
side-slopes, 19-25
velocities, 19-25
Erosion corrosion, 22-16Error, 11-13
analysis, 77-1, 77-2, 77-4function, 9-8, 11-6magnitude, 84-3of the mean, 77-2order of, 77-4product, 77-4straight-line, 45-19 (ftn)sum, 77-4terms, 84-3
type, 84-2Errors and omissions insurance, 87-7ESAL, 75-12Escape velocity, 72-19Escherichieae coli, G (see also E. coli)Espey
conveyance factors, 20-12
synthetic hydrograph, 20-12
unit hydrograph, 20-12Ester, 23-1, 23-3
Estimatingcost, 85-3parameter method, 85-6
Estimator, 85-3unbiased, 11-10
Estuary, GEthanol, 24-7Ether, 23-1, 23-3
Ethical priority, 88-2Ethics, 88-1Ethyl alcohol, 24-7Euler
buckling load, 53-4, 61-2constant, 9-8 (ftn)curve, 45-2equation, 3-8, 10-5equations of motion, 72-8load, 45-2number, 1-9
Eutrophic, GEutrophication, 25-7Evaluation, nondestructive, 43-11Evaporation, 10-10
pan, 20-21reservoir, 20-21
Evapotranspiration, GEven symmetry, 7-4, 9-7
Event, 11-3, 85-1
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-21
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
E. vericularis, 27-2Exact, first-order, 10-3 Exaggeration, vertical, 77-19Exam
date, 89-3licensing, 89-1, 89-2
Excavation, 39-1, 79-6common, 79-2height, critical, 39-3rock, 79-2safety, 82-1
Excessair, 24-12air, in concrete, 49-3spherical, 6-6water, in concrete, 49-3
Excitation, motor, 83-13Exemplary damages, 87-7Exertion, BOD, 28-8Exfoliation, 22-16Exhaustion, premature, 29-12Exit spiral, 79-17Exoergic impact, 72-15 (ftn)Exothermic reaction, 22-14Expansion
adiabatic, Gby cofactor, 4-3coefficient of, 14-12 (ftn)factor, 17-31, 17-31
joint, 76-9linear, coefficient, 44-3series, 8-8thermal, coefficients, 34-14, 44-4
volumetric, coefficient, 44-3Expected value, 77-1, 86-30Expense, 86-32Expensing an asset, 86-20Explement angle, 77-13Exponent, 3-5
polytropic, 15-13rules, 3-5
strain-hardening, 43-5Exponential
decay, 10-9distribution, 11-6, 11-7form, 3-8function, integral, 9-8gradient cash flow, 86-4 growth, 10-9, 86-4reliability, 11-7weighted forecast, 86-41
Exposed fraction, 15-15Exposure level, noise, 82-3
Extended aeration, 30-3Extending screed, 75-7External
force, 41-2, 72-2friction angle, 37-3
pressure, 15-14rate of return, 86-12work, 13-2
Extractiondrain, 31-7method, 75-9well, gas, 31-6
Extremefiber, 42-7, 44-11 point, 8-2stress, 44-5
Extrinsic waste, 32-2Extrusive igneous rock, 35-31
F
F-waste, 32-2FAA formula, 20-4Fabric
nonwoven, 40-11reinforcing, 40-10woven, 40-11
Facebrick, 67-3value, 86-29velocity, 21-4, 34-5
Facilitymaterial recovery, 31-10waste-to-energy, 31-9
Factor (see also type)absorption, 34-17adhesion, 38-3, 38-4
bearing capacity, 36-3, 36-3, 36-4
bioaccumulation, Gbioconcentration, Gbiomagnification, Gbolt torque, 45-12capacity reduction, 50-4, 52-3carryover, 47-14cement, 49-2centrifugal, 78-7compaction, 31-3compounding, 86-7
compressibility, 14-12 (ftn)conversion, front endpaper, A-1–A-6
conveyance, trapezoidal channel, A-40,
A-42
Darcy friction, 17-5, A-26–A-29
directional, 73-5distribution, 75-13
distribution, 47-13durability, 49-1economic analysis, A-137
effective length, 53-2, 61-2, 61-3
wall, 54-2end-restraint, 61-3epoxy coating, 55-5expansion, 17-31, 17-31
Fanning friction, 17-5 (ftn)fatigue
notch, 43-10stress concentration, 43-9, 43-10
friction, pavement, 76-8gage, 84-8, 84-8
growth, 75-13projection, 75-13
heavy vehicle, 73-8hole, 65-3impact, 16-4, 40-9instrument, 77-8integrating, 10-2interval, 77-8joint quality, 16-10
lane distribution, 75-13lateral torsional buckling, 59-3lightweight aggregate, 55-5load, 40-10, 50-3
bedding, 40-9equivalency, 75-12
load (haulage), 79-1loading, 31-3moment
amplification, 62-1modification, 59-3
nut, 45-12of safety
overturning, 15-11sliding, 15-12
peak hour, 73-5peaking, 28-2phase, 83-7piping geometry, 17-13plastification, web, 63-6population adjustment, 73-8power, 83-7, 83-8section, 19-3service, 72-7 (ftn), 83-11shape, 35-23, 36-3side friction, 38-3, 72-19, 78-7standard cash flow, A-136
strength reduction, 50-4, 52-3stress concentration, 44-4
press fit, 45-8
stripping, 34-17surface area, 75-7surface finish, 43-10
table, A-137
time, 40-5transverse sensitivity, 84-8truck, 75-12utilization, 73-23velocity of approach, 17-28
Factored load, 50-3Factorial, 3-2 (tbl, ftn)Factors vs. strength, 43-16Factory cost, 86-32, 86-36 Facultative, G
bacteria, 27-3heterotroph, 27-4pond, 29-4, 29-4
Failure, 11-3base circle, 40-7brittle, 43-14, 50-5cup-and-cone, 43-4ductile, 50-6envelope, 35-25line, 35-25mean time to, 11-7shear, soil, 36-3slope circle, 40-7soil, 35-25toe circle, 40-7veneer, 31-5
Faith of an engineer, 88-1Fall
-arrest system, 82-2protection, 82-2, 82-3
Ind
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
Falling-head test, 35-22limb, 20-6mass energy, 13-3 (ex)
Familychemical, 22-2organic compound, 23-1, 23-2, 23-3
Fanning friction factor, 17-5 (ftn)Faraday, 83-2Fast
Fourier transform, 9-7track pavement, 75-24tracking, 85-9
Fastener, 45-8, 65-1allowable
load, 65-3stress, 65-3
critical, 45-17Fatigue
corrosion, 22-17failure, 43-8life, 43-9loading, 58-5notch
factor, 43-10sensitivity, 43-10
ratio, 43-9resistance, pavement, 75-3strength, 43-9stress concentration factor, 43-10, 44-5test, 43-8
Fatty acid, 23-2, 27-6Faulting, pavement, 75-5Fecal coliform, 27-4, 27-5, GFeed characteristic, specific, 31-11Fee
projection, 85-2structure, 87-4
Feldspar, 35-31Fenvalerate, 32-11Fermentation, 27-6Ferritic stainless steel, 22-16 (ftn)FFT, 9-7
analyzer, 9-7Fiber
core wire rope, 45-20extreme, 42-7-reinforced concrete, 48-8, 76-10
Fiberglass, 32-4Fiduciary responsibility, 87-2Field
autogenous, 31-11capacity, 31-7density test, 35-20
File hardness, 43-14Fill, 79-6
and cut, 79-2, 79-3broad, 40-9embankment, 40-9
Fillermetal, 66-1mineral, 75-3
Fillet weld, 45-13, 66-1size, minimum, 66-3
Film coefficient, 30-16
Filterbackwashing, 26-11berm, 32-13biofilm, 26-11biological, 29-8cake, 30-18chamber, 32-13cloth, 40-10dual-layer, 26-10fixed media, 29-8fly, 29-8high-rate, 29-8low-rate, 29-8multi-media, 26-10others, 26-11polishing, 29-11porous, 21-5press
belt, 30-16recessed plate, 30-17
pressure, 26-11rapid, sand, 26-11ratio, 34-5roughing, 29-8sand, 26-10, 29-11
bed, 32-13slow, sand, 26-11specific area, 29-9standard-rate, 29-8super high-rate, 29-8trickling, 29-8two-stage, 29-9vacuum drum, 30-16
Filtering velocity, 34-5Filtration, 26-10
complete, 26-2conventional, 26-2direction, 26-2in-line, 26-2pressure, 30-17
Finalclarifier, 29-12, 30-5clarifier, characteristics, 30-5
cover, 31-5Financing cost, 85-5Fine aggregate, 48-2, 75-3
properties, 49-1
screen, wastewater, 29-6Fineness modulus, 48-2Fines, 24-4, 35-4, GFinish
surface, 2-4, 2-9, 43-9, 43-10
surface, steel, 65-3Finite series, 3-11Fire
fighting, water demand, 26-19resistance standard, 81-5resistivity, 81-4suppression, 26-19testing, door assemblies, 81-4
Firstderivative, 8-1flush, 32-12-in, first-out, 86-37law of thermodynamics, 13-2 (ftn)moment of a function, 9-6
moment of area, 42-2, 46-5-order
analysis, 47-2, 53-1exact, 10-3linear, 10-2separable, 10-3
-stage demand, GFish, toxic effects on, 25-8Fission, binary, 27-4, GFit
interference, 45-5press, 45-5shrink, 45-5
Fitting, 17-12 (ftn)equivalent length, A-31
threaded, 17-12 (ftn)Fixation, nitrogen, GFixed
asset, 86-34carbon, 24-4cost, 85-9, 86-31dissolved solids, 25-9element, 73-2-end
beam, 46-6moment, 46-6, A-83, A-84
flux, 26-18 (ftn)media filter, 29-8-point iteration, 12-2pulley, 41-11solids, 30-5suspended solids, 25-9-time controller, 73-15vector, 5-1 (ftn)
Fixity, 61-3Flagella, 27-4Flagellated protozoa, 27-4Flame temperature, 24-15
peak, 32-9Flange, 42-4
plate girder, 63-2, 63-3stiffener, 44-18, 59-5
Flap, 17-37Flare, 31-6, 34-12
curb, 78-4parabolic, 78-4
Flashmixer, 26-8point, 24-5 (ftn)set, 49-6
Flatfriction, 72-6plate, 45-18, 51-5
uniform pressure, 45-18
slab, 51-5Flatworm, 27-4Flexibility
coefficient, 47-8method, 47-7pavement, 75-3
Flexiblebulkhead, 39-4connection, 65-6diaphragm, 68-11membrane liner, 31-3, 31-4pavement, G
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-22
Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-23
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
design, 75-14equivalency factors, A-126–A-128
minimum thickness, 75-17, 75-19
nomograph, AASHTO, 75-17
pipe, 40-8Flexural
buckling, 61-2design strength, 59-4stiffness, 47-13, 53-3stress, 44-10
Flint, 35-31Float, 85-10
independent, Gtotal, G
Floatable, 29-7Floating object, 15-15, 15-16Floc, 26-6, GFlocculation, 26-9, 26-10, 34-19
additive, 26-6chemical, 29-7tapered, 26-9
Flocculator, 26-8, 29-7-clarifier, 26-10
characteristics, 26-10
Flood, 20-6control dam, 20-21damaging, 20-6design, 20-4, 20-6design basis, 20-6devastating, 20-6hundred year, 20-6nuisance, 20-6one percent, 20-6probability, 20-6probable maximum, 20-6routing, 20-22standard, 20-6standard project, 20-6velocity, 34-2
Flooding, 34-2, 34-17Floor
areaallowable, 81-8effective, 26-19ratio, 81-8
beam, 59-2Flotation, G
thickening, dissolved air, 30-13Flow
accelerated, 19-20, Garound cylinder, 17-40base, 20-6, 20-7 (ftn), Gchoked, 19-20coefficient, 17-28
valve, 17-13coefficients, orifice plate, 17-30
control, 19-20critical, 16-8, 19-17, Gculvert, 19-27
curve, 35-21, 43-5dry weather, 20-7 (ftn), Genergy, 13-3, 16-2equalization, 29-3, 34-18gravity, 18-5laminar, 16-7line, 21-7, 29-2
measurement, 17-25, 26-4needed, fire, 26-19net, 20-7, 21-7, 21-8
seepage, 21-7nonuniform, 19-2, 19-14, 19-20nozzle, 17-30number, 26-9of water, steel pipe, A-30
over flat plate, 17-42overland, 20-7, 20-7 (ftn), Gpacing chlorinator, 29-12rapid, 19-15, Grate, 26-11, 73-6, 73-8
15 min passenger car equivalent, 73-11equation, 26-9maximum service, 73-5pedestrian, 73-17saturation, 73-12, 73-13service, 73-5, 73-7, 73-10
rate of, 73-5ratio, 73-12regime, G
subsonic, 14-14 (ftn)retarded, 19-21, Gshear, 45-15sheet, 20-3shooting, Gsteady, 19-2, G
well, 21-5streamline, 16-7subcritical, 19-15, Gsupercritical, 19-15, Gsurface, 20-7, 20-7 (ftn)-through velocity, 26-5tranquil, 19-15, Gtubular, 30-6turbulent, 16-8, 17-5type-n, culvert, 19-28types, 19-2uniform, 16-9, 19-2, 19-4, 19-6, Guninterrupted, 73-2unit width, 73-17unsteady, well, 21-6value, asphalt mix, 75-11varied, 19-20, Gviscous, 16-7work, 13-3
Flowable concrete, 48-9Flowchart
steel beam analysis, 59-6
design, 59-8
steel tension member design, 60-6
Flowing well, GFlue gas, 24-11, 32-4 (ftn)
calculations, 24-12cleanup, 34-4desulfurization, 24-5, 34-2dew point, 24-13recirculation, 34-7temperature, 24-13
Fluiddensity, 14-3
height equivalent, 15-5
ideal, 14-2
massaccelerating, 15-19rotating, 15-19
Newtonian, 14-2, 14-6pressure, 14-2, 15-14real, 14-2shear stress, 14-6type, 14-2velocity, maximum, 17-3
viscosity type, 14-6weight, equivalent, 37-6
Fluidized-bedboiler, 34-9combustion, 24-5, 31-10combustor, 34-7
Fluke, 27-4Flume, G
Parshall, 19-13K-values, 19-14
Fluoridation, 26-11chemicals, 25-8
Fluoride ion, in water, 25-6Fluorosis, 25-6Flush
air, Gfirst, 32-12
Flushing, pavement, 75-5Flux, 66-1Flyash, 24-3, 48-3Flyash-modified concrete, 76-10Fly, filter, 29-8Flying forms, 49-7Focus, 7-10Food-to-microorganism ratio, 30-5Footing, 36-2
cantilever, 36-2column, 36-2, 55-2combined, 36-2concrete, 55-1eccentric load, 36-8isolated, 36-2spread, 36-2wall, 36-2, 55-2
Force, 72-2 (see also type)adfreeze, 38-6amplification, 41-10centrifugal, 72-5centripetal, 72-5concentrated, 41-2
web, 59-4-couple system, 41-4downdrag, 38-6external, 41-2field, central, 72-17inertial, 72-5internal, 41-2main, 28-4, G majeure, 87-3normal, 15-12, 72-6
on a dam, 15-11on
blade, jet, 17-33pipe bend, 17-34plate, jet, 17-32
specific, 19-15
Ind
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
tractive, 74-2uplift, 21-9velocity-dependent, 72-17work performed by, 9-4
Forced draft air injection, 26-4Forcing function, 10-1, 10-4Forebay, 18-21, GForecasting, 86-41Foresight, 77-9Form
cis, 3-8concrete, 49-6drag, 17-39exponential, 3-8flying, 49-7Newton, 12-3 (ftn)operational, log, 3-5phasor, 3-8polar, 3-8rectangular, 3-7slip-, 49-6ties, 49-7trigonometric, 3-7
Formality, 22-8Formation
artesian, Gconstant, 22-12enthalpy, 22-14, 22-15
heat of, 22-14Forming, slip, 49-7Formula
Babcock, 17-9Camp, 29-6chemical, A-51
Donnan, 31-7double-angle, 6-4Dulong’s, 24-14FAA, 20-4G.K., 19-4 (ftn)half-angle, 6-4Hazen’s, 21-2, 35-22J.B. Johnson, 45-3kinematic wave, 20-4Maney, 45-12Marston’s, 40-8NRC, 29-10O’Connor and Dobbins, 28-7Panhandle, 17-9parabolic column, 45-3prismoidal, 79-4secant, 45-3soil parameter, 35-9, 35-10
Spitzglass, 17-9Steel, 20-5two-angle, 6-4Velz, 29-10weight, 22-4Weymouth, 17-9
Formwork, 49-6, 49-7accuracy standards, 49-7flying forms, 49-7lateral pressure, 49-7overall cost, 49-7pressure on, 49-7
slip forming, 49-7types of, 49-6
Forwardpass, Gsoil pressure, 37-2station, 78-3tangent, 78-1
Foundation, 36-1compensated, 36-9shallow, 36-1
Fourieranalysis, 9-6inversion, 9-6number, 1-9
series, 9-6transform, fast, 9-7waveforms, 9-7
Fourier’s theorem, 9-6Four-phase signal, 73-12Fraction
gravimetric, 22-5, 24-2ionized, HOCl, 26-16
mole, 14-5, 24-2partial, 3-6, 9-3
pressure, 24-2submerged, 15-15volumetric, 24-2
Fractureappearance transition temperature, 43-15strength, 43-3transition plastic temperature, 43-15
Frame, 41-12deflection, 47-5non-inertial, 71-9
Framing connection, 65-6, 66-7Francis
turbine, 18-22weir equation, 19-11
Fraud, 87-5Frauds, Statute of, 87-2 (ftn)Fraudulent act, 87-5Free
aquifer, 21-1-body diagram, 41-7, 41-20-flow mode, 19-14-flow speed, 73-4, 73-6, 73-8, 73-10moment, 41-4, 41-9pulley, 41-11residual, 25-11, Gsurface, 16-6
Freeboard distance, GFreedom, degree of, 47-11, 71-2Freehaul distance, 79-7, GFreeway, 73-2, 73-7, G Freeze, ground, piles, 38-6Freezing, pavement, 75-24Freon, 32-6, 32-6
Frequencyanalysis, 9-7 (ftn)distribution, 11-9electrical, 83-4natural, 9-6of occurrence, 20-5polygon, 11-9
Fresnel integral function, 9-8 (ftn)Fretting corrosion, 22-17
Friable, G Friction, 72-6 (see also type)
angleeffective stress, 35-25
external, 37-3
interfacial, 31-5, 31-5
soil, 37-3belt, 72-7brake, 84-12coefficient, 72-7
skidding, 74-4
coefficient of, 15-12, 72-6tire, 74-4
course, open-graded, 75-3factor
chart, Moody, 17-6, 17-6
Darcy, 17-5, A-26–A-29
Fanning, 17-5 (ftn)pavement, 76-8
flat, 72-6head, 18-6
loss, 17-4internal, angle of, 35-16, 35-25, 40-7, 43-7loss
gas, 17-9slurry, 17-11steam, 17-9
pile, 38-1power, 18-9ratio, 35-17sideways, 72-19, 78-6skin
coefficient, 38-3negative, 38-6
turbulent flow, 17-7unit shaft, 38-3wall, soil, 37-3, 37-4
Frictionless surface, 41-7Frontage road, G Frost
heave, 37-9, 38-6jacking, 38-6pavement, 75-24susceptibility, G
Froude number, 1-9, 17-44, 19-18Fuel-bound NOx, 32-9
consumption, vehicular, 74-3diesel, 24-7economy, 74-3heats of combustion, A-62
oil, 24-5, 24-6
oxygenated, 32-5properties, 24-6
refuse-derived, 31-10, 31-10
subautogenous, 31-11 switching, 32-14waste, 24-4
Fugitivedust, 32-7emission, 32-8, 34-12
Full-bridge, 84-11composite action, 64-2
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-24
Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-25
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
-depth asphalt pavement, 75-2, 75-19,75-20, 75-21
-depth reclamation, 75-22-load value, motor, 83-11station, 77-8-wave symmetry, 9-7
Fullyamortized bond, 86-29 (ftn)compensated foundation, 36-9turbulent flow, 16-8
Fulvic acid, GFunction
circular transcendental, 6-2error, 9-8, 11-6first moment of, 9-6forcing, 10-1hazard, 11-7holomorphic, 8-1hyperbolic, 6-4integral, 9-8
cosine, 9-8elliptic, 9-8 (ftn)exponential, 9-8Fresnel, 9-8 (ftn)gamma, 9-8 (ftn)sine, 9-8
of an angle, 6-2of related angle, 6-3 performance, 11-8regular, 8-1second moment of, 9-6symmetrical, 7-4trigonometric, 6-2unit impulse, 10-6unit step, 10-6vector, 5-5well, 21-6, 21-7
Functional group, organic, 23-1, 23-1, 23-3
Functionsintegral of combination, 9-2of related angles, 6-3
Fundamentalconstants, back endpaper
theorem of calculus, 9-4Fundamentals of engineering exam, 89-1,
89-3Fungi, 27-1, 27-2, 27-2, 27-3, G Fungicide, 32-11Furnace
efficiency, 24-16sorbent injection, 24-5
Future worth, 86-5
G
Gabion wall, 37-2GAC, 26-12, 29-12Gage (see also Gauge)
factor, 84-8, 84-8pressure, 14-2, 15-2, 15-6 (ftn)spacing, 60-2strain, 84-8, 84-9, 84-13
Gaging, stream, GGalvanic
action, 22-16series, 22-16, 22-16
Galvanized steel pipe, 16-10
Gamma integral function, 9-8 (ftn)Gantt chart, 85-9Gap, 73-6, G
-graded mix, 75-3soil, 35-3
grading, G Garbage, 24-4, 31-1Gas
absorption, 34-2, 34-3coefficients, 31-9
collection, 31-6constant, universal, inside back cover
desorption, 34-2 (ftn)digester 30-15 (see also Methane)extraction well, 31-6friction loss, 17-9greenhouse, 32-8incompressible, 16-3 (ftn)landfill, 31-5liquefied petroleum, 24-7manufactured, 24-7 (ftn)methane, 30-15natural, 24-11
noble, 22-2properties, A-53
specific heat, 24-2
synthetic, 24-5, 24-8wah, G
Gasification, 32-12Gasohol, 24-7Gasoline, 24-6
characteristics, 32-8pollution from, 32-8
Gastroenteritis, 27-2Gate valve, 16-12Gauge (see also Gage)
diaphragm, 15-2draft, 15-3 (ftn)nuclear, 35-20pressure (see Gage pressure)staff, 19-10strain, 15-2
Gauging, stream, 19-2Gauss’ hypergeometric equation, 10-5Gaussian distribution, 11-6Gauss-Jordan elimination, 4-2Gear motor, 18-11, 83-12 (ftn)Gee, 72-4 (ftn)Gelular resin, 26-15General
contractor, 87-4damages, 87-6expense, 86-32ledger, 86-33overhead, 85-6partner, 87-1shear failure, 36-3term, 3-10triangle, 6-5
Generator, 83-10 (ftn), 83-14
pollution, 32-2Geobar, GGeocell, G
Geocomposite, Gliner, 31-4
Geodeticlevel, 77-9survey, 77-5
Geofoam, GGeographical information system, 77-6Geogrid, 31-5Geoid, 77-6Geomat, GGeomembrane, 31-4Geometric
mean, 11-10sequence, 3-11series, 3-11similarity, 17-42slope, 19-3
Geonet, GGeopipe, GGeospacer, GGeostationary orbit, 72-18Geostrip, GGeosynthetic, 31-4, 40-10Geotextile, 40-10
specifications, 40-10
symbols, A-64, GGermain correlation, 29-11g-force, 72-4 (ftn)Giardia
cyst, 26-17lamblia, 27-2
Giardiasis, 27-2Girder, 59-1
depth, 63-1hybrid, 63-1plate, 59-2, 63-1
Girt, 59-2GIS, 77-6, GG. K. formula, 19-4 (ftn)Glacial till, GGlass, volcanic, 35-31Glauconite, 26-14Global
distillation, 32-11positioning system, 77-6, Gwarming, 32-8
Globe valve, 16-12Glossary, GGlycol, 23-3
GMT, GGneiss, 35-31Gobar gas, GGolf ball, 17-39Gon, 77-7Gore, G Gore area, merge/diverge, 73-22GPS, 77-6, G G-P sewer, 28-4Grab sample, 28-14Grad, 77-7Gradation, 35-3Grade
airport pavement, 78-19bolt, 45-8change, rate of, 78-11
Ind
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line, energy, 16-9, 17-15line, hydraulic, 16-9, 17-15point, 79-3, 79-6, 80-3railroad, 78-19, 78-19
resistance, 74-1roadway, 74-1rod, 80-4stake, 80-1steel, 48-7weathering, 67-5
Gradient, Gcash flow, 86-9energy, 19-3, Ghydraulic, 21-2multiplier, moment, A-113
roadway 74-1ruling, 74-4series cash flow, 86-4vector, 8-5velocity, 14-6, 26-9
Gradinggap, 5-5soil, 35-3
Graetz number, 1-9
Grainsize, effective, 35-22unit, 25-3, 26-15 (ftn)
Granite, 35-31Granular
activated carbon, 26-12, 29-12, 34-3soil, 37-2
Grashof number, 1-9
Grate inlet, 28-5Gravel, G
cohesion, 35-26pack, well, 21-4screen, 21-5
Gravimetricanalysis, 24-2fraction 22-5, 24-2
Gravitation, Newton’s law, 72-18Gravitational
constant, 1-2, 72-18
energy, 13-3water, G
Gravityaltitude, 1-2belt thickening, 30-14center of, 70-1dam, 15-11distribution, 26-19earth, 1-2flow, 18-5sewer, 28-4specific, 14-4, 35-7thickening, 30-13, 30-14
wall, 37-1well, 21-2, 21-4
Grease, 28-14, 29-7Greek alphabet, 3-1, 3-1, back endpaper
Greenbar, 48-8ratio, effective, 73-12sand, 26-14time, effective, 73-16
Greenhouse gas, 32-8
Gridmeridian, 77-11roller, 35-17
Grillage, GGrinding, scum, 29-7Grip, 45-11Grit, 29-6, 34-19
chamber, 29-6aerated, 29-6characteristics, 29-6
clarifier, 29-6Groove weld, 66-1Grooving, pavement, 76-10Gross
area, 60-1bearing capacity, 36-3heating value, 24-14moment of inertia, 50-17rain, 20-19rainfall, 20-16
Groundrod, 80-4stake, 80-1
Groundwater, 20-7 (ftn), G dewatering, 31-7table, 37-6, 40-5
Groupchemical, 22-2dimensionless, 1-7, 1-9
index, 35-5occupancy, 81-6, 81-7
pace, 73-4pile, 38-5
Grout, 67-5-bonded concrete, 76-10compressive strength, 67-6slump, 67-6
Grouted pile, 38-6Grouting, partial, 68-5Growth
exponential, 10-9factor, 75-13rate, maximum specific, 30-7
Guardrail, 74-7Guard stake, 80-1Guinea, 80-1Gumbo, GGunter’s chain, 77-7Gutter inlet, 28-5Gyration, radius of, 42-6, 45-2, 61-4, 70-2Gyratory compactor, 75-23
H
Hagen-Poiseuille equation, 17-7Half
-angle formula, 6-4-bridge, 84-11-lath stake, 80-1life, 22-10-velocity coefficient, 28-6-wave symmetry, 7-4, 9-7
-year convention, 86-3Halide, 23-1
alkyl, 23-2
Halite, 35-31Haloacetic acid, 25-10
Halogen, 23-1
fluorine, 32-11Halogenated compound, 25-9Hammer
double-acting, 38-2drop, 38-2single-acting, 38-2water, 17-35
Hardmaterial, 43-16water, 26-13, G
Hardening, strain, 43-4Hardhat, 82-2Hardness
calcium, 25-3carbonate, 25-3, Gcorrelations, 43-14
ions, water, 25-3
magnesium, 25-3noncarbonate, 25-3, 25-4number, 43-12permanent, 25-4, Gscale, Mohs, 43-14
temporary, Gtest, 43-12, 43-13
vs. alkalinity diagram, 25-5
water, 25-3, 25-4Hardpan, GHardy Cross (see Cross, Hardy)Hardy Cross method, 44-17, 17-23Harmonic
sequence, 3-11series, 3-11terms, 9-6
Haulage rope, 45-20Haul distance, 79-7
solidity, 79-7Hazard
chemical, 82-1function, 11-7
Hazardousair pollutant, 32-2material, 33-1spills, 32-13waste, 32-2
disposition, 33-2incineration, 34-11
Hazen’s formula, 21-2, 35-22Hazen uniformity coefficient, 35-3Hazen-Williams
constant, A-25
equation, 17-7nomograph, A-32
velocity, 19-6Hazmat, 33-1Head, 15-4 (ftn), 18-6, G
acceleration, 18-2, 18-3
added, 17-14atmospheric, 18-6 (ftn)dynamic, 18-6effective, 17-16, 18-6extracted, 17-14friction, 18-6hydraulic, 26-11impact, 16-5loss, 17-4
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-27
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
effect of viscosity, 17-10slurry, 17-11
pressure, 18-6 (ftn)protection, 82-2static
discharge, 18-6suction, 18-6
total, 16-3vapor pressure, 18-6 (ftn)velocity, 18-6
Header information, 80-1speed, 73-4
Headlight sight distance, 79-15Headwall, G Headway, 73-6, GHearing protection, 82-3Heat
capacity, 13-4, 13-4loss, 30-16of
combustion, 24-14, A-55
formation, 22-14hydration, G
release rate, 31-9specific, 13-4, 13-4transfer, 30-16
coefficient, 30-16Heating value, 24-14
methane, 30-16Heave, 21-9
clay, 39-3frost, 37-9, 38-6
Heavyhydrogen, 22-2metal, 22-2
in wastewater, 28-14vehicle factor, 73-8
Heel, 15-17 (ftn), 37-9dam, 15-11retaining wall, 54-4
Height, 2-2building, allowable, 81-8cell, 31-3critical, excavation, 39-3of
packing, 34-17the instrument, 77-10, 80-4transfer unit, 34-17
piezometric, 21-2waviness, 2-4
Helix, 7-12, 7-12
pitch, 7-12thread angle, 45-13
Helmet, 82-2Helminth, 27-1, 27-2Henry’s law, 22-7, 34-16
constants, 34-17Hepatitis, 27-2Herbicide, 32-11Hess’ law, 22-14Heterotroph, 27-1, 27-3
facultative, 27-4Hexachlorobenzene, 32-11High
-density screed, 75-7early-strength portland cement, 48-1
-occupancy vehicle, 73-7-performance
concrete, 48-8steel, 58-1, 58-5
-purity oxygen aeration, 30-3-range water reducer, 48-3-rate
aeration, 30-3filter, 29-8
-slump concrete, 48-3-strength
bolt, 65-1concrete, 48-8low-alloy steel, 58-1steel, 58-5
temperature, structural steel, properties,A-112
Higher heating value, 24-14Highway, 73-2
arterial, Gbelt, Gcurve, 78-3divided, 73-3, Ginterchange, 73-20 (see also type)multilane, 73-10rainwater runoff, 32-12speed, 73-4
Hindered settling zone, 30-13Hinge, 41-10
joint, 76-9plastic, 44-18, 47-2, 47-17
Hinged pole, 74-8Histogram, 11-8History, accident and crash, warrant,
signalization, 73-15HIV, 27-6Hobby, 86-12 (ftn)HOCl, fraction ionized, 26-16
Hoisting cable, 45-19Hole
cased, Gdrilled, 60-2factor, 65-3in beam, 59-16lamp, Goversize, 65-3punched, 60-2slotted, 65-3spacing, 65-1standard, 60-2tap, 15-2
Hollowbrick, 67-3structural section, 58-2
Holographic testing, 43-12Holomorphic function, 8-1Holonomic coordinate, 71-2Homogeneous
circuits, law of, 84-7differential equation, 10-1, 10-2linear equation, 3-7unit system, 1-2
Homologous pump, 18-13 Honeycomb, concrete, 49-5
Hook, 50-19standard, masonry, 67-6
Hooke’s law, 43-2, 44-2Hookworm, 27-2Hoop
beam, 50-23stress, 45-3, 45-5
Horizon, 86-3, GHorizontal
curve, 78-1through point, 78-5
flow grit chamber, 29-6shear, 44-10sheeting, cofferdam, 39-8
Horsepower, 13-6aero, 17-39boiler, 24-16hydraulic, 17-14, 18-7shaft, 45-13
Hortoncoefficient, 19-13equation, 19-13, 21-9
Hotin-place recycling, 75-22mix
asphalt, 75-1recycling, 75-23
rubber asphalt mix, 75-24-weather concrete, 49-5-wire anemometer, 17-26
Hourglass failure, 43-7 (ftn)Hourly
vehicular volume warrant, signalization,73-14
volume, 73-8HOV, 73-7HPC, 48-8H-pile, 38-3Hub, 45-6
stake, 80-1Human
error, 84-2immunodeficiency virus, 27-6
Humectant, 32-7 (ftn)Humic acid, GHumus, GHundred year
flood, 20-6storm, 20-6
Hveem’s resistance value test, 35-30Hybrid girder, 63-1Hydrated
lime, 26-13molecule, 22-4Hydration, 22-7, 48-1, 48-2, Gheat of, Gwater of, 22-4
Hydraulicconductivity, 21-2depth, 19-3, Gdepth, mean, 19-18detention time, 30-5, 30-8diameter, 16-6, 17-9drop, 19-19 (ftn), 19-25grade line, 16-9, 17-15gradient, 21-2
Ind
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
head, 26-11horsepower, 17-14jack, 15-14jump, 19-22, Gload, concrete, 49-9loading, 28-3, 29-10, 34-18mean depth, 19-2 (ftn)NPSHR, 18-21
power, 18-7press, 15-14radius, 16-6, 19-2, A-15, Gram, 15-14retention time, 30-8
Hydraulics, 17-2Hydrocarbon, 23-1, 23-3, 24-1
pumping 18-21saturated, 23-3
Hydrochloric acid, 25-9, 32-4Hydrodynamics, 17-2Hydroelectric generating plant, 18-21Hydrogen
available, 24-3damage, 22-16embrittlement, 22-16heavy, 22-2ion, Gsulfide, 28-5
Hydrogenation, 32-11Hydrograph, 20-6
analysis, 20-7separation, 20-7Snyder, 20-10synthesis, 20-10, 20-13triangular unit, 20-11unit, 20-8
Hydrologiccycle, 20-1soil group, 20-16
Hydrological cycle, GHydrolysis, 23-2Hydrolyzing metal ion, 26-6Hydrometeor, GHydrometer, 14-4
test, 35-2Hydronium ion, GHydrophilic, GHydrophobic, GHydrostatic
moment, 15-11paradox, 15-4pressure 37-6 (see also Pressure)resultant, 15-6torque, 15-11
Hydrostatics, 17-2Hydroxyl, 23-1
Hyetograph, 20-2Hygroscopic, G
water, GHyperbola, 7-10, 7-11
equilateral, 7-12rectangular, 7-12
Hyperbolicfunction, 6-4
derivative, 8-2integral of, 9-2
identity, 6-5radian, 6-5
Hypergeometricdistribution, 11-5equation, Gauss’, 10-5
Hyperion Energy Recovery System, 30-19Hypersonic, 14-14Hypochlorous acid, 25-9Hypocycloid, 7-3Hypolimnion, 25-7, GHypothesis
Avogadro’s, 22-4test, 11-12
Hysteresis, 84-5 (ftn)spring, 45-19
I
IBC, 58-4, 81-1ICBO, 58-4Ice point, 84-6Ideal
capacity, 73-5column, 61-2combustion, 24-9fluid, 14-2gases, A-56
machine, 13-6reaction, 22-6spring, 45-19yield, 22-7
Idempotent law, sets, 11-1Identity
hyperbolic, 6-5law, sets, 11-1logarithm, 3-5, 3-5
matrix, 4-1trigonometric, 6-2–6-5, 6-3
IDF curve, 20-5Igneous rock, 35-31Ignitable substance, 32-2Ignition temperature, 24-8 Illegitimate error, 84-2Imaginary number, 3-1Imhoff cone, 25-9Immediate settlement, 40-3Immiscible liquid, 15-12Impact, 72-15
attenuator, 74-8central, 72-16direct, 72-16eccentric, 72-16elastic, 72-15endoergic, 72-15energy, 16-4
test, 43-14factor, 16-4, 40-9factors, pipes, 40-9
head, 16-5inelastic, 72-15loading, 44-7oblique, 72-16plastic, 72-15protection, 82-2ramming, 40-11tube, 16-4
Impactor, Gcascade, Gcyclone, G
Impedance, 83-5Impeller, 18-4
mixing, 26-9specific speed, 18-12
Impending motion, 72-6Impermeability, pavement, 75-4Impervious layer, GImplicit differentiation, 8-4Impounding reservoir, 20-20Impoundment depth, 20-20Impulse, 72-12
fluid, 17-31function, 10-6-momentum principle, 17-31, 72-13 turbine, 17-34, 18-21
Impulsive force, 72-12Incidental resistance, 74-4Incineration, 24-4
liquid, 34-11MSW, 31-9sludge, 30-19, 34-12soil, 34-12
Incinerator, 34-9no-boiler, 31-9performance, 34-10
Inclined plane, 72-9Income tax, 86-24Incomplete combustion, 24-11Incompressible gas, 16-3 (ftn)Inconsistent system, 3-7Incremental
analysis, 86-17cost, 86-31
Indefinite integral, 9-1, 9-1 (ftn), 9-1, 9-2,9-4,
Independentevent, 11-3variable, 3-2wire rope core, 45-20
Independent float, GIndeterminacy
degree of, 46-1kinematic, degree of, 47-10static, degree of, 47-7
Indeterminatebeams, A-85–A-89
statics, 46-1truss, 46-6
Indexaggressive, 26-16compressibility, 35-24compression, 35-24, 40-4compression, secondary, 40-6contour, 77-20density, 35-7group, 35-5Langelier, 26-16liquidity, 35-21Mohlman, Gmost probable number, 27-4plasticity, 35-21recompression, 40-4reconsolidation, 35-24
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-28
Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-29
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
roughness height, 2-4Ryznar, 26-16shrinkage, 35-21sludge volume, 30-6spring, 45-19 (ftn)swelling, 35-24, 40-4terminal serviceability, 75-12, 75-15viscosity, 14-9
Indicatororganism, 27-4solution, 25-2, 25-2
Indirect cost, 85-9manufacturing expense, 86-32
Induced drag, 17-39Inductance, 83-6Induction motor, 18-10, 83-12Inductive
reactance, 83-6transducer, 84-4
Inductor, 83-6Industrial
exemption, 89-1pollution, types, 34-17
wastewater, 28-1, 28-8, 29-2
standards, 29-1Inelastic
analysis, 47-2buckling, 61-4impact, 72-15strain, 43-2
Inertia, 70-1area moment, 42-3cracked, transformed, 50-16force, 70-1, 72-5mass moment of, 70-2polar moment, 42-5principal moment, 42-8product of, 42-6, 70-2resistance, vehicle, 74-1vector, 70-1, 72-5 (ftn)
Inertialforce, 70-1, 72-5,resisting force, vehicle, 74-1separator, 34-6survey, 77-6
Infant mortality, 11-7Infective dose, 27-6Infiltration, 20-7 (ftn), 21-9, G
sewer, 28-2test, double ring, 21-9
Infinite series, 3-11, 3-11 (ftn)Inflation, 86-39
effect on cost, 85-7Inflection point, 7-2, 8-2
assumed, 47-18deflection, 44-16
Inflow, 28-2Influence
chart, 40-2, 40-3
cone, 40-2diagram, 41-10, 46-7–46-13graph, 41-10line, 41-10radius of, 21-5, 31-6
value, 40-2zone of, 40-2
Influent, Gstream, G
Infrared incineration, 34-11testing, 43-11
Initialabstraction, 20-2, 20-19
loss, Gmodulus, 48-5rate of absorption, 67-5value, 9-3, 10-1
Injectionsorbent, 34-15well, 34-9
Injured party, 87-5Inlet
control, 19-26curb, 28-5grate, 28-5gutter, 28-5pressure, net positive, 18-2 (ftn)
In-line filtration, 26-2Innovative method, 32-13Inorganic
chemical, 28-14salt, removal, in wastewater, 29-3
In-placedensity test, 35-20form, concrete, 49-6recycling, 75-22
Insecticide, 32-11 (see also Pesticide)Insensitivity, 11-13, 84-2In situ, 35-17, G
form, concrete, 49-6Inspection, radiographic, 81-4Instability, 84-2Instantaneous center, 71-12, 71-13
of rotation, 66-7Instrument
coefficient of, 17-27factor, 77-8height of, 80-4person, 80-4
Insurance, 87-7Intangible property, 86-20 (ftn)Integral, 9-1, 9-2
convolution, 10-7cosine function, 9-8definite, 9-1 (ftn), 9-4double, 9-3elliptic function, 9-8 (ftn)exponential function, 9-8Fresnel function, 9-8 (ftn)function, 9-8gamma function, 9-8 (ftn)indefinite, 9-1, 9-4, A-10
of combination of functions, 9-2hyperbolic function, 9-2transcendental function, 9-1
sine function, 9-8triple, 9-3
Integrand, 9-1Integrating factor, 10-2
Integration, 9-1by parts, 9-2by separation of terms, 9-3constant of, 9-1, 10-1
Intensity-duration-frequency curve, 20-5Intensity, rainfall, 20-4Interaction
diagram, 52-5–52-7, A-93–A-110,A-119–A-124
diagram, masonry wall, 68-10
equation, 62-2AISC (steel), 59-15
Interceptcohesion, 35-25form, 7-5
Interception, GInterceptor, 28-3Interchange, highway, 73-20 (see also type)
parclos, 73-21Interest
compound, 86-11rate
effective, 86-5, 86-28nominal, 86-28
simple, 86-11Interfacial
area, 34-17friction angle, 31-5, 31-5
Interference, 45-5Interflow, GIntergranular, 22-17
attack, 22-16corrosion, 22-15
Interior angle, 77-13Interlock stress limit, sheetpile, 39-6Intermediate
clarifier, 29-12column, 45-3, 61-4metals, law of, 84-7stiffener, 59-5, 63-3temperatures, law of, 84-7
Intermittent sand filter, 29-11Internal
energy, 13-4force, 41-2, 41-13, 72-2friction, angle of, 35-16, 35-25, 40-7, 43-7,
72-7rate of return, 86-12work, 13-2, 43-6
International Building Code, 58-4, 81-1Code Council, 81-1Fire Code, 81-2Mechanical Code, 81-2Plumbing Code, 81-2Residency Code, 81-2standard atmosphere, A-33
Zoning Code, 81-2Intern engineer, 89-1 (ftn)Interpolating polynomial, Newton’s, 12-3Interpolation, nonlinear, 12-2, 12-3Intersecting lines, 2-1Intersection
angle, 78-1line, 7-6set, 11-1
Ind
ex
Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
signalized, 73-12signal warrant, 73-14
Intervalconfidence, 77-2factor, 77-8pace, 73-4recurrence, 20-5
Intrinsicpermeability, 21-2waste, 32-2
Intrusive igneous rock, 35-31Invar, 77-7
rod, 77-9Inventory, 86-37
value, 86-37Inversability, 77-6Inverse
condemnation, Gfunction, 6-4Laplace transform, 10-6matrix, 4-5-square field, 72-17
Inversing, 77-12Inversion
Fourier, 9-6lining, 40-11
Inversion layer, GInvert, 19-26Inverted siphon, GIn-vessel composting, 30-19Investment
credit, 86-25return on, 86-11, 86-14
In vitro, GIn vivo, GIOC, 28-14Iodine, 26-17Ion, G
common, effect, 22-10exchange regeneration, 26-15exchange softening, 26-14hydrogen, Ghydronium, Gproduct, 22-12
Ionic concentration, 22-9Ionization constant, 22-12, 22-12
Ionized HOCl fraction, 26-16
IRC, 81-2Iron
bacteria, 27-3ion, in water, 25-6, 26-12loss, 83-15pipe, A-23
removal processes, 26-12
Irradiation, 26-18Irrational number, 3-1Irreducible factor, 86-2Irreversible reaction, 22-10ISA nozzle, 17-30 (ftn)Isentropic
compressibility, 14-13compression, 30-9efficiency, 30-9
Isogonic line, GIsohyet, 20-2Isohyetal method, 20-2
Isolated footing, 36-2Isolation joint, 76-9Isometric view, 2-3Isometry, 7-3Isopiestic equilibrium, 14-9Isothermal
compressibility, 14-13compression, 15-12
Isotope, 22-2, Geffect, 22-2 (ftn)
Iteration, fixed-point, 12-2Izod test, 43-15
J
Jack, hydraulic, 15-14Jacking
frost, 38-6pipe, 40-11
Jackson and Moreland alignment chart, 53-2,53-3, 61-3
Jam density, 73-6J.B. Johnson formula, 45-3Jet
force on blade, 17-33force on plate, 17-32propulsion, 17-32pump, 18-2
Job (see Project)Job cost accounting, 86-35Joint (see also type)
construction, 76-1efficiency, 16-10, 45-11lap, 66-2
bolted, 45-10pavement, 76-9probability, 11-3processing, 28-1quality factor, 16-10reinforcement, 67-7type, 66-2
Jointedconcrete pavement, 76-1reinforced concrete pavement, 76-1
Joints, method of, 41-14Joist, 59-2
construction, 50-18Joule, 1-6
equivalent, 13-1Joule’s
constant, 13-1law, 13-5
Journal, 86-33Judgment factor, 86-2Jump, hydraulic, 19-22, GJuvenile water, G
K
k-value, 45-19, 76-4, 76-5, 78-14method, vertical curve, 78-14
K-waste, 32-2Kepler’s law, 72-18Kern, 44-12, 69-3Kernal, 44-12Ketone, 23-3
Key (footing), 37-1Kick-out, toe, 39-4
Kilograin (unit), 26-15 (ftn)Kinematic
equation, Manning, 20-3GPS survey, 77-6indeterminacy, degree of, 47-10viscosity, 14-8, 16-7wave formula, 20-4
Kineticenergy, 13-3, 16-2model
CSTR, 30-7PFR, 30-7
pump, 18-2Kinetics, 72-2
reaction, 22-11
irreversible, 22-10reversible, 22-11
Kingdom, 27-1, GKirchoff’s voltage law, 83-3Kjeldahl nitrogen, 28-13Knoop hardness, 43-13Knudsen number, 1-9
Krause process, GKutta-Joukowsky theorem, 17-38Kutter equation, 19-4 (ftn)kVA rating, 83-12
L
Labelclassified, 81-3listed, 81-3UL, 81-3
Labordirect, 86-32 variance, 86-36
Laboratory strength, 40-9Lacing bar, 61-2Lag
equation, NRCS, 20-4time, 20-10, 20-11
Lagging, 39-1, Gcircuit, 83-7storm method, 20-13
Lagoon, aerated, 29-5, Gstabilization, 29-5
Lagrange stream function, 17-3Lagrangian interpolating polynomial, 12-2L’Hôpital’s rule, 3-9Lake
dimictic, Gmeromictic, Gmonomictic, Gpolymictic, G
Lame’s solution, 45-5 Laminae, 16-7Laminar flow, 16-7, 17-5Lamp hole, GLand ban, 33-2Landfill, 31-2
cap, 31-5capacity, 31-3containment, 31-2gas, 31-5monitoring, 31-8natural attenuation, 31-2siting, 31-5
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-30
Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-31
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
sludge, 30-18Subtitle
C, 31-3D, 31-3
Landvault, 31-2Lane
auxiliary, Gdistribution factor, 75-13group, critical, 78-12median, Goccupancy ratio, G
Langelierindex, 26-16saturation index, 26-16
Lang lay, 45-20Lanthanide, 22-2Lanthanon, 22-2Lap joint, 66-2
bolted, 45-10Laplace transform, 10-5
of a derivative, 10-6table, A-11
Lapse rate, GLarge eccentricity, 52-7Last-in, first out, 86-37Late distribution, 73-6Latency, 27-6Lateral, G
bracing, 59-2, 59-3buckling, 44-18earth pressure, coefficient, 38-3pressure on formwork, 49-7ratio, 78-7spreading cracking, pavement, 75-5strain, 43-4support, 59-3tie, masonry column, 69-2torsional buckling, 59-2torsional buckling modification factor,
59-3Latex
-modified concrete, 76-10 synthetic, 75-6
Lath, 80-1Latitude, 77-12Latus rectum, 7-10, 7-11Launching, 74-8Law
affinity, 18-18Archimedes’, 15-14associative
addition, 3-3multiplication, 3-3
Avogadro’s, 22-4, Gcommutative
addition, 3-3 multiplication, 3-3
Dalton’s, 24-13, 31-6Darcy’s, 21-2, 31-7, 35-22distributive, 3-3Henry’s, 22-7, 34-16Hess’, 22-14Hooke’s, 43-2, 44-2Joule’s, 13-5Kepler’s, 72-18
Newton’scooling, 10-10first, 72-4gravitation, 72-18second, 72-4third, 72-5
of areas, 72-18conservation of energy, 13-2cosines, 6-5, 6-6definite proportions, 22-3homogeneous circuits, 84-7intermediate metals, 84-7intermediate temperatures, 84-7mass action, 22-10, 22-11multiple proportions, 22-3orbits, 72-18periods, 72-18sines, 6-5, 6-6tangents, 6-5
Pascal’s, 15-4sets, 11-1similarity, 18-19Stokes’, 17-39, 26-4strength, Abram’s, 48-4
Laylang, 45-20regular, 45-20
Layerboundary, 16-8 (ftn)coefficient, 75-18impervious, Ginversion, Gstrength coefficient, 75-18
-thickness equation, 75-18Leachate, 31-6
carbon dioxide in, 31-8generation rate, 31-7migration, 31-7recovery, 31-8treatment, 31-8
Leachingcesspool, 29-2selective, 22-16
Lead, 32-9angle, bolt, 45-13
Leading circuit, 83-7Leak detection, 32-8Learning curve, 86-42, 86-42Least
radius of gyration, 42-6, 61-4squares method, 11-13, 77-14
Le Chatelier’s principle, 22-9Ledger account, 86-33Legal speed limit, 73-3Legendre equation, 10-5Legionella pneumophila, 27-2Legionnaire’s disease, 32-4Length, 2-2, 61-2
arc, by integration, 9-5characteristics, 19-18curve, 78-2, 78-3, 79-13curve, comfort, 79-16development, 55-5development, masonry, 67-6
effective, column, 45-2, 53-2equivalent, 17-11, 17-12, A-31
of hydraulic jump, 19-24of spread, 75-7
Letter of agreement, 87-3Level
compensation, Gconfidence, 11-11maximum contaminant, 28-14of accuracy, 77-4of service, 73-3, 73-4, 73-7, 73-9, 73-16
piezometric, Gsurvey, 77-8, 77-9tangent resistance, 74-4
Leveler, 80-4Leveling, 77-9
direct, 77-9rod, 77-9
Lever, 41-10effectiveness, 15-14efficiency, 15-14
Leverage, 86-34Lewis number, 1-9
Liabilityaccount, 86-33current, 86-34in tort, 87-5
Licensing, 89-1LIDAR, 77-5Life
-cycle assessment, 85-7cost, 86-20cost analysis, 85-7
economic, 86-19fatigue, 43-9half-, 22-10Safety Code, 81-1service, 86-20
Lifeline rate, 83-7 (ftn)Lifetime, water treatment plant, 26-2Lift, 17-37, 31-2, 35-17
coefficient of, 17-37rotating cylinders, 17-38thickness, asphalt pavement, 75-8valve, 16-12
Lifting velocity, water, 21-4, 21-4
Lightmetal, 22-2-sensitive detector, 84-4
Lightweightaggregate, 48-9aggregate factor, 55-5concrete, 48-9
Lignite, 24-4Limb
falling, 20-6rising, 20-6
Limehydrated, 26-13slaked, 26-13-soda ash process, 26-13softening, 26-13 (ftn)
Limestone, sweetening with, 48-2Limit, 3-9
Atterberg, 35-4confidence, 11-11
Ind
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
elastic, 43-2endurance, 43-9liquid, 35-21plastic, 35-21proportionality, 43-2shrinkage, 35-21simplifying, 3-9state, 58-5
Limited partnership, 87-2Limiting
current, sensor, 84-4reactant, 22-7value, 3-9
Limnetic, GLimnology, GLindate, 32-11Line, 6-1 (ftn), 7-3
agonic, Gcentroid, 42-2current, 83-9dredge, 39-2energy grade, 16-9, 17-15equipotential, 17-3, 21-7failure, 35-25flow, 21-7, 29-2hydraulic grade, 16-9, 17-15intersection, 7-6isogonic, Gmud, 39-2, Gnormal vector, 8-6of action, 41-2, 5-1rupture, 35-25straight, 7-4surcharge, 37-5virgin compression, 35-23waiting, 73-21
Linearacceleration, 71-4deformation, 47-3differential equation, 10-1elastic analysis, 47-2equation, 3-7equations, simultaneous, 3-7expansion, coefficient, 44-3first-order, 10-2 force system, 41-4frequency, 83-4impulse, 72-12momentum, 72-2motion, 71-2regression, 11-13second-order, 10-3 spring, 13-2, 13-3 (ftn) system, 71-2variable differential transformer, 84-4yield, paving, 75-7
Linearity theorem, 10-6Liner
clay, 31-4double, 31-3flexible membrane, 31-3, 31-4geocomposite, 31-4-plate cofferdam, 39-8synthetic membrane, 31-4
Linesangle between, 6-1intersecting, 2-1perpendicular, 2-1
Lining, pipe, 16-11Lintel, 59-2Lipid, GLipiphilic, GLiquefaction, 40-11Liquefied petroleum gas, 24-7Liquid
aromatic, 14-9 (ftn)fuel, 24-5immiscible, 15-12limit, 35-21penetrant testing, 43-12pore-squeeze, 31-7volatile, 14-9, 22-7 (ftn)
Liquidated damages, 87-7Liquidity index, 35-21Liquor, mixed, 30-2List, 15-17 (ftn)Listed
label, 81-3product, 81-3
Liter, 1-6Lithium admixture, 48-2Lithotroph, 27-1Littoral, GLive load, GLloyd-Davies equation, 20-13 (ftn)Load
and resistance factor design, 58-4buckling, 53-4-carrying wall, 54-2cell, 84-12combinations, 50-3composite, 57-3dead, 41-4, Gdistributed, 41-4, 41-6dominant, 46-13LRFD, 67-4
-elongation curve, 43-1equivalency factor, 75-12factor, 40-10, 50-3
bedding, 40-9jacking force, 50-3method, 59-8
factor (haulage), 79-1factored, 50-3live, Gmoving, 46-13noncomposite, 57-3overhung, 18-11proof, bolt, 45-8, 45-12service, 50-3shock, septage, 29-2thermal, 47-3transfer coefficient, 76-5, 76-5
truck, 75-14vector, 47-12
Loadingaxial, 44-11BOD, 28-9chemical, 34-18
coefficients, buried pipe, 40-9
concentric, 44-11error, 84-2factor, 31-3hydraulic, 28-3, 29-10, 34-18impact, 44-7organic, 28-3, 29-9pump shaft, 18-11rate, 26-11sewage treatment plant, 28-3steel, 58-5
fatigue, 58-5surface, 26-5, 29-7, 29-8
volumetric, 30-8weir, 26-6, 29-7
Loadometer, 75-12Loads on buried pipe, 40-8Loan, 86-39Local
buckling, 44-18, 59-4, 61-2, 61-6loss, 17-11, A-31
regulations, 81-2road, 73-3shear failure, 36-3
Locationeffect on cost, 85-7landfill, 31-5water treatment plant, 26-2
Locomotivediesel-electric, 74-4resistance, 74-3tractive force, 74-3
Locus of points, 7-2Loess, GLogarithm, 3-5
identities, 3-5Log-spiral theory, 37-3Long
column, 52-1, 53-1, 61-4stress, 45-4-term
deflection, 50-18liability, 86-34
Longitudinal stress, 45-4Loop, 73-21
pipe, 17-20ramp, 73-21
Loose measure, 79-1Los Angeles abrasion test, 75-4Loss
coefficient, 17-12, 17-12, 17-13combustion, 24-15during transport, 79-8electrical machine, 83-15entrance, culvert, 17-19factor, pulley, 41-11heat, 30-16initial, Glocal, 17-11, A-31lump-sum, 56-3
AASHTO, 56-3minor, 17-11, A-31prestress/pretension, 56-3time-dependent, 56-3
Lost time, 73-13
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-33
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
Lot, parking, 73-18dimensions, 73-19
Low-alkali cement, 48-2excess-air burner, 34-12-heat portland cement, 48-2-lift loader, 75-7NOx burner, 34-12-rate filter, 29-8-strength material, controlled, 48-9-sulfur coal, 24-4
Lowerbound, 9-4heating value, 24-14
LRFD, 58-4Lump
coal, 24-4-sum
fee, 87-4loss, 56-3loss, AASHTO, 56-3
Lysimeter, G
M
Machine, 41-20-drilled pile, 38-6electric, 83-14
ideal, 13-6real, 13-6
Mach number, 1-9, 14-14Maclaurin series, 8-7 (ftn)Macrofouling, 27-4Macrophyte, 25-7Macroporous resin, 26-15Macroreticular resin, 26-15Magma, 35-31Magnaflux, 43-11Magnaglow, 43-11Magnesia, 24-3 (ftn)Magnesium hardness, 25-3Magnesium, structural, properties, A-74
Magneticazimuth, 73-26declination, 77-11flowmeter, 17-26meridian, 77-11particle testing, 43-11, 81-4
Magnus effect, 17-38Main, G
force, 28-4, Gsewer, 28-2
Majoraxis, 61-4, 7-11
bending, 59-4plant, 28-3source, pollution, 32-2
Malaria, control of, 32-11Malodorous, GManagement, project, 85-1Maney formula, 45-12Manganese
ion, in water, 25-6, 26-12removal processes, 26-12
Manhole, 28-5Manning
constant, 19-4variations, 19-5
equation, 19-4nomograph, A-37
kinematic equation, 20-3roughness coefficient, 19-4, A-35
sheet flow, 20-3
Manometer, 15-2, 15-3differential, 15-3open, 15-3
Mantissa, 3-5Manual on Uniform Traffic Control Devices,
73-2, 73-14, 73-27Manufactured gas, 24-7 (ftn)Manufacturing cost, 86-32Map
scale, 77-19symbols, 77-20
topographic, 77-19Mapping
aerial, 77-17function, 7-3
Marble, 35-31Margin, boiling-point, 32-8Market value, 86-23Markings
construction stake, 80-4
stake, abbreviations, 80-2
Marl, GMarshall mix
criteria, 75-10
method, 75-9Marshland survey, 77-5Marston coefficients, 40-9
Marston’s formula, 40-8Martensitic stainless steel, 22-16 (ftn)Masking, 34-15Masonry, 67-1
absorption, 67-5clay, 67-3column, 69-1compressive strength, 67-3, 67-4
cross sections, properties, A-114–A-118
density, 15-12embedment length, 67-6mortar, 68-3partially grouted, 68-5properties, 67-3, 67-4unit, 67-1unreinforced, 68-3wall, 68-2
allowable stress, 68-4
interaction diagram, 68-10
Mass, 1-1, 70-1action, law of, 22-10, 22-11burning, 31-9center of, 70-1curve, 20-2diagram, 20-21, 79-6
grade points, 79-6sub-bases, 79-8
moment of inertia, 70-2, A-125
sludge, 26-10, 30-12-to-power ratio, 74-7-transfer coefficient, 34-17yield, 31-10
Mastic, split, 75-23
Mat, 36-8Material
anisotropic, 5-1breach, 87-5low-strength, controlled, 48-9orthotropic, Gpipe, 16-9recovery facility, 31-10safety data sheet, 82-1
categories of, 82-1, 82-1
variance, 86-36Material testing, 85-3
dye penetrant testing, 85-4magnetic particle testing, 85-4radiographic inspection, 85-4standards, 85-3
types of, 80-4destructive, 85-4nondestructive, 85-4
ultrasonic testing, 85-4Matrix, 4-1 (see also by name)
algebra, 4-3costing, 85-6inverse, 4-5multiplication, 4-4order, 4-1transformation, 5-3type, 4-1, 4-2
Mattermineral, 24-3volatile, 24-4
Maturation pond, 29-4Maximum
capacity, 73-6contaminant level, 25-5, 28-14
goal, 25-5deflection, concrete beam, 50-19
dry density, 35-17flame temperature, 24-15flood, probable, 20-6flow, 73-6fluid velocity, 17-3
plastic moment, 59-12
point, 8-2precipitation, probable, 20-6prestress, 56-6, 56-7
rainfall, probable, Gservice flow rate, 73-5shear
envelope, 47-20stress theory, 43-8
slenderness ratio, steel tension member,60-3
specific gravity, 75-8growth rate, 30-7
stress, with and without shoring, 64-1total uniform load table, 59-4value, sinusoid, 83-5velocity
in pipe, 17-3open channel, 19-25
yield coefficient, 28-6MCL, 25-5, 28-14MCLG, 25-5
Ind
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
Mean, 11-10arithmetic, 11-10cell residence time, 30-6, 30-8depth, hydraulic, 19-2 (ftn)geometric, 11-10hydraulic depth, 19-18residence time, 29-7sea level, 77-7slip coefficient, 65-3speed, 73-4speed, space, Gstress, 43-9time to failure, 11-7velocity, open channel, 19-2
Meander corner, GMeandering stream, G Measure
bank, 79-1compacted, 79-1loose, 79-1
Measurement, flow, 17-25, 26-4Measurements of, 80-1
crow’s foot, 80-1ground stake, 80-1guard stake, 80-1hub stake, 80-1offset stake, 80-3reference point, 80-1witness stake, 80-1
Mechanicaladvantage, 41-10
pulley block, 41-11
seal, 34-12, 34-13
similarity, 17-42Mechanism, 41-20, 47-2Media
factor, 29-11packing, 34-16
Median, 11-10, Glane, Gspeed, 73-4
Medium screen, wastewater, 29-6Meinzer unit, 21-2Member
axial, 41-11redundant, 41-13three-force, 41-6two-force, 41-6zero-force, 41-13
Membranereinforced, 31-4support, 40-10supported, 31-4synthetic, 31-4unreinforced, 31-4unsupported, 31-4
Meningitis, 27-2Meningoencephalitis, 27-2Meniscus, 14-11Mensuration, 7-1
pile, 79-3three-dimensional, A-9
two-dimensional, A-7
Mer, 26-6Mercaptan, 27-6
Mercury, density, 14-3, back endpaper
Merge gore area, 73-22Merging taper, 73-26Meridian, 77-11, GMeromictic lake, GMesh, steel A-92
Mesophile, 27-1Mesophyllic bacteria, GMetabolism, 27-5, GMetacenter, 15-17Metacentric height, 15-17Metal, 22-2
alkali, 22-2alkaline earth, 22-2base, 66-1concentration, 28-14filler, 66-1heavy, 22-2, 28-14light, 22-2pipe, corrugated, A-31total, in wastewater, 28-14transition, 22-2 (ftn), 22-3weld, 66-1
Metalimnion, GMetallic properties, 22-2Metalloid, 22-2Metals, properties, A-75–A-77
Metamorphic rock, 35-31Metathesis, 22-6 (ftn)Meteoric water, GMeter
current, 17-26displacement, 17-25obstruction, 17-25orifice, 17-29pressure, 14-3turbine, 17-26variable-area, 17-25venturi, 17-27
Metering, pump, 18-4Methane
gas, 30-15heating value, 30-16landfill, 31-5properties, 31-6series, 24-2sludge, 30-15
Methanol, 24-7Methemoglobinemia, 25-8Method (see also type)
60-degree, 40-2absolute volume, 76-2allowable stress, 50-3area transformation, 44-19average end area, 79-4beta-, 38-3bisection, 12-1, 3-4Bowditch, 77-14Casagrande, 35-24chord offset, 78-5compatibility, 46-2consistent deformation, 46-2cut-and-sum, 41-15deflection angle, 78-3direct design, 51-6
double meridian distance, 77-16elastic, 66-5elastic design, 59-8equivalent
axial compression, 62-1frame, 51-6
extraction, 75-9Hardy Cross, 17-23isohyetal, 20-2lagging storm, 20-13load factor, 59-8Marshall mix, 75-9Newton’s, 12-2nonsequential drought, 20-20normal-ratio, 20-2numerical, 3-4of
consistent deformations, 44-19, 47-7coordinates, 77-15joints, 41-14least squares, 11-13sections, 41-15undetermined coefficients, 3-6, 10-4
parallelogram, 5-3plastic design, 59-8polygon, 5-3prism test, 67-4rational
modified, 20-20peak runoff, 20-13
regula falsi, 12-2 (ftn)S-curve, 20-13stadia, Gstation offset, 78-5storage indication, 20-21strength design, 50-3superposition, 46-4surface area, 75-7tangent offset, 78-5Thiessen, 20-2ultimate strength, 59-8, 59-10unit strength, 67-4Winfrey, 86-16 (ftn)
Methods, numerical, 12-1Methyl alcohol, 24-7Methyl bromide, 32-11Methylmercury, GMetolachlor, 32-11Metric system, 1-4Meyer hardness, 43-13Meyerhof bearing capacity factors, 36-3,
36-4
for piles, 38-2
Mho, 83-2 (ftn)Mica, 35-31Microbe, 27-1
growth, 28-6Micronized coal, 24-5 (ftn)Microorganism, 27-1, GMicropile, 38-6Microsilica, 48-3Microstrain, 84-8Microstrainer, 26-3, 26-12Microtunneling, 40-11Microwave asphalt recycling, 75-23
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-34
Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-35
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
Middle ordinate distance, 78-11strip, slab, 51-7
Midspan beam deflection, prestressing, 56-4Migration, leachate, 31-7Miles per gallon, 74-3Milligram equivalent weight, 22-8Milligrams per liter, 22-8Million, part per, 22-8Mineral
aggregate, 75-3detrial, Gfiller, 75-3matter, 24-3
Minimumattractive rate of return, 86-14, 86-16bolt tension, 65-3
concrete beam thickness, 50-18
width, 50-8
design speed, 73-4
fillet weld size, 66-3
point, 8-2thickness, slab, 51-2, 51-2, 51-9
velocity, open channel, 19-2Minipile, 38-6Minor
axis, 61-4, 7-11bending, 59-4
loss, 17-11, A-31
of entry, 4-2plant, 28-3
Minusdeclination, 77-11sight, 77-9
Mirex, 32-11Missing
angle, traverse, 77-15side, traverse, 77-15
Mixasphalt, 75-3
concrete, 75-4flow value, 75-11plant, Groad, G stability, 75-11tender, 75-5
Mixedflow
pump, 18-4, 18-4 (ftn)reaction turbine, 18-23
liquor, 30-2suspended solids, 30-5liquor volatile suspended solids, 30-5
occupancy, 81-6triple product, 5-4use, 81-6
Mixer, 26-8asphalt, 75-6flash, 26-8paddle, 26-8quick, 26-8rapid, 26-8
Mixingcomplete, 26-8, Gconcrete, 49-5
model, complete, 26-8opportunity parameter, 26-9plug flow, 26-8problem, 10-8rate constant, 26-8Reynolds number, 26-9velocity, 26-8water, concrete, 76-3
Mixture, Gconcrete, 49-1 (see also type)concrete, typical, 48-1
proportioning, concrete, 76-2rule, 32-2sweetening, 48-2
Mks system, 1-4MLSS, 30-5MLVSS, 30-5MMA concrete, 48-9Mobile batcher mixer, 49-5Mode, 11-10
free-flow, 19-14speed, 73-4submerged, 19-14
Model, 17-42Bingham-plastic, 17-11 code, 81-1
Modelingstormwater, 20-22watershed, 20-22
ModifiedDavis equation, 74-4portland cement, 48-1Proctor test, 35-18rational method, 20-20
Modifier, asphalt, 75-5Modular ratio, 44-19, 50-15, 56-3, 57-3Modulus, 3-8
apparent, 43-10bulk, 14-13bulk, water, 14-14
chord, masonry, 67-4creep, plastics, 43-11fineness, 48-2of
elasticity, 43-2, 43-2, 44-2, 58-2elasticity, cast iron, 17-36elasticity, concrete, 48-4, 76-4elasticity, steel, 17-36, 48-7resilience, 43-6rigidity, 43-7rupture, 50-17, 76-4rupture, concrete, 48-6subgrade reaction, 35-30, 35-30, 75-15,
76-4of toughness, 43-6
plastic section, 59-11resilient, 75-15, Gsecant, 43-4, 48-5section, 42-7, 44-11
bulk, 14-13shear, 43-7, 43-8, 44-2, 58-2subgrade, 35-30, 35-30
tangent, 48-5tangent bulk, 14-13Young’s, 43-2, 44-2, 48-4
Mohlman index, GMohr-Coulomb equation, 35-25 (ftn)Mohr’s
circle, 42-8, 44-6theory of rupture, 43-7
Mohs hardness, 43-13scale, 43-14
Moist density, 35-7Moisture
bed, 24-3condition, antecedent, 20-16 (ftn)content, 35-7
optimum, 35-17, 35-19soil, 21-2
Molality, 22-8Molar
specific heat, 13-4volume, 22-4
Molarity, 22-8Mole, 22-4, G
fraction, 14-5, 22-8, 24-2percent, 14-6
Molecular weight, 22-4, GMolecule, 22-1
spacing, 14-2hydrated, 22-4
Moment, 44-8about a
line, 41-3point, 41-2
amplification factor, 62-1area method, 44-14arm, 41-2capacity, 50-9coefficient, ACI, 47-19, 47-19
component, 41-3cracking, 50-17, 56-5diagram, 44-8
plastic, 59-13distribution, 51-7, 51-8
method, 47-2, 47-13worksheet, A-90
first, area, 42-2fixed-end, 46-6, A-83, A-84
free, 41-4, 41-9gradient multiplier, 59-3, A-113
hydrostatic, 15-11maximum plastic, 59-12
modification factor, 59-3of
a function, first 9-6a function, second 9-6area, first, 46-5inertia, area, 42-3, A-73
inertia, cracked, 50-16inertia, effective, 50-17, 64-3inertia, gross, 50-17inertia, mass, 70-2, A-125
inertia, polar, 42-5inertia, principal, 42-8momentum, 72-3
one-way, 44-8 (ftn)overturning, dam, 15-11-resisting connection, 65-7righting, 15-16second, 42-3
Ind
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
statical, 42-2, 44-10ultimate plastic, 59-12
Momentumangular, 72-3conservation, 72-2fluid, 17-31linear, 72-2
Monitorsteel, 45-20well, 21-4, 31-8
Monitoringlandfill, 31-8project, 85-13
Monod’s equation, 28-6Monofill, sludge, 30-18Monomial, 3-3Monomictic, GMonosymmetric parameter, cross-section,
59-3Monte Carlo simulation, 20-21Montreal Protocol, 32-6Moody friction factor chart, 17-6, 17-6Mortality, infant, 11-7Mortar, 67-5
masonry, 68-3Most
economical shape, 58-5efficient cross section, 19-9likely value, 77-1probable number index, 27-5
Motionconstrained, 72-9dependent, 71-11impending, 72-6linear, 71-2plane, 71-11projectile, 71-4relative, 71-9uniform, 71-3
Motor, 83-11, 83-14, A-133, A-134
electrical, 83-10gear, 18-11induction, 83-12octane number, 24-6size, 18-10, 18-10speed control, 83-15synchronous, 83-13
Mountain survey, 77-5Moveable equipment cost, 85-4Movement, critical, 73-12Moving
average forecast, 86-41load, 46-13
MPN, 27-4MSDS, 82-1MSW, 31-1MTTF, 11-7Mud line, 39-2, GMulti-dial controller, 73-15Multilane highway, 73-10Multiloop pipe system, 17-23Multimedia filter, 26-10Multiplate, 19-31Multiple
hypergeometric distribution, 11-5pipe containment, 34-13
reservoir, 17-21-stage pump, 18-4wythe, 68-13
Multiplication,matrix, 4-4vector, 5-3
Multiplierbearing capacity factors, 36-4 moment gradient, 59-3, A-113
Municipalsolid waste, 31-1, 31-2, 31-10
landfill, 31-2wastewater, 28-2water demand, 26-18
Mushroom cap, 82-2Mussel, 27-4
zebra, 27-4MUTCD, see “Manual on Uniform Traffic
Control Devices”Mycobacteria, 27-2Mycrocystis aeruginosa, 27-2
N
N-value, 35-17, 36-6correlations, 35-16
Naegleria fowleri, 27-2Nailing, soil, 40-11Nameplate
motor, 83-11rating, 18-10
Names and formulas of chemicals, A-51
Nanofiltration, 26-18Naphthalene series, 24-2Napierian logarithm, 3-5Nappe, 19-10National
Council of Examiners for Engineering andSurveying, 89-1
Electric Code, 81-2Fire Protection Association, 81-1, 81-2,
81-3primary drinking water standards, 25-5,
A-57
Research Council, 29-10Society of Professional Engineers, 88-1,
88-3Nationally recognized testing laboratory,
81-3Natural
attenuation landfill, 31-2frequency, 9-6gas, 24-11
logarithm, 3-5watercourse, 19-10
Natural Resources Conservation Service,20-10
NDT, 81-4NEC, 81-2Necking down, 43-4Needed fire flow, 26-19Needle
pile, 38-6valve, 16-12
Negativedeclaration, 32-3
exponential distribution, 11-7skin friction, 38-6
Negligence, 87-5Negotiating phase, project scheduling, 85-8NEMA motor size, 18-10, 83-11
Nematode, 27-4Nephelometric turbidity unit, 25-8Nest, piezometer, GNet
allowable bearing pressure, 36-2area, 60-1, 60-2
critical, 60-2effective, 60-3
bearing capacity, 36-4flow, 20-7, 21-7heating value, 24-14inlet pressure required, 18-14 (ftn)positive
inlet pressure, 18-2 (ftn)suction head, 18-14
rain, 20-7 (ftn), 20-19, Gstack temperature, 24-13
Netting, draining, 31-3Network
pipe, 17-23roadway, warrant, signalization, 73-15
Neutralaxis, 44-10
plastic, 64-2equilibrium, 72-2pressure, 21-8solution, 22-9, 25-1stress, 35-14
coefficient, 21-9Neutralization, 22-9, 34-18Neutron
gaging, 43-12radiography, 43-12
Newmark chart, 40-2Newton form, 12-3 (ftn)Newtonian fluid, 14-2, 14-6Newton’s
first law, 72-4gravitational constant, 72-18, 72-18interpolating polynomial, 12-3law of cooling, 10-10law of gravitation, 72-18method, 12-2second law, 72-4third law, 72-5
NFPA, 81-1, 81-2, 81-3252, 81-4257, 81-4
Nikuradse equation, 17-5NIMBY, 31-5Nitrate
in wastewater, 28-13in water, 25-10
Nitric oxide, 32-9Nitrification, 28-9Nitrification/denitrification process, 29-12Nitrile, 23-1, 23-3
Nitro, 23-1
Nitrogendioxide, 32-9fixation, G
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-36
Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-37
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
in wastewater, 28-13ion, in water, 25-8Kjeldahl, 28-13organic, 25-8, 28-13oxides, 32-9-oxygen ratio, 24-8total, 25-8, 28-13
Nitrogenous demand, 28-9, GNitrous oxide, 32-9 (ftn)No-boiler incinerator, 31-9Noble gas, 22-2Node, 7-2, 85-9, GNoise
exposure level, 82-3
level limit, 82-2Nominal
damages, 87-7dimension, pipe, 16-10interaction diagram, 52-7
interest rate, 86-28shear strength, 50-24system voltage, 83-5 (ftn)value, 50-4
Nonattainment area, 32-2Nonbearing wall, 54-1Noncarbonate hardness, 25-3, 25-4
removal, 26-13Noncatalytic reduction, selective, 34-15Noncircular duct, 17-9Nonclog pump, 18-5Noncohesive soil, 37-2Noncomposite load, 57-3Nonconcentric tension connection, 66-4Noncriteria pollutant, 32-2Nondestructive test, 81-4Nondestructive testing, 43-11, 43-14Nonhomogeneous differential equation,
10-1, 10-4Nonhomogeneous linear equation, 3-7Noninertial frame, 71-9Nonlinear
interpolation, 12-2, 12-3regression curves, 11-14
Nonmetal, 22-2Nonparametric equation, 3-3Nonpathogenic, GNonphotosynthetic bacteria, 27-3Nonplastic soil, 35-21Nonpoint source, GNonpotable water, 27-1Nonquantifiable factor, 86-2Nonrectangular channel, 19-18Nonreverse-flow valve, 16-12Nonsequential drought method, 20-20Nonsingular matrix, 4-5Non-SI units, 1-7
Nonstriping sight distance, GNonuniform flow, 19-2, 19-14Nonvibration concrete, 48-9Nonvolatile solids, 30-5Nonwoven fabric, 40-11Normal
acceleration, 71-8curve, A-10
depth, 19-6, G
depth, rectangular channel, 19-6distribution, 11-6force, 72-6, 74-4
on a dam, 15-12form, 7-5line vector, 8-6portland cement, 48-1-ratio method, 20-2slope, 19-3speed, 72-19stress, 44-2temperature and pressure, 24-3vector, 7-6view, 2-1weight concrete, 48-9
Normality, 22-8Normalized eccentricity, 52-3Normally consolidated, 35-23
curve, 40-4soil, 40-4, G
Notch-brittle, 43-6 (ftn)factor, fatigue, 43-10sensitivity, 43-10stress concentration, 44-5toughness, 43-14
NOx, 32-9control, 24-5
Nozzle, 17-27ASME long radius, 17-30 (ftn)coefficient, 18-22flow, 17-30ISA, 17-30 (ftn)loss, turbine, 18-22
NPDES, 29-1, 32-12NPSHR, hydrocarbon, 18-21
NRC equation, 29-10NRCS, 20-3, 20-10
curve number, 20-15dimensionless unit hydrograph, 20-11
graphical method, 20-19lag equation, 20-4peak discharge, 20-19synthetic unit hydrograph, 20-10, 20-11
NRTL, 81-3NSPE (see National Society of Professional
Engineers) NTU, 25-10Nuclear
density gauge, 35-20gauge, 75-9sensing, 43-12
Nucleon, 22-1Nuisance flood, 20-6Null
event, 11-3hypothesis, 74-7indicator, 84-9matrix, 4-1point, 34-8position, 84-4region, 7-3set, 11-1
Numberatomic, 22-2, A-46, GAvogadro’s, 22-4
cavitation, 18-15cetane, 24-7complex, 3-1, 3-7curve, NRCS, 20-15dimensionless, 1-7, 1-9
direction, 7-5Eötvös, 17-43 Froude, 17-44, 19-18imaginary, 3-1irrational, 3-1Mach, 14-14octane, 24-6odor, Godor threshold, 26-13of passes, effective, 29-10oxidation, 22-3, 22-3, Gperformance, 24-6random, A-45
rational, 3-1real, 3-1Reynolds, 16-7
similarity, 17-43smoke spot, 24-13, 32-13stability, 39-2, 40-7structural, 75-12threshold odor, 26-13type, 3-1Weber, similarity, 17-45
Numbering system, 3-1Numerical method, 3-3, 12-1Nusselt number, 1-9
Nutcoal, 24-4factor, 45-12
O
Objectively scored problems, 89-3Obligate aerobe, 27-3Obligate anaerobe, 27-3Oblique
axis, 2-2impact, 72-16perspective, 2-3triangle, 6-5, A-132
view, 2-2Observation well, G Observed yield, 30-8Obsidian, 35-31Obstruction meter, 17-25Obtuse angle, 6-1Occupancy, 85-6
category, 81-6class, 81-6group, 81-6, 81-7, 85-2, 85-6mixed, 81-6types of, 85-6
Occupancy ratio, lane, GOccupational Safety and Health Act, 82-1Occurrence, frequency of, 20-5Ocean dumping, sludge, 30-19O’Connor and Dobbins formula, 28-7Octane number, 24-6Odd symmetry, 7-4, 9-7
Odor, 32-10in water, 26-12
Ind
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
number, Gthreshold, 26-13
sewage, 29-3Oedometer test, 35-23, 40-5Offer, 87-3Off-gas, 34-16Official benchmark, 77-7Offset, 74-15
chord, method, 78-5parallel, 43-3stake, 80-1, 80-3station, 78-5tangent, 78-4tangent, spiral, 79-18
Ogee spillway, 19-13Ohm’s law, 83-3, 83-6Oil
Bunker C, 24-5distillate, 24-6fuel, 24-5, 24-6
residual fuel, 24-6spill, 32-10
Olefin series, 24-2Oligotrophic, GOnce-through cooling water, 32-6On cost, 85-9One
percent flood, 20-6-tail limit, 11-12-third rule, 77-17-way
draining, 40-5moment, 44-8 (ftn)shear, 44-7 (ftn), 55-2slab, 51-1
Opacity, smoke, 32-13Open
area, well screen, 21-4channel, 19-2
flow, nomograph, A-46
flow, types, 19-2
hydraulic parameters, 19-3
circuit, electrical, 83-2-cut method, 40-11-graded friction course, 75-3-graded mix, 75-3loop recovery, 34-3manometer, 15-3traverse, 77-13
Openings, sieve, 35-2, 35-2Operating
cost, 85-9expense, 86-32point, pump, 18-17speed, 73-4
Operational form, log, 3-5Operations on complex numbers, 3-8Opportunity cost, 86-18Opposite side, 6-2Optical
density, 32-13holography, 43-12plummet, 77-8
Optimumdensity, 73-6moisture content, 35-19
speed, 73-6water content, 35-17
Orbiteccentricity, 72-19, 72-19
geostationary, 72-18law of, 72-18
Order, G differential equation, 10-1matrix, 4-1of accuracy, 77-4, 77-5
of the reaction, 22-10stream, G
Ordinance, zoning, 81-2Ordinate, 7-2Organic
acid, 23-2
chemical, volatile, Gchemistry, 23-1color, in water, 25-8compound, 23-1
family, 23-1synthesis route, 23-3
volatile, 28-14, 32-14, 34-3family, 23-2, 23-3
functional group, 23-1, 23-1, 23-3
loading, 28-3, 29-10matter, 35-5nitrogen, 25-8, 28-13polymer, 26-6precursor, 25-11, 25-12refractory, 28-6sedimentary rock, 35-31solid, dissolved, 29-3sulfur, 24-3trace, 29-3
Organism, indicator, 27-4Organohalogen, 32-10Organochlorine pesticide, 32-10Organophosphate, 32-11Organotroph, 27-1Orientation, angular, 5-1Orifice, 17-16
coefficients, 17-17
large, 17-18meter, 17-29plate, 17-29
flow coefficients, 17-30
pressure loss, 17-29 (ftn)Orsat apparatus, 24-11Orthogonal, 7-2
vectors, 5-3view, 2-2
Orthographicoblique view, 2-3view, 2-2
Orthophosphate, 25-7Orthotrophic, GOrthotropic
bridge deck, Gmaterial, G
OSHA (see also Occupational Safety andHealth Act)
noise limit, 82-3scaffold regulations, 82-3
Osmosis, Greverse, 26-18
Osmotic pressure, 14-9Othmer correlation, 14-11Outfall, GOutlet control, 19-26Overall
coefficient of heat transfer, 30-16efficiency, pump, 18-9stability constant, 22-12
Overautogenous waste, 34-8 (ftn)Overburden, 36-4
correction, 36-7
stress, 35-14Overchute, GOverconsolidated
curve, 40-4soil, 35-24, 40-4
Overconsolidation ratio, 35-24Overdraft, 21-5Overdrive gear, 74-2Overflow
rate, 26-5, 29-7spillway, 19-13
Overhaul, 79-7, GOverhead, 86-36
cost, 85-6general, 85-6project, 85-6
Overhung load, 18-11Overland flow, 20-7, 20-7 (ftn), G
velocity, 20-4
Overload point, 18-16Over-reinforced beam, 50-6Oversize hole, 65-3Overturn, GOverturning
factor of safety, 15-11moment, dam, 15-11
Owner, 87-4Owners’ equity, 86-33Ownership, 87-1Oxidant, 26-7, 32-10
oxidation power, 34-4, 34-14
total residual, 29-12Oxidation, 23-2, G
ditch, 30-3number, 22-3, 22-3, Gpond, 29-4power, oxidants, 34-4, 34-14
process, advanced, 26-17state, 22-3tower, 29-8
Oxidesnitrogen, 32-9sulfur, 32-14
Oxygendeficit, 28-7demand, 30-9
biochemical, 28-8, Gchemical, 28-12
dissolved, 28-7-enriched incineration, 34-12in water, dissolved, A-50
sag (Streeter-Phelps), 28-10saturation coefficient, 30-9transfer, rate of, 30-8
Oxygenate, 24-6, 24-7
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-38
Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-39
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
Oxygenatedfuel, 32-5gasoline, 24-6
Oxygenation, 28-7rate constant, 28-7
Ozonation, 26-18, 34-14Ozone, 26-18
atmospheric, 32-5depleter, 32-11depletion, 32-5pollutant, 32-10
P
PAC, 29-12Pace, 73-4
group, 73-4interval, 73-4range, 73-4
Packed tower, 34-3, 34-16Packing
height of, 34-17media, 34-16
Pad, 36-8Paddle
mixer, 26-8velocity, relative, 26-8
Paint, pipe, 16-11Pan, G
evaporation, 20-21Panel
drop, 51-5shear, 46-11truss, 41-12
Panhandle formula, 17-9Pappus-Guldinus theorem, 42-3Pappus’ theorems, 9-5 Parabola, 7-10, 7-10
Parabolicaxis, 7-10cable, 41-17column formula, 45-3curve, 78-4, 78-10flare, 78-4taper, 78-4
Paradox, hydrostatic, 15-4Paraffin series, 24-2Parallel
axis theorem, 42-4, 70-2circuit, electrical, 83-4-flow mixer, 75-6force, 41-6line, 7-8offset, 43-3parking, 73-18perspective, 2-3pipe, 17-20pumps, 18-18reliability, 11-8spring, 45-19
Parallelogram method, 5-3Parameter
catenary, 41-19cross-section monosymmetric, 59-3mixing opportunity, 26-9sludge, 30-5variation of, 10-4
Parametricbudgeting, 85-6equation, 3-2
derivative, 8-3plane, 7-6
Parasites, 27-2Paratyphoid fever, 27-2Parclos, 73-21Parking, 73-18
accessible (disabled), 73-19
ADA accessible, 73-19diagonal, 73-18double-alternate, 73-18lot, 73-18lot dimensions, 73-19
parallel, 73-18stall, 73-18tandem, 73-18travers, 73-18
Parkway, GParshall flume, 19-13
K-values, 19-14
Partialcloverleaf interchange, 73-21composite action, 64-3, 64-4differentiation, 8-4emission, forced vortex pump, 18-12 (ftn)fraction, 3-6, 9-3pressure, 31-6
fraction, 24-2similarity, 17-45treatment, G
Partiallycompensated footing, 36-9filled circular pipes, A-15, A-38
grouted masonry, 68-5Particle size distribution, 35-2
chart, 35-4Particular solution, 10-4, 10-4
Particulate matter, 32-10Partition coefficient, GPartner
general, 87-1limited, 87-2
Partnering, 85-1Partnership, 87-1
limited, 87-2Part per million, 22-8 Parts, integration by, 9-2Pascal’s
law, 15-4, 15-14 (ftn)triangle, 3-3
Passenger car equivalent, 73-7
flow rate, 15 min, 73-11Passes, number of, effective, 29-10Passing sight distance, 74-5, 79-9, G Passive
collection, gas, 31-6earth pressure, 37-2, 37-4pressure, G
Path, critical, 85-1, 85-2Pathogen, 27-1, 27-2
waterborne, 27-2Pathogenic, GPathway, GPattern, bond, 67-7
Pavementasphalt, 75-1
recycled, 75-2defect, 75-4drainage, 76-5dual-layer, 76-10flexible, Gflexible, AASHTO nomograph, 75-17
full-depth asphalt, 75-2, 75-19 grade, 79-19grooving, 76-10joint, 76-9minimum thickness, 75-17, 75-19
portland cement concrete, 76-1recycled, 75-6, 75-22recycling, PCC, 76-10rigid, 76-1, 76-4, G
AASHTO nomograph, 76-6, 76-7
structural number, 75-18Paving
machine, 75-7temperature, 75-7
Pay as you throw, GPayback period, 86-38PCB, 32-10PCC, 48-1PDC (see Peak discharge compartment)P-delta
analysis, 47-16effect, 53-1, 62-1
PDO accident, 74-7Pea coal screening, 24-4Peak
demand multiplier, 83-7-discharge compartment, 32-12discharge, NRCS method, 20-19flame temperature, 32-9hour
factor, 73-5warrant, signalization, 73-14
runoff, 20-11rational method, 20-13
time to, 20-10Peaking factor, 28-2
wastewater, 28-2
Peclet number, 1-9
Pedestal, 52-1Pedestrian
circulation area, 73-15density, 73-17speed, 73-17unit flow rate, 73-17volume warrant, signalization, 73-15
Pedology, GPeltier effect, 84-6 (ftn)Pelton wheel, 18-21Pendulum, ballistic, 72-3Penetration
grading, 75-2resistance, 35-17test, standard, 35-17, 36-7treatment, G
Penetrometer test, cone, 35-17Penstock, 18-21Per capita daily demand, 26-18
Ind
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
Percentmole, 14-6pore space, 35-7VMA, 75-9
Percentage yield, 22-7Percentile, 11-10
rank, 11-10speed, 73-4
Perception-reaction time, 78-8Perched spring, GPercolation, G
field, 29-2Per diem fee, 87-4Perfect
gases, A-63
reaction, 22-6Perforated cover plate, 61-2Performance
curve, pump, 18-16function, 11-8grading, 75-2incinerator, 34-10
number, 24-6period, 75-14
Perigee, 72-19Perihelion, 72-19Perimeter, wetted, 16-6, GPeriod, 86-2 (see also type)
aeration, 30-8chemical, 22-2detention, 26-5electrical, 83-4law of, 72-18of waveform, 9-6
Periodicchart, A-47
table, 22-2, A-47
time, 72-18waveform, 9-6
Permanenthardness, 25-4, G set, 43-2, 48-7
Permeability, 21-2, 21-2
coefficient of, 21-2intrinsic, 21-2soil, 35-22
specific, 21-2test, 35-22
Permeator, 35-22Permissible exposure limit, 82-2Permutation, 11-2
circular, 5-5Perpendicular
axis theorem, 42-5line, 7-8line principle, 2-1
Perpetual inventory system, 86-37Persistence, 27-6
pesticide, 32-10Personal
property, 86-20 (ftn)protective equipment, 82-2
Person-rem, GPerspective
angular, 2-3oblique, 2-3
parallel, 2-3view, 2-2, 2-3
PERT, 85-13Pesticide, 32-10 (see also Volatile Organic
Compounds)chlorinated, 32-10
PFR, 30-6pH, 22-8, GPhase, 83-9
angle, 83-4, 83-6current, 83-9factor, 83-7signal, 73-11
Phases, project scheduling, 85-8Phasor form, 3-8, 83-5Phenol, 23-3
Philadelphia rod, 77-9Phosphated surface, 65-3Phosphorus
ion, in water, 25-7removal, in wastewater, 29-3, 29-12
Photoautotroph, 27-3Photochemical
reaction, 32-10smog, 32-13
Photoelectric effect, 84-4Photogrammetric survey, 77-5Photogrammetry, 77-17Photosensitive conductor, 84-5Phototroph, 27-1Photovoltaic cell, 84-4Phreatic zone, 21-1, GPhreatophytes, GPhysical
constants, back endpaper
inventory, 86-37strain, 43-5stress, 43-5
Phytoplankton, GPick-up, 84-3 (ftn)Pictorial drawing, 2-2 (ftn)Pier, 38-6, 44-12, 45-2
shaft, GPIEV time, 74-5Piezoelectric
effect, 15-2, 84-4transducer, 84-4
Piezometer, Gnest, Gring, 15-2 (ftn)tube, 15-2
Piezometricheight, 21-2level, G
Pi-group, 1-8Pilaster, 69-1Pile, 38-1, 79-3 (see also type)
batter, Gbearing capacity, ultimate, 38-1capacity, tensile, 38-5composite, 38-1friction, 38-1group, 38-5
efficiency, 38-5grouted, 38-6machine-drilled, 38-6
Meyerhof values, 38-2
micro-, 38-6mini-, 38-6needle, 38-6pin, 38-6point-bearing, 38-1root, 38-6safe bearing value, 38-2safe load, 38-2settlement, 38-5small-diameter, 38-6soldier, 39-1, Gtension, 38-5volume, 79-3
Pile bent, GPiling
sheet, 39-1, 39-4sheet, section modulus, 39-3
Pinned support, 41-7Pin pile, 38-6Pinworm, 27-2Pipe
asbestos-cement, 28-4bend, force on, 17-34buried, loads on, 40-8cast iron, 28-3, A-23
modulus of elasticity, 17-36circular, A-15
clay, 28-4coating, 16-11concrete, 28-3, A-22
corrugated metal, 19-30eductor, 21-4entrance, 17-13exit, 17-12flexible, 40-8impact factors, 40-9
jacking, 40-11material, 16-9maximum velocity in, 17-3network, 17-23parallel, 17-20plastic, 28-3polyvinylchloride (PVC), 16-10, A-20,
A-21
riser, 21-4sag, Gseries, 17-19specifications, 16-11standards, 16-11steel, 16-11, A-16–A-19
modulus of elasticity, 17-36system, multiloop, 17-23truss, 28-4ultimate strength, 40-9water, 26-20 (see also type)
Pipelines, submerged, 15-16Piping
geometry factor, 17-13symbols, A-24
Pitash, 24-3borrow, 79-4sheeted, G
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-40
Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-41
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
Pitch, 72-2circular blade, 18-4helix, 7-12spacing, 60-2
Pitot-static gage, 17-27tube, 16-4tube traverse, G
Pitting, 22-16Pivot point, 39-4Placing concrete, 49-5Plain
jointed concrete pavement, 76-1sedimentation, 26-4sedimentation basin, 29-7steel pipe, 16-10
Plaintiff, 87-5Planar view, 2-2Plane, 7-6
angle, 6-1complex, 3-7motion, 71-11, 72-2of bending, 59-2survey, 77-5table survey, 77-5tangent, 8-5
Planimeter, GPlaning, cold, 75-22Plant
hydroelectric generating, 18-21material recovery, 31-10mix, 75-6, Gresource recovery, 31-9waste-to-energy, 31-9waste-to-steam, 31-9
Plasma incineration, 34-12Plastic
analysis, 47-2, 47-17behavior, 44-2 (ftn)centroid, 52-6design
continuous beam, 59-11method, 59-8
hinge, 44-18, 47-2, 47-17impact, 72-15instability, pavement, 75-5limit, 35-21moment
diagram, 59-13maximum 59-12
ultimate, 59-12neutral axis, 64-2pipe, 16-10, 28-3region, 48-7section modulus, 59-11strain, 43-2types, 32-11waste, 32-11water pipe, 26-20
Plasticity, 35-4index, 35-21test, 35-4
Plastics, 32-11
tests on, 43-10Plastification factor, web, 63-6Plat, G
Platebeam bearing, 59-16bearing value test, 35-30column base, 61-8flat, 45-18, 51-5flat, uniform pressure, 45-18
girder, 59-2, 63-1concentrated force, 63-5flange, 63-2, 63-3shear strength, 63-2
jet force on, 17-32orifice, 17-29width tolerance, 58-3
Platoon, 73-17length, 73-16ratio, 73-12
Plow steel, 45-20 (ftn)Plug
flow, 30-6mixing model, 26-8reactor, 30-6
valve, 16-12weld, 66-2
Plugging, 29-12, 34-15Plumb bob, 77-8Plummet, optical, 77-8Plunger pump, 18-2Plus
declination, 77-11sight, 77-9
PMBOK Guide, 85-1PMF, 20-6PMP, 20-6Pneumatic
caisson, 39-8roller, 75-8
Pneumonia, 27-2pOH, 22-8, GPoint
balance, 79-6-bearing pile, 38-1capacity, 38-2cloud, 24-7contraflexure, 7-2, 8-2, 39-4, 44-16counterflexure (see Contraflexure)critical, 8-2l, 28-10extreme, 8-2force, 41-2grade, 79-3, 79-6, 80-3inflection, 7-2, 8-2, 44-16loads, web, 59-4of
application, 5-1beginning of curve, 78-3continuing curve, 78-6curvature, 78-3end of curve, 78-3rotation, 78-7sale, 86-37tangency, 78-3
operating, 18-17pivot, 39-4pour, 24-7singular, 8-1, 8-3-slope form, 7-5
source, Gsurcharge, 37-5terminal, 5-1-to-area rain conversion factors, 20-19
turning, 79-11yield, 43-2, 58-2
Poise, 14-7Poisoning, 34-15Poisson’s
distribution, 11-5ratio, 43-4, 43-4, 58-2ratio, concrete, 48-6
Polarcoordinate system, 7-3, 7-4
form, 3-8, 7-5moment of inertia, 42-5
Pole, breakaway, 74-8Poling, 39-1Poliomyelitis, 27-2Polioviruses, 27-2Polishing
characteristic, pavement, 75-3filter, 29-11pavement, 75-5pond, 29-4
Pollutant, 32-2, GPollution, 32-1
industrial, types, 34-17
source, 32-2Polychlorinated byphenyl, 32-10Polyelectrolyte, 26-6Polygon method, 5-3Polymer, 32-11
asphalt modifier, 75-5concrete, 48-9, 76-10-modified asphalt, 75-5organic, 26-6-portland cement concrete, 48-9synthetic, 26-6water treatment, 26-6
Polymictic, GPolynomial, 3-3
characteristic, 4-7degree, 3-3Lagrangian interpolating, 12-2Newton’s interpolating, 12-3standard form, 3-3
Polyphase motors, A-133
Polyphosphate, 25-7Polyprotic acid, 22-13Polysaccharide, 23-3
Polytropiccompression, 15-13exponent, 15-13
Polyvinylchloride (PVC) pipe, 16-10, A-20,A-21
Pondaerobic, 29-4anaerobic, 29-4facultative, 29-4maturation, 29-4oxidation, 29-4polishing, 29-4stabilization, 29-4tertiary, 29-4
Ind
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Population, 11-3adjustment factor, 73-8equivalent, 28-3
Porepressure, 35-14, 37-6, 38-3, 40-5space, percent, 35-7-squeeze liquid, 31-7velocity, 21-4water pressure, 35-14
Porosity, 21-2, 35-7, Geffective, 21-2
Porous filter, 21-5Portland cement, 48-1
concrete, 48-1pavement, 76-1
types, 48-1Position, dilution of, 77-6Positive displacement pump, 18-2Post
-chlorination, G-tensioned concrete, 56-2
Potable, GPotential
energy, 13-3, 16-2stream, 17-3
Potentiometer, 83-2, 84-3Potentiometric sensor, 84-3Pothole, 75-5Poundal, 1-4Pour point, 24-7Powdered activated carbon, 29-12Power, 13-6
aeration, 29-4, 30-9angle, 83-7blower, 29-4conversions, 13-6
curve, 43-5design, 72-7 (ftn)electrical, 83-3, 83-6factor, 83-7, 83-8friction, 18-9hydraulic, 18-7law, viscosity, 17-11line, safety, 82-2number, 26-9phase, 83-9propulsion, 74-2pump, 18-2, 18-7pumping, well, 21-7turbine, 17-34, 18-22unit stream, Gwater, 18-7
Powerhouse, 18-21Pozzolanic additive, 48-3PPCC, 48-9Prandtl number, 1-9
Prandtl’s layer theory, 17-42Precedence table, 85-9, 85-10Prechlorination, 26-4, GPrecipitation, 20-1, 22-8
average, 20-2chemical, Gphosphorus, 29-12probable maximum, 20-6softening, 26-13, 26-14
Precipitator, electrostatic, 34-7, 34-7
Precise rod, 77-9Precision, 11-13, 84-2
ratio of, 77-2Preconsolidated curve, 40-4Preconsolidation pressure, 35-24Precursor, 25-9, 25-10
smog, 32-13Prefix, SI 1-7Prefixes, back endpaper
Preliminary treatment, 26-3, 29-3Preload
bolt, 45-11, 65-3force, 45-11
Preloaded soil, 35-24Premature exhaustion, 29-12Prerequisite of privity, 87-6 (ftn)Presedimentation, 26-4Present worth, 86-5, 86-11Present worth method, 86-14Press
belt filter, 30-16fit, 45-5hydraulic, 15-14
Pressure, 14-2, 15-4absolute, 14-3active, Gat a depth, 15-6 (ftn)atmospheric, 14-3
average, 15-6barometric, 14-3buried pipe, 40-8center of, 15-4, 15-8, 15-10, 41-5collapsing, 45-4 (ftn)conduit, 16-6curved surface, 15-10dam, 15-11dead load, 40-8differential, 14-3drag, 17-39drop
friction, 17-4 (ftn)steel pipe, A-30
earth, 37-2active, 37-2, 37-3passive, 37-2
effective, 37-6, 40-5energy, 13-3, 16-2equivalent, 37-6external, 15-14filter, 26-11filtration, 30-17fit, stress concentration factor, 45-8
flow, 16-6fluid, 14-2formwork, 49-7from applied load, 40-2from gas, 15-12gage, 14-3gauge, 15-2head, 18-6 (ftn)hydrostatic, 15-4, 37-6lateral, concrete, 49-6loss, orifice, 17-29 (ftn)measurement, 15-1
measuring devices, 15-2
multiple liquid, 15-12neutral, 21-8osmotic, 14-9partial, 31-6passive, Gpipe, buried, 40-8plane surface, 15-6–15-8pore, 35-14, 37-6, 38-3, 40-5preconsolidation, 35-24regulator, 26-20-relief valve, 17-36safe bearing, 36-2saturation, 14-9soil
at-rest, 37-5backward, 37-2compressed, 37-2depth, 40-1forward, 37-2tensioned, 37-2
surface, 15-6–15-10total, 16-3, 37-6transverse, 17-27unit, 14-2uplift, 21-8vapor, 14-9, 14-9
water service, 26-20Pressurized
fluidized bed combustion, 24-5liquid, 15-14tank, 17-17
Prestressloss, 56-3maximum, 56-6, 56-7
tendon, 56-3Prestressed
beam deflection, 56-4concrete, 56-1
pavement, 76-1Prestressing
beam deflection, midspan, 56-4
steel ratio, 56-6tendon, ASTM, 56-6
Presumptive test, GPretension
bolt, 65-3loss
creep, 56-3shrinkage, 56-3
Pretensioned concrete, 56-1Pretreatment, 26-3Prewash, air, 26-11Price-earnings ratio, 86-35Pricing, congestion, 73-23Primary
consolidation, 40-3, 40-4rate, 40-5
creep, 43-16dimension, 1-7structure, 47-7treatment, 29-3unit, 1-7
Primecoat, Gcontractor, 87-4
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-42
Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-43
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
cost, 85-9, 86-32mover, 18-9 (ftn)
Primer, red, 16-11Principal
axis, 42-8, 59-14, 70-2moment of inertia, 42-8organic hazardous constituent, 34-10stress, 44-5view, 2-2
PrincipleArchimedes’, 15-14D’Alembert’s, 72-6impulse-momentum, 17-31, 72-13Le Chatelier’s, 22-9of proportionality, 47-2virtual work, 47-3work-energy, 13-3, 13-4, 45-19
Priority, ethical, 88-2Prism, 79-4
level, 77-9test method, 67-4
Prismoid, 79-4Prismoidal
formula, 79-4prism, 79-4
Privity of contract, 87-6Probability, 11-2
complementary, 11-4conditional, 11-4density function, 11-4joint, 11-3of flood, 20-6
Probableerror of the mean, 77-2maximum
flood, 20-6precipitation, 20-6rainfall, G
ratio of precision, 77-2value, 77-1
Problem, mixing, 10-8Process
bioactivation, Gbiofilm, 26-11biosorption, Gcost accounting, 86-35efficiency, BOD, 30-6Krause, Glime-soda ash, 26-13nitrification/denitrification, 29-12unit, Gwaste, 32-2zeolite, 26-14
Processing, joint 28-1Prochloraz, 32-11Proctor, test, 35-17, 35-18Producer gas, 24-7 (ftn)Product, 22-5
cross, 41-2ion, 22-12mixed triple, 5-4of inertia, 42-6, 70-2solubility, 22-13triple scalar, 5-4vector, cross, 5-4
vector, dot, 5-3vector, triple, 5-5
Professionalengineer, 89-1engineering exam, 89-3services cost, 85-5
Profileauxiliary view, 2-2depth, 19-21diagram, 79-6
grade points, 79-6drag, 17-39
Profiling, 75-22Profit, 86-37
and loss statement, 86-34project, 85-6
Programmed evaluation and reviewtechnique, 85-13
Programming, project, 85-8Progressive method, landfill, 31-2Projectile motion, 71-4
equations, 71-5
Projectioncabinet, 2-3cavalier, 2-3fee, 85-2factor, growth, 75-13
Project management, 85-1overhead, 85-6
Projector, 2-2Prony brake, 84-12Proof
alcohol, 24-7load, bolt, 45-8, 45-12strength, 45-8, 45-12stress, 43-3 (ftn)
Properpolynomial fraction, 3-6 (ftn)subset, 11-1
PropertiesA36 steel, 58-2
air, A-14
carbon dioxide, 31-6, 31-6
coal, 24-5
concrete components, 49-1, 49-3fuel, 24-6
fuel oil, 24-6
gases, A-56
masonry, 67-3, 67-4cross sections, A-114–A-118
metallic, 22-2metals, A-75–A-77
methane, 31-6, 31-6
saturated steam, A-34
solutions, 14-15steam, A-34
steel, 48-7, 58-2structural
aluminum, A-71
magnesium, A-71
steel, A-71
steel, high temperature, A-112
water, A-13, A-14
treatment chemicals, A-64
weld groups, A-82
Propertybusiness, 86-20 (ftn)class, bolt, 45-9
Propiconaone, 32-11Proportional
region, 43-2weir, 19-13
Proportionalitylimit, 43-2principle of, 47-2
Proportionsarbitrary, method, 49-2law of
definite, 22-3multiple, 22-3
Propped cantilever beam, 46-1Proprietorship, sole, 87-1Propulsion
jet, 17-32power, 74-2
Protectioncathodic, 48-7scour, 19-13
Protein, 28-14Protista, 27-1Protium, GPrototype, 17-42Protozoa, 27-1, 27-2, 27-4, G
flagellated, 27-4Proximate analysis, 24-2Prying action, 65-6, 66-7P-sequence, 3-11P-series, 3-11Pseudokinematic GPS survey, 77-6Pseudoplastic fluid, 14-7Psid (unit), 14-3Psychrophile, 27-1P-system, 47-3Public
corporation, 87-2dealing with, 88-3land system, 77-18
Puffing, 34-8Pull
anchor, 39-5drawbar, 74-3-out capacity, 38-5
Pulley, 41-11advantage, 41-11block, mechanical advantage, 41-11
efficiency, 41-11Pulsation
damper, 18-2stabilizer, 18-2
Pump, 17-14, 18-2 (see also type)centrifugal, 18-2characteristics, 18-2, 18-12
efficiency, 18-9
homologous, 18-13mixed-flow, 18-4 (ftn)nonclog, 18-5overall efficiency, 18-9performance curve, 18-16power, 18-7
factors, sludge, 18-5
Ind
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sludge, 18-5vs. specific gravity, 18-5
shaft loading, 18-11sewage, 18-4similarity, 18-19sludge, 18-5velocity ratio, 18-3
wastewater, 18-4, 29-3, 29-4
Pumped storage, 26-19Pumping
hydrocarbons, 18-21other liquids, 18-20pavement, 75-5power, well, 21-7
Pumpsin parallel, 18-18in series, 18-18
Punched hole, 60-2Punching shear, 55-3Punitive damages, 87-5, 87-7Purchase order, 87-3Purification
dilution, 28-9self-, 28-9
Purlin, 59-2Purple bar, 48-8Putrefaction, GPv work, 13-3PVC pipe, 16-10, 28-3, A-20, A-21
P-waste, 32-2Pycnometer, 75-8, GPyritic sulfur, 24-3Pyrolysis, 32-11Pythagorean theorem, 6-2
Q
q-curve, GQ-system, 47-3Q-test, 35-27Quad, 13-1Quadrants, 6-3
signs of functions, 6-3
Quadratic equation, 3-3Quality factor, joint, 16-10Quantity
economic order, 86-42of sludge, water treatment, 26-10sludge, wastewater, 30-12wastewater, 28-1, 28-2
Quarter-bridge, 84-11-wave symmetry, 9-7
Quartile, 11-10Quartz, 35-31
-crystal transducer, 15-2Quenched and tempered alloy steel, 58-1Queue, 73-23Quick
mixer, 26-8ratio, 86-35test, 35-27
Quicksand, 36-2
R
R-value, 35-30soil, 75-15
Race, tail, 18-21, GRack, trash, 29-6Rad, 6-1 (ftn), GRadial
flow impeller, 18-4, 26-9turbine, 18-22, 18-23
interference, 45-6strain, 45-5stress, 35-25velocity, 71-9
Radian, 6-1hyperbolic, 6-5
Radiationloss, 24-15ultraviolet, 26-18
Radical, 22-3, GRadiographic inspection, 81-4Radiography, 43-12Radius
hydraulic, 16-6, 19-2, Gof gyration, 42-6, 45-2, 61-4, 70-2
effective, steel beam, 59-3least, 42-6, 61-4
of influence, 21-5, 31-6turning, 73-3
Radon, 32-12Raft, 36-8
on clay, 36-9on sand, 36-10
Railroadgrade, 78-19, 78-19
rolling stock, 74-3superelevation, 78-9
Railway curve, 78-3Rain
areal, 20-19gross, 20-19net, 20-7 (ftn), 20-19, G
Rainfallcurve, 20-2gross, 20-16intensity, 20-4probable maximum, Gtotal, 20-16
Rainwater runoff, 32-12Ram, hydraulic, 15-14Ramping, 74-8Random
error, 84-2number, A-45
Range, 11-10number, 77-18pace, 73-4
Ranger, 39-2, 49-6, GRank
matrix, 4-5speed, 73-4
Rankine earth pressure theory, 37-2, 37-4Ranking alternatives, 86-17Rapid
flow, 19-15, Gmixer, 26-8sand filter, 26-11, 29-12static mode, 77-6
Rapper, 34-7
Rap, rip, GRare earth, 22-2Raster image, 77-6Rate
15 min passenger car equivalent flow,73-11
accident, 74-7burning, 31-9constant
BOD removal, 29-5deoxygenation, 28-8mixing, 26-8reoxygenation, 28-7
creep, 43-15decay, Velz, 29-10flow, 26-11, 73-8grade change, 78-11growth, maximum specific, 30-7heat release, 31-9lapse, Gloading, 26-11of
braking, 74-5change, 8-1consolidation, 40-5flow, 73-5, 73-6flow, pedestrian, 73-17grade change, 79-11oxygen transfer, 30-8reaction, 22-10return, 86-12, 86-14return method, 86-16shear formation, 14-6strain, 14-6substrate utilization, 30-7
overflow, 26-5, 29-7reaction, 22-11recharge, 31-7saturation flow, 73-12, 73-13service flow, 73-5, 73-8, 73-10settling, 29-7sludge recycle, 30-10
return, 30-10spring, 45-19superelevation, 78-6
runoff, 78-8surface loading, 29-7transition, 78-8weir loading, 29-7
Rated valuemotor, 83-11pump, 18-16
Ratingcurve, GSK, 29-8
Ratioair-fuel, 24-9, 24-12air-to-cloth, 34-5aspect, 17-37beta, 17-28bifurcation, GCalifornia bearing, 35-29, 75-15centrifugal, unbalanced, 78-7circular channel, 19-5, A-38
common, 3-11
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-44
Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-45
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
compression, 40-4cornering, 78-7critical v/c, 73-12current, 86-34depth-thickness, 63-1effective green, 73-12endurance, 43-9energy-efficiency, 13-6 (ftn)fatigue, 43-9filter, 34-5flow, 73-12food-to-microorganism, 30-5friction, 35-17lane occupancy, Glateral, 78-7mass-to-power, 74-7modular, 44-19, 50-16, 56-3, 57-3modulus, 57-3nitrogen-oxygen, 24-8of
precision, 77-2specific heat, 15-13transformation, 83-6
overconsolidation, 35-24platoon, 73-12Poisson’s, 43-4, 43-4, 58-2price-earnings, 86-35recirculation, 29-9recompression, 40-4recycle, 30-10 reinforcement, 50-12
beams, minimum, 50-6, 55-4footings, minimum, 55-4
return, 30-10saturation flow, 73-12severity, 74-7slenderness, 45-2, 52-1, 61-2
steel tension member, 60-4steel, 50-12
prestressing, 56-6stress, cyclic, 40-11test, 3-12void, 35-7volume-capacity, 73-5, 73-12water-cement, 49-1, 76-2, 76-2
width-thickness, 61-6, 61-6, 63-2Rational
equation, 20-13method
modified, 20-20peak runoff, 20-13runoff C-coefficient, A-44
number, 3-1Rationalization, 3-8Rattler test, Los Angeles, 75-4Raveling, pavement, 75-5Ray, 6-1 (ftn)RCP, 28-3RDF, 31-10Reach, 19-2, GReactance, 83-5Reactant, 22-5
limiting, 22-7Reacted asphalt process, 75-24
Reaction, 41-6, 41-8chemical, 22-5combustion, 24-9
endothermic, 22-14enthalpy of, 22-14, 22-15
exothermic, 22-14kinetics, 22-10, 22-11
order, 22-10rate, 22-11
constant, 22-10, 22-11, 34-5zero order, 22-10
rate of, 22-10redox, Greversible, 22-9sequencing batch, 30-3speed of, 22-10stoichiometric, 22-6, 22-7turbine, 18-22, 18-23velocity, 22-10
Reactivepower, 83-7substance, 32-2
Reactivity, alkali-aggregate, 48-2Reactor, 30-6
biological, rotating, 29-11continuous-flow stirred tank, 30-6tank, 34-6
Reaeration, 28-7Real
fluid, 14-2machine, 13-6number, 3-1power, 83-6
Rebar, 48-6, A-91
area, 50-8, 51-3
development length, 67-6epoxy-coated, 48-8, 55-5masonry, 67-6pavement, 76-5, 76-8protection, 48-7
Rebound, 72-15curve, 35-23test, 43-14
Receipt, 86-3Receivable turnover, 86-35Recessed plate filter press, 30-17Recession curve, 20-6Recharge rate, 31-7Reciprocating pump, 18-2Reciprocity, 89-2Recirculation, 29-9
flue gas, 34-7ratio, 29-9
Reclamation, 29-12Recommended standards for sewage works,
A-65, A-66
Recompressioncurve, 40-4index, 40-4ratio, 40-4
Reconsolidation index, 35-24Recorder, traffic, 73-5Recovery, 43-2
depreciation, 86-26leachate, 31-8
Recreational vehicle, 73-3
Rectangularchannel, 19-6, 19-8, 19-17
normal depth, 19-6coordinate system, 7-3form, 3-7hyperbola, 7-12rosette, 84-12Surveying System, 77-18
Rectified sinusoid, 83-5Rectilinear system, 71-2Rectum, latus, 7-10, 7-11Recurrence interval, 20-5Recycle
rate, sludge, 30-10ratio, 30-10
Recycledasphalt pavement, 75-2, 75-6, 75-22pavement, PCC, 76-10
Recyclingcold in-place, 75-22hot mix, 75-23plastics, 32-11wastewater, 29-8
Redprimer, 16-11time, effective, 73-16
Redox reaction, GReduced equation, 10-1Reduction, 23-2, G
factorcapacity, 50-4, 52-3strength, 50-4, 52-3
in area, 43-6values
bolted connections, 60-3
welded connections, 60-3
Redundancydegree of, 46-1reliability, 11-8
Redundant, 47-7member, 41-7, 41-13view, 2-2
Reference stake, 80-1Reflection cracking, 75-5Reflex angle, 6-1Reformulated gasoline, 24-6Refraction, atmospheric, 77-9Refractory, G
ash, 24-3organic, 28-6solid, 28-6substance, 29-3
Refuse, 24-4-derived fuel, 24-4, 31-10, 31-10
Regenerating solution, 26-15Regeneration, ion exchange, 26-15Regime
flow, Gsubsonic flow, 14-14 (ftn)
Regionelastic, 43-2, 48-7proportional, 43-2steel, 20-5
rainfall, 20-5
strain-hardening, 48-7transition, 16-8
Ind
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
Registered engineer, 89-1Registration, 89-1Regression,
linear, 11-13nonlinear curves, 11-14
Regula falsi method, 12-2 (ftn)Regular
function, 8-1lay, 45-20
Regulationspeed, 83-10voltage, 83-10
Regulations, 81-1, 81-2Regulator, G
pressure, 26-20Rehabilitation period, 75-15Rehbock weir equation, 19-11Reid vapor pressure, 32-8Reinforced
concrete pipe, 28-3membrane, 31-4
Reinforcementdouble, 50-20, 50-21joint, 67-7ratio, 50-12
beams, minimum, 50-6, 55-4footings, minimum, 55-4
shear, 50-23shear, spacing, 50-18, 50-30shear strength, 50-18
Reinforcingbar, masonry, 67-6bars, A-91
fabric, 40-10steel, 48-6, 50-2
pavement, 76-5, 76-8wire, A-92
Related angle, 6-1functions of, 6-3
Relativeabundance, 22-2atomic weight, 22-1compaction, 35-17compaction, suggested, 35-19
damage, 75-15density, 35-7, 35-17, 35-17
motion, 71-9paddle velocity, 26-8position, 71-9positioning, 77-6risk, 86-34roughness, 17-4stability, 28-12, 28-12
velocity difference, 17-33Relaxation, stress, 56-4Reliability, 11-7, 11-8, 11-13
flexible pavement, 75-15
measurement, 84-2parallel, 11-8pavement, 75-15serial, 11-8
Relief drain, 31-7well, 21-4
Reloading curve, 35-23, 43-7Reluctance, 84-4 (ftn)
Rem, GRemediation, 32-13Removal
efficiency, 34-5BOD, 29-9
fraction, BOD, 29-9rate constant, BOD, 29-5
Reoviruses, 27-2Reoxygenation, 28-7
constant, 28-7Replacement, 22-6
study, 86-18Report, environmental impact, 32-3Repose, angle of, 40-7, 72-6, 79-3Research
and development cost, 86-32octane number, 24-6
Reservoirevaporation, 20-21impounding, 20-20multiple, 17-21routing, 20-21sizing, 20-20three, 17-21yield, 20-20
Residence timemean, 29-7mean cell, 30-6, 30-8solids, 30-6
Residual, Gavailable combined, 28-13combined, 25-9, Gfree, 25-9, Gfuel oil, 24-6oxidant, total, 29-12unavailable combined, 28-13value, 86-16
Residuals, 30-2Resilience, 43-6Resilient modulus, G
chart, 75-16
soil, 75-15Resin
gelular, 26-15macroporous, 26-15macroreticular, 26-15
Resistance (see also type)bridge, 84-9curve, 74-4electrical, 83-2incidental, 74-4level tangent, 74-4locomotive, 74-3motion, 14-2railroad car, 74-3rolling, 72-7, 74-1, 74-2 (ftn)shear, 14-1side, 38-3skid, pavement, 75-3skin, 38-3slip, 65-3temperature detector, 84-5thermal, coefficient of, 84-6
tip, 38-2
valueHveem’s, 35-30soil, 35-30, 75-15
vehicular, 74-1Resistivity
electrical, 83-2, 84-6
fire, 81-4Resistor, 83-2, 83-3, 83-5Resolution, 3-6
of frequency analysis, 9-8Resource recovery plant, 31-9Respiration, GResponse
dynamic, 44-7static, 44-7
Restitution, coefficient, 72-15Restraint, GResultant
acceleration, 71-8equivalent, 41-4shear, 45-16total active, 37-3vector, 5-2, 5-3
Resurfacing, GRetainer fee, 87-4Retaining wall, 54-1, 54-2, A-69, A-70
analysis, 37-6cantilever, 37-1design, 37-8key, 37-1
Retarded flow, 19-21, GRetarder, set, 48-3Retention (see also Detention)
specific, 21-3surface, Gtime, 26-5, 29-7
hydraulic, 30-8watershed, 20-20
Retentivity, 34-3Retrograde solubility, GRetroreflector, 77-8Return
on investment, 86-11, 86-14, 86-15rate of, 86-12, 86-14rate, sludge, 30-10ratio, 30-10
Reuse, wastewater, 29-12Reverse
-bias, 84-5 (ftn)osmosis, 26-18
Reversible reaction, 22-9, 22-11kinetics, 22-11
Revolutionsurface of, 9-5, 42-3 volume of, 9-5, 42-3
Reynolds number, 1-9, 16-7mixing, 26-9similarity, 17-43
Rheopectic fluid, 14-7Rheostat, 83-2Right
angle, 6-1-hand rule, 41-3, 5-4of access, Gtriangle, 6-2
Righting moment, 15-16
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-47
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
Rigidbody, 71-1, 72-8
motion, 72-2diaphragm, 68-12framing connection, 65-6pavement, 76-1, 76-4, G
nomograph, AASHTO, 76-6, 76-7
pavements, equivalency factors,A-129–A-131
truss, 41-12Rigidity, 44-2, 44-3
modulus, 43-7Ring
benzene, 23-1
double, infiltration test, 21-9permutation, 11-2
Ringelman scale, 24-13Rippl diagram, 20-21Rip rap, G Rise in temperature, 13-4Riser pipe, 21-4Rising
limb, 20-6sludge, 30-12
Riskanalysis, 86-43-free investment, 86-11
Rivet, 45-10, 65-1allowable stress, 65-3
rms value, 83-5Road (see also Roadway)
-access charge, 73-23adhesion, coefficient of, 74-4collector, 73-3frontage, Glocal, 73-3mix, Gsafety feature, 74-7user cost, 73-23
Roadbed, Gsoil resilient modulus chart, 75-16
Roadwaybanking, 72-19classification, 73-3
network warrant, signalization, 73-15Rock, 35-2
bearing capacity, 36-7excavation, 79-2igneous, 35-31metamorphic, 35-31salt, 35-31type, 35-30
Rocket, 72-17Rockwell hardness, 43-13Rod
grade, 80-4ground, 80-4leveling, 77-9person, 80-4reading, 80-4reading, for grade, 80-4slider, 71-13tie, 39-4waving the, G
Roentgen, GRohsenow equation, 14-10
Roll, 15-17 (ftn), 72-2Rollcrete, 48-9Roller
-compacted concrete, 48-9, 75-24grid, 35-17pavement, 75-8 (also, see type)rubber-tired, 35-17sheepsfoot, 35-17smooth-wheeled, 35-17support, 41-6
Rollingequipment, 75-8friction, coefficient of, 72-8resistance, 72-7, 74-1, 74-2 (ftn)
coefficient of 72-7, 72-19stock, railroad, 74-3
Root, 3-3, 12-1double, 3-3finding, 12-1-mean-square value, 11-10, 83-5pile, 38-6
Rope, 41-11 (ftn)haulage, 45-20structural, 45-20transmission, 45-20wire, 45-19, 45-20, 45-21
Rosette strain gate, 84-8Rotameter, 17-25Rotary
action pump, 18-2, 18-3bridge, 73-21
Rotatingbiological
contactor, 29-11contactor, characteristics, 29-11
reactor, 29-11machine, electrical, 83-10, 83-13
Rotation, 71-6, 72-2center of, 66-7of
axis, 42-7fluid mass, 15-19
pipe bundle, 34-13point of, 78-7
Rotational symmetry, 7-4Rotaviruses, 27-2Rotifer, 27-4Rotor
concentrator, 34-3motor, 83-12
Roughing filter, 29-8Roughness
coefficient, 17-7, A-35
Manning, 19-4height index, 2-4relative, 17-4specific, 17-4, 17-4, A-25
weight, 2-4Rough-pipe flow, 17-5Round beam, 50-18Roundworm, 27-2Routing
channel, 20-22flood, 20-22reservoir, 20-21
Rowcanonical form, 4-2equivalent matrix, 4-2matrix, 4-1operation, 4-2rank, 4-5 (ftn)-reduced echelon
form, 4-2matrix, 4-1
R-test, 35-27Rth-order difference, 3-10Rubber
-modified asphalt, 75-23concrete, 76-10
-tired roller, 35-17, 75-8Rubberized asphalt process, 75-24 Rubbish, 24-4Rubcrete, 76-10Rule, 88-1
compass, 77-14Cramer’s, 3-7, 4-6derived from, 32-2L’Hôpital’s, 3-9mixture, 32-2of
90s, 75-2professional conduct, 88-1signs, Descartes’, 3-4
right-hand, 5-4, 41-3Simpson’s, 7-2, 77-17transit, 77-14trapezoidal, 7-1, 77-17
Rules, SI system, 1-6 Ruling gradient, 74-4Run
-of-mine coal, 24-4-of-the-nut method, 45-12
Runaway speed, 17-34Runner, turbine, 18-21Running
bond, 67-7speed, 73-4
Runoff, 32-12C-coefficient, A-44
condition, antecedent, 20-16crown, 78-8curve number, 20-17, 20-18
direct, 20-8peak, 20-11subsurface, Gsuperelevation, 78-8surface, 20-6, 20-7 (ftn), Gtangent, 78-8
Runout, tangent, 78-8Runway, airport, 73-26Rupture
angle of, 43-7line, 35-25modulus of, 50-17, 76-4
concrete, 48-6Mohr’s theory, 43-7strength, 43-15
Ruralarea, 73-3survey, 77-5
Ind
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Rutting, pavement, 75-5RV equivalent, 73-7
Ryznar index, 26-16
S
Sack, cement, 48-1Sacrificial anode, 22-17Saddle point, 7-2Safe
bearing pressure, 36-2bearing value, pile, 38-2Drinking Water Act, 25-5load, pile, 38-2yield, 21-5, G
Safety, 82-1feature, road, 74-7scaffolding, 82-3
Sagcurve, 79-15oxygen, 28-10pipe, G
Salary plus fee, 87-4Saline, GSalmonella
paratyphi, 27-2typhi, 27-2
Salmonellosis, 27-2Salometer scale, 14-4 (ftn)Salt, G
water conversion, 26-18Salvage value, 86-18Sample, 11-2
grab, 28-14space, 11-3standard deviation, 11-10variance, 11-11
Sampler, split-spoon, 35-17Sampling with replacement, 11-3Sand, G
bearing capacity, 36-6braced cut, 39-2cohesion, 35-26drying bed, 30-17filter, 26-10, 29-11
bed, 32-13intermittent, 29-11polishing, 29-11rapid, 26-11, 29-11slow, 26-11, 29-11
-lightweight concrete, 48-9quick, 36-2raft on, 36-10stability, cut, 39-4trap, G vs. clay, 36-1
Sandblasted surface, 65-3Sandstone, 35-31Sanitary wastewater, 28-1Saturated
density, 35-7hydrocarbon, 23-3, 24-1solution, 22-8steam, properties, A-34
surface-dry condition, 49-3
Saturationcoefficient, 67-5
oxygen, 30-9degree of, 35-7, 73-12flow
rate, 73-12, 73-13ratio, 73-12
pressure, 14-9values of dissolved oxygen in water, A-50
SAW process, 66-1Saybolt
seconds universal (SSU), 14-6 (ftn), 18-2(ftn)
viscometer, 14-6 (ftn)SBC, 81-1SBCCI, 58-4Scaffold, 82-3Scalar, 5-1
matrix, 4-1product, triple, 5-4
Scale, 77-17API, 14-4Baumé, 14-5characteristic length, 19-18map, 77-19model, 17-42Ringelman, 24-13spring, 45-19
Scaling, pavement, 75-5SCFM, 30-9Schedule (pipe), 16-10Schedule-40 pipe, 16-11
Schedulingfast track, 85-9method, 85-9project, 85-7
Schematic design, project scheduling, 85-8Schist, 35-31Schizothrix calciola, 27-2Schmidt number, 1-9
Schmutzdecke, 26-11 (ftn)School crossing warrant, signalization, 73-15Schulze correlation, 29-11Scleroscopic test, 43-14Scour, G
protection, 19-13velocity, 29-6
Scratch hardness, 43-13Screed, 75-7 (see also type)Screen
gravel, 21-5wastewater, 29-6well, 21-4
Screening, 26-3Screwed fitting, 17-12 (ftn)Scrim, 31-4Scrubber, 34-2Scrubbing, 34-14
chemical, 34-14dry, 34-14wet, 34-14
SCS (see NRCS)Scum, 29-7
grinding, 29-7S-curve method, 20-13SDG sewer, 28-4
Seal, 34-12coat, Gmechanical, 34-13
Sealing, surface, 76-10Seawater, density, back endpaper
Secantformula, 45-3modulus, 43-4, 48-5
bulk, 14-13Second
derivative, 8-1moment of
a function, 9-6the area, 42-3
-order analysis, 47-2, 47-16effect, 62-1, 62-2linear, 10-3
stage demand, GSecondary
clarifier, 29-11combustion chamber, 31-11, 34-10compression index, 40-6consolidation, 40-3, 40-5
coefficient of, 40-6creep, 43-16treatment, 29-3
Section, 77-18compact, 59-2conic, 7-8, 7-9
cross, 79-2dangerous, 44-11drawing, 2-3factor, 19-3modulus, 42-7, 44-11
effective, 64-3plastic, 59-11
structural, GSections
method of, 41-15taking at pluses, 79-2
Sedimentary rock, 35-31Sedimentation, 20-23, 26-4
basincharacteristics, 29-7
plain, 29-7plain, 26-4tank, 26-5
Seebeck effect, 84-6Seed, GSeeded BOD, 28-9Seep, GSeepage
flow net, 21-8velocity, 21-4
Segment (see Curve)Segregation, concrete, 49-5Seiche, GSeismic
load, 50-3Selective
catalytic reduction, 32-10, 34-14leaching, 22-16noncatalytic reduction, 34-15
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-49
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
Self-cleansing velocity, 19-2, 20-3 (ftn), 28-4
pipe, 20-3 (ftn)compactible concrete, 48-9consolidating concrete, 48-9placing concrete, 48-9purification, 28-9
constant, 28-10Semi-
dry scrubbing, 34-14gravity wall, 37-1major distance, 7-11minor distance, 7-11precise level, 77-9rigid framing connection, 65-6variable cost, 86-31
Sense, 5-1Sensitivity, 11-13, 84-2, G
analysis, 86-43clay, 35-28, 35-28
fatigue notch, 43-10Sensor, 84-3Separable, first-order, 10-3Separate system, GSeparation
factor, 34-6hydrograph, 20-7of terms, 9-3
Septage, 29-2characteristics, 29-3
Septic, Gtank, 29-2tank, characteristics, 29-2
Sequence, 3-10arithmetic, 3-11convergent, 3-10divergent, 3-10geometric, 3-11harmonic, 3-11p-, 3-11standard, 3-11
Sequencingbatch reactor, 30-3construction, 85-8
Sequestering agent, 26-16Serial reliability, 11-8Series, 3-11
arithmetic, 3-11circuit, electrical, 83-3expansion, 8-8finite, 3-11Fourier, 9-6galvanic, 22-16, 22-16
geometric, 3-11harmonic, 3-11hydrocarbon, 24-2infinite, 3-11Maclaurin, 8-7 (ftn)of alternating sign, 3-12p-, 3-11pipe, 17-19pumps in, 18-18spring, 45-19Taylor’s, 8-7
Server, queue, 73-21
Servicefactor, 72-7 (ftn), 83-11flow rate, 73-5, 73-8, 73-10level of, 73-3, 73-4, 73-7, 73-9, 73-16
life, 86-20load, 50-3pressure, 26-20
Serviceability, 59-5beam, 50-15, 50-17index
initial, 75-15terminal, 75-12, 75-15
limit state, 58-5Set, 11-1
accelerator, 48-3laws, 11-1null, 11-1permanent, 43-2, 48-7point, 26-15retarder, 48-3universal, 11-1
Settleable solids, 25-9, 34-19Settlement, 36-1, 40-3 (see also
Consolidation)differential, 36-1elastic, 40-3immediate, 40-3pile, 38-5
Settlingbasin, Grate, 29-7velocity, 26-4, 26-5
Severability, 87-3Severity
category, 74-7ratio, 74-7
Sewagepump, 18-4strength, 28-6
Seweralternative, 28-4branch, Gcapacity, 28-4
collector, 28-2combined, 28-2G-P, 28-4gravity, 28-4interceptor, 28-3main, 28-2minimum velocity, 19-2overflow, combined, 29-12pipe
dimensions and weights, A-22
material, 28-3size, 28-4slope, 28-4
small-diameter gravity, 28-4surcharged, Gtrunk, 28-2velocity, 28-4, 28-5
Sexagesimal system, 77-7Shaft
capacity, 38-3design, 45-13loading, pump, 18-11
pier, Gtwist, 43-8, 45-13
Shale, 35-31Shallow foundation, 36-1Shape
designations, 58-3, 60-1, 61-2
factor, 35-23, 36-3most economical, 58-5of a fluid, 14-1
Sharp-crested weir, 19-10Shear, 44-7
center, 45-15, 59-14, 59-15thin-wall section, 45-16
coefficient, ACI, 47-19, 47-19
connection, 65-4, 65-5connector, 57-2, 64-1diagram, 44-8direct, 66-5double-action, 55-3envelope, 50-23
maximum, 47-20failure, soil, 36-3flow, 45-15force of action, 45-16formation, rate of, 14-6horizontal, 44-10modulus, 43-7, 43-8, 44-2, 45-13, 58-2one-way, 44-7 (ftn), 55-2panel, 46-11punching, 55-3rate, 14-6, 17-13reinforcement, 50-23
anchorage, 50-19resistance, 14-1resultant, 45-16single-action, 55-2single-double, 45-10span, 50-30strain, 43-7strength, 43-8
block, 60-3concrete, 48-6nominal, 50-24plate girder, 63-2steel beam, 59-4
stress, 44-2beam, 44-9concrete beam, 50-22fluid, 14-6, 17-13
test, direct, 35-24torsional, 66-5two-way, 55-3ultimate, 59-13wall, 54-2wide-beam, 55-2
Sheathing, 29-1Sheave, 41-11
wire rope, 45-20Sheepsfoot roller, 35-17Sheet
flow, 20-3Manning roughness coefficients, 20-3
pile, 39-4
Ind
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
piling, 39-1, 39-4allowable stress, 39-4
section modulus, 39-3trench, 39-4
Sheeted pit, G Sheeting, 39-1
close, 39-1horizontal, cofferdam, 39-8
Sheetpile (cofferdam), 39-6interlock stress, limit, 39-6
Shell, torsion, 45-14Sherwood number, 1-9
Shielded metal arc weld, 66-1Shield, trench, 82-1Shifting taper, 73-26Shigella, 27-2Shock
load, septage 29-2treatment, 28-5
Shooting flow, G Shored construction, 57-3, 64-1Shore hardness, 43-14Shoring, 64-1, 82-1
box, 39-1close sheeting, 39-1skeleton, 39-1with, 64-1without, 64-1
Shortcircuit, electrical, 83-2column, 52-1
Shortt equation, 78-15Shotcrete, 40-11Shoulder taper, 73-26Shoving, pavement, 75-5Shredder, 29-7Shrinkage, 79-8
compensating concrete, 48-2index, 35-21limit, 35-21pretension loss, 56-3(soil), 79-1
Shrink fit, 45-5Shutoff point, pump, 18-16Shutoff service valve, 16-12SI
base units, 1-5
conversion factors A-3–A-6
derived units, 1-6
prefix, 1-7prefixes, back endpaper
system, 1-5system rules, 1-6units, equivalent and derived, back
endpaper
Sick building, 32-4Side
friction factor, 38-3, 72-19, 78-7resistance, 38-3slopes, erodible channels, 19-25
water depth, 29-7Sidesway, 47-15Sideways friction, 72-19, 78-6Siemens, 83-2
Sievesizes, 35-2, 35-2test, 35-2
Sight distance, 78-15, G decision, 78-10, Gheadlight, 78-15non-striping, Gpassing, 78-9, Gstopping, 78-9, 78-10, G
Sign(s)alternating, series of, 3-12of the function, 6-3
Signalanalyzer, 9-7coordination warrant, signalization, 73-15four-phase, 73-12three-phase, 73-12two-phase, 73-12versus stop sign, 73-14warrant, 73-14
Signalized intersection, 73-12Signature analysis, 9-7 (ftn)Significant digit, 3-1Silica
fume, 48-3reaction with alkali, 73-14
Silvaculture, 30-18Similarity, 17-42
law, pump, 18-19partial, 17-45
Similar triangle, 6-2Simple
framing connection, 65-6interest, 86-11, 86-39support, 41-7
Simplex pump, 18-2Simpson’s rule, 7-2, 77-17Simulation
Monte Carlo, 20-21reservoir, 20-21stochastic, 20-21
Simultaneousequations
matrix, 4-6solving, 3-7
linear equations, 3-7Sine function, integral, 9-8Sines, law of, 6-5, 6-6Single
-acting hammer, 38-2pump, 18-2
-action shear, 55-2angle, 61-1butt, 45-10 (ftn)draining, 40-5payment
cash flow, 86-3present worth factor, 86-5
point urban interchange (SPUI), 73-21seal, 34-12shear, 45-10stage pump, 18-4suction pump, 18-4-wall cofferdam, 39-6
Singularmatrix, 4-1, 4-5point, 8-1, 8-3 (ftn)
Singularity, 4-5Sink, energy, 17-15Sinking fund, 86-7
factor, 86-7method, 86-22plus interest, 86-22
Sinuosity, GSiphon, 17-19
inverted, GSite
development cost, 85-4visit, 85-3
Siting,landfill, 31-5wastewater treatment plant, 29-3
Six nines rule, 34-10Size
distribution, particle, 35-2motor, 18-10sieve, 35-2weld, 66-3
Skeleton shoring, 39-1Skempton
bearing capacity factors, 39-3
values, 39-3Skewness, 11-11Skew symmetric matrix, 4-2Skidding
distance, 74-5friction coefficient, 74-4
Skid resistance, pavement, 75-3Skimming tank, 29-7Skin
friction, 17-5 (ftn), 17-39capacity, 38-3coefficient, 17-42, 38-3negative, 38-6
resistance, 38-3SK rating, 29-8Slab
concrete, 51-1effective width, 64-2
deflection, 51-2, 51-7distribution of moments, 51-7, 51-8
flat, 51-5length, pavement, 76-8minimum thickness, 51-2one-way, 51-1thickness, minimum, 51-2, 51-9
two-way, 51-5waffle, 51-5width, effective, composite member, 57-2
Slack time, 85-10Slag, 24-3Slaked lime, 26-13Slate, 35-31Slender column, 45-2Slenderness
ratio, 45-2, 52-1, 61-2ratio, steel tension member, 60-4
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
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I-50
Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-51
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
Slickenside, G Slider
-crank, 71-13rod, 71-13
Slidingfactor of safety, 15-12 plate viscometer test, 14-6vector, 5-1 (ftn)
Slip, 18-10ammonia, 34-15 (ftn)base, pole, 74-8coefficient, 65-3-critical connection, 65-2electrical, 83-12-form, 49-6-form construction, 76-1forming, 49-7pump, 18-3resistance, 65-3
Sliplining, 40-11Slipping, 72-9
cracking, pavement, 75-5Slope, 8-1, 19-14, G
circle failure, 40-7critical, 19-3, Gcross, adverse, 78-8deflection method, 47-2energy gradient, 19-3excavation, 82-1form, 7-5geometric, 19-3normal, 19-3-ramp method, landfill, 31-2rounding, 80-3sewer, 28-4
stability chart, 40-8
clay, 40-7Taylor chart, 40-7
stake, 80-1Slope stake, 80-1, 80-3
making determinants, 80-4grade rod, 80-4ground rod, 80-4leveler, 80-4rod person, 80-4rod reading, 80-4
Slotted hole, 65-3Slot weld, 66-2Slow
-closing valve, 17-36sand filter, 26-11, 29-11test, 35-27
Sludge, 26-10, 30-2, 32-2 (ftn), G activated, 30-2, Gage, 30-6age, BOD, 30-6beneficial reuse program, 30-18bulking, 30-6, 30-12, G cake, 30-16characteristics, 30-13
composting, 30-19critical velocity, 18-6dewatering, 30-16disposal, 30-18
incineration, 30-19, 34-12landfill, 30-18methane production, 30-15monofill, 30-18ocean dumping, 30-19parameters, 30-5pump, 18-5
power factors, 18-5
quantity, wastewater, 30-12water treatment, 26-10
recycle rate, 30-10return rate, 30-10rising, 30-12stabilization, 30-14thickening, 30-13volume index, 30-6, 30-10, 30-12washout, 30-12waste activated, 30-2water treatment, 26-6
Slug, 1-3Slump, 48-3, 76-2
concrete, 49-1, 49-1, 76-2
grout, 67-6test, 48-3
Slurryfriction loss, 17-11trench, 40-10wall, 40-10
Smallangle approximation, 6-3-diameter
gravity sewer, 28-4pile, 38-6
SMAW process, 66-1Smog, 32-13Smoke, spot number, 24-13, 32-13Smoothing coefficient, 86-41Smooth-wheeled roller, 35-17Snyder hydrograph, 20-10Soda ash, 26-13SOC, 28-14Soffit, 19-26 (ftn)Soft
material, 43-16water, 26-13, 26-14
Softeningion exchange, 26-14lime, 26-13 (ftn)membrane, 26-18point, Vicat, 43-11precipitation, 26-13, 26-14
Soil, 35-2bentonite, 40-10boring symbols, A-67
cement, 48-9classification, 35-4
AASHTO, 35-4, 35-5Unified, 35-5, 35-6
USCS, 35-5, 35-6
cohesionless, 37-2cohesive, 37-2Conservation Service (see NRCS)failure, 35-25gap-graded, 35-3granular, 37-2group, hydrologic, 20-16
incineration, 34-12indexing, 35-9, 35-10
mass-volume relationship, 35-7moisture content, 21-2nailing, 40-11noncohesive, 37-2nonplastic, 35-21normally consolidated, 40-4, Goverconsolidated, 40-4parameter formulas, 35-9, 35-10
particles, classification, 35-2, 35-2
permeability, 21-2, 35-22
pressureat-rest, 37-5backward, 37-2compressed, 37-2forward, 37-2tensioned, 37-2vertical, 37-3
resilient modulus, 75-15resistance value, 75-15strength, 35-25
testsASTM, 35-16
standard, 35-15types, 79-2
washing, 34-15well-graded, 35-3
Sol, GSoldier, 39-1
beam, cofferdam, 39-6, 39-8pile, 39-1, G
Sole proprietorship, 87-1Solid
angle, 6-6bowl centrifuge, 30-17contact unit, 26-10density, 35-7volatile, Gvolume method, 49-2waste, 32-2
municipal, 31-1Solidity, 79-7Solids, 28-6
dissolved, 28-6fixed, 30-5in water, 25-8 (see also type)nonvolatile, 30-5refractory, 28-6residence time, 30-6suspended, 28-6, 29-3total, 28-6volatile, 28-6, 30-5washout, 30-12
Solubility, 31-8, 34-17product, 22-13retrograde, G
Soluble BOD, 30-6Solute, 14-9, 22-7Solution, 14-9, 22-7, G
buffer, 22-9complementary, 10-4 indicator, 25-2, 25-2
neutral, 22-9, 25-1particular, 10-4
Ind
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regeneration, 26-15saturated, 22-8trivial, 3-7 (ftn)
Solutions, properties of, 14-15Solvency, 86-34Solvent, 14-9, 22-7
recovery, 34-3Sonic
boom, 14-14velocity, 14-14
Sorbent injection, 34-15Sorption, GSound
limit, 82-2speed of, 14-14
Sourceenergy, 17-15nonpoint, Gpoint, G
Spacemean speed, 73-4, Gmechanics, 72-18pedestrian, 73-17-time diagram, 73-16
Spacing, Gbracing, 59-3gage, 60-2hole, 65-1molecule, 14-2pitch, 60-2stirrup, 50-18, 50-30vehicular, 73-6
Spalling, 75-5Span, 17-37
shear, 50-30-to-width ratio, floor diaphragm, 68-10
maximum, without calculations, 50-18Spandrel, 59-2Sparging, 34-15Special
damages, 87-6triangle, 6-2
Specificactivity, G area, filter, 29-9capacity, 21-3collection area, 34-7discharge, 21-4energy, 13-1, 16-1, 16-9, 19-14
diagram, 19-15feed characteristic, 31-11, 34-9force, 19-15gravity, 14-4, 35-7
apparent, 75-8, Gbulk, 75-8, 75-9, Geffective, 75-8, Gmaximum 75-8
heat, 13-4gas, 24-2
molar, 13-4ratio of, 15-13
heats, 13-4
performance, 87-3, 87-5permeability, 21-2retention, 21-3roughness, 17-4, 17-4, A-25
speed, 18-12, 18-12
suction, 18-16turbine, 18-23
storage, Gsubstrate utilization, 30-7utilization, 30-7volume, 14-4, 14-5weight
concrete, 48-4equivalent, 37-6
yield, 21-3, G Specifications, 58-4
DOT geotextile, 40-10
pipe, 16-11Specimen, 43-1 Spectrum analyzer, 9-7Speed, 71-3 (see also type)
control, motor, 83-15degradation on grade, 74-7design, 73-3, 73-4
free-flow, 73-4, 73-6, 73-8, 73-10legal, 73-3limit, 73-4of
efflux, 17-16reaction, 22-10sound, 14-14
parameter, traffic, 73-3pedestrian, 73-17regulation, 83-10rule, 78-8runaway, 17-34space mean, Gspecific, 18-12, 18-12
specific, turbine, 18-23synchronous, 18-10, 18-10, 83-12tip, 18-4
SPF, 20-6Sphere, 7-12
unit, 6-6Spherical
coordinate system, 7-3, 7-4
defect, 6-6drop, 10-10excess, 6-6tank, 45-5triangle, 6-5trigonometry, 6-5
Sphericity, 17-40, 17-41
Spheroid, 77-6Spill, hazardous, 32-13Spillway, 19-13
coefficient, 19-13ogee, 19-13
Spiralangle, 79-18column, 52-2curve, 79-17curve, length, 78-18deflection angle, 79-18entrance, 79-17exit, 79-17tangent offset, 79-18wire, column, 52-2
wire, splice, 52-2
Spitzglass formula, 17-9Splice, spiral wire, 52-2Split
beam tee construction, 65-8chlorination, G cylinder, 48-5mastic, 75-23process, 26-13spoon sampler, 35-17
Splitting tensile strength, 48-5Spoils, 39-2Spot speed, 73-4Spray tower, 34-2, 34-16Spread
footing, 36-2length of, 75-7-tandem axle, 75-13
Spreading cracking, pavement, 75-5Spring, 45-19, G
anticlinal, Gartesian, Gconstant, 44-2, 45-19constant, combinations, 45-19dimple, Genergy, 13-3ideal, 45-19index, 45-19 (ftn)in parallel, 45-19in series, 45-19linear, 13-2, 13-3 (ftn)perched, Grate, 45-19scale, 45-19stiffness, 45-19work, 13-2
SPT value, 35-17Square matrix, 4-2Squirrel case rotor, 83-12SSD condition, 49-3SSF, 14-6 (ftn)SSU, 14-6 (ftn), 18-2 (ftn)Stability, 11-13, 15-16, 26-16, 72-2, 84-2
asphalt mix, 75-11coefficient, 53-2constant, 22-12correction factor, 75-9
number, 39-2, 40-7pavement, 75-3relative, 28-12, 28-12
sand, cut, 39-4slope, clay, 40-7slope, Taylor chart, 40-7, 40-8
Stabilization, 32-13contact, 30-3lagoon, 29-4pond, 29-4pond, characteristics, 29-5
sludge, 30-14tank, 30-3time, 28-12treatment, 26-16
Stabilometer test, 35-30Stable equilibrium, 72-2Stack gas (see Flue gas)Stadia
method, 77-8, G
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-53
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
reading, 77-8survey, 77-5
Staff gauge, 19-10Stage, G
pump, 18-4Staged
-air burner, 34-16combustion, 34-16
Stagnationenergy, 16-4point, 16-4tube, 16-4
Stainless steel types, 22-16 (ftn)Stake, 77-8, 80-1 (see also type)
marking, 80-1, 80-4
abbreviations of, 80-1, 80-2, 80-2
cluser, 80-1header, 80-1
Staking, 80-1Stall
angle, 17-37width, 73-18
Standardatmosphere, A-33
atmospheric pressure, 14-3
Building Code, 81-1cash flow factors, A-136
condition, 14-4 (ftn), 14-4, 24-2contract, 87-4cost, 86-36cubic feet per minute, 30-9design vehicle, 73-3, 75-13deviation, 11-10dissolved oxygen, 28-10enthalpies of formation, 22-15
error of the mean, 11-11flood, 20-6gravity, 1-2hole, 60-2hook, 50-19
masonry, 67-6motor, 83-11
normal curve, A-12value, 11-6, 11-12
of care, 87-5 (ftn), 87-6orthographic view, 2-2penetration
resistance, 35-17test, 35-17, 36-7
polynomial form, 3-3project flood, 20-6-rate filter, 29-8rod, 77-9sequence, 3-11 state, chemical, 22-14temperature and pressure, 14-4, 14-4,
24-2truck, 75-14truck loading, 75-14
wastewater, 28-14Standards
drinking water, 25-5, A-57
fire resistance, 81-5industrial wastewater, 29-1national drinking water, 25-5
pipe, 16-11testing, 81-3-writing organization, 81-3
Standing wave, 19-17, GStanton number, 1-9
Stateoxidation, 22-3plane coordinate system, 77-5, 77-7standard, chemical, 22-14
Staticanalysis, 47-2balance, 70-2discharge head, 18-6energy, 13-3, 16-2equilibrium, 15-16, 41-6 (ftn)friction, 72-6
angle of, 72-6coefficient of, 74-4
GPS survey, 77-6head, 18-6indeterminacy, degree of, 47-7pile composting, 30-19pressure
probe, 17-26tube, 15-2
response, 44-7roller, 75-8suction head, 18-6
Statical moment, 42-2, 44-10Statically
determinate, 41-7indeterminate, 41-7, 46-1
Statics, 41-1Station
angle, 77-13back, 78-3curve, around, 78-3forward, 78-3offset method, 78-5survey distance, 77-8
Stationary mixer, 49-5Stationing, 77-8
ahead, 78-3back, 78-3curve, 78-3
Statisticalerror, terms, 84-3
process control, 11-12Stator, pump, 18-3Statute, 88-1
of Frauds, 87-2 (ftn)Steady flow, 19-2, 19-14, G
well, 21-5Steam
friction loss, 17-9properties, A-34
pump, 18-2saturated, properties, A-34
stripping, 34-17Steel
area, per foot of width, 51-3, 68-9
balanced, 50-6, 50-12bar, masonry, 67-7beam, 59-1
analysis flowchart, 59-6
deflection, 59-5
design flowchart, 59-8
minimum cost, 50-6, 55-4blue-center, 45-20carbon, 58-1column, 61-1compression member, 61-1cover, 50-8dual-certified, 58-5fiber-reinforced concrete, 76-10footings, minimum, 55-4formula, 20-5grade, 48-7high
-performance, 58-1, 58-5-strength, 58-5-strength low-alloy, 58-1
maximum, 50-6member, composite, 64-1minimum, 50-6modulus of elasticity, 48-7monitor, 45-20pipe, 16-10
black, 16-10corrugated, 19-30dimensions, 16-11, A-16–A-19
galvanized, 16-10plain, 16-10water flow, 17-8, A-30
plow, 45-20 (ftn)properties, 48-7, 58-2, 58-2, A-42
quenched and tempered, 58-1rainfall
coefficients, 20-5
region, 20-5
ratioreinforcement, 50-12prestressing, 56-6
rebar, area, 50-13, 51-3
region, 20-5reinforcing, 48-6, 50-2
bars, A-91
pavement, 76-5, 76-8wire, A-92
shape designations, 58-3
structural, 58-1properties, A-71
types, A-111
temperature, 51-2tension member, 60-1design flowchart, 60-6
water pipe, 26-20weathering, 58-5
Stem, retaining wall, 54-3Stenothermophile, 27-1Step
-flow aeration, 30-3function, 10-6
Stepped cash flow, 86-10STEP system, 28-4Steradian, 6-6Sterilization, well, 21-4S-test, 35-27Stiffened element, 61-6Stiffener, 59-5
beam, 44-18
Ind
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
bearing, 59-5, 63-4flange, 59-5intermediate, 63-3
Stiff mixture, 48-4Stiffness, 44-2, 44-3, 47-13
flexural, 47-13, 53-3method, 47-2, 47-10spring, 45-19
Stilling basin, G Stirrup, 50-2, 50-24
anchorage, 50-19spacing, 50-18, 50-30
Stochasticcritical path model, 85-13simulation, 20-21
Stoichiometriccombustion, 24-9reaction, 22-6, 22-7
Stoichiometry, GStokes’, 14-8
law, 17-39, 26-4number, 1-9
Stone-filled asphalt, 75-23mastic asphalt, 75-23matrix asphalt, 75-2, 75-23
Stoppingdistance, 74-5sight distance, 78-9, 78-10, 78-10, G
Stop sign versus signal, 73-14Storage
coefficient, 21-3constant, 21-3depression, Gindication method, 20-21pumped, 26-19specific, Gtank, 33-1tank, underground, 3-13water, 26-19
Stormcharacteristics, 20-2design, 20-4
Stormwater modeling, 20-22Story
century, 20-5drift, 53-2
Strouhal number, 1-9
STP (see Standard temperature andpressure)
Straddle, 12-1Straight
angle, 6-1line
error, 45-19 (ftn)method, 86-21, 86-26forms, 7-5plus interest, 86-22
Strain, 44-2axial, 43-4circumferential, 45-5creep, 43-15diametral, 45-5elastic, 43-2energy, 43-6, 44-2, 44-11, 44-15, 44-17engineering, 43-2
gage, 15-2, 84-8, 84-9, 84-13
hardening, 43-4exponent, 43-5region, 48-7
inelastic, 43-2lateral, 43-4physical, 43-5plastic, 43-2radial, 45-5rate of, 14-6sensitivity factor, 84-8shear, 43-7thermal, 44-4true, 43-5volumetric, 14-13
Strand, 56-4 (see also Tendon)structural, 45-20
Stratosphere, 15-12, 15-13 (ftn)Stratum, G Streaking, pavement, 75-5Stream
braided, Geffluent, Gephemeral, Gfunction, 17-3gaging, 19-2, G influence, Gmeandering, Gorder, Gpotential, 17-3power, unit, G
Streamline, 16-8, 21-7flow, 16-7
Streamtube, 16-8Street, 73-3
inlet, 28-5urban, 73-3
Streeter-Phelps equation, 28-10Strength
acceptance testing, 49-1allowable
bearing, 65-3tensile, 60-3
available compressive, 62-2beam, nominal shear, 50-24block shear, 60-3breaking, 43-3coefficient, 43-5, 75-18compressive, 43-7cracking, 40-9creep, 43-15crushing, 40-9design, 44-2 (ftn), 50-4
method, 50-3wall, 54-2
D-load, 40-9endurance, 43-9factor, 52-3fatigue, 43-9flexural, 59-4laboratory, 40-9law, Abram’s, 48-4limit state, 58-5proof, 45-8, 45-12reduction factor, 50-4, 52-3
rupture, 43-15shear, 43-8
steel beam, 59-4soil, 35-25
steel beam, 59-2plate girder, 63-2
tensile, 43-3, 58-2ultimate, 43-3
pipe, 40-9vs. factors, 43-16yield, 43-2, 43-3, 58-2
Stress, 44-2allowable
bending, 59-3, 59-4sheet piling, 39-4
axial, 35-25bearing, base plate, 61-9bending, 44-10block, 50-7buckling, 61-2circumferential, 45-3, 45-4combined, 44-5concentration, 44-4
factor, fatigue, 43-9, 43-10press-fit, 45-7, 45-8
confining, 35-25contour chart, Boussinesq, A-71, A-72
corrosion, 22-17cylinder, thick-walled, 45-5
design, allowable, 58-4deviator, 35-26effective, 35-14, 35-27, 37-6, 40-5engineering, 43-2extreme, 44-5flexural, 44-10longitudinal, 45-4mean, 43-9neutral, 35-14normal, 44-2overburden, 35-14physical, 43-5principal, 44-5proof, 43-3 (ftn)radial, 35-25ratio, cyclic, 40-11relaxation, 43-11, 56-4riser, 44-4-rupture test, 43-15shear, 44-2
concrete beam, 50-22fluid, 14-6plate girder, 63-2steel beam, 59-4
-strain curve, 43-1, 43-3tangential, 45-3tensile, axial, 60-1tension, diagonal, 50-22total, 35-14true, 43-5yield, 43-2, 58-2
Strickler equation, 19-4 (ftn)Strict liability in tort, 87-5Stringer, 39-2, 49-6, 59-1, G Strip
column, slab, 51-7
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-55
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
middle, slab, 51-7surcharge, 37-5
Stripping, 34-2 (ftn)air, 29-12, 34-16ammonia, 28-13, 29-12factor, 34-17pavement, 75-5steam, 34-17
Strongaxis, 59-3axis bending, 59-4material, 43-16
Strongback, 39-2, 49-6Structural
aluminum, properties, A-71
bolt, 65-3cell, 41-12magnesium, properties, A-71
number, 75-12pavement, 75-18
plate corrugated steel pipe, 19-31rope, 45-20section, Gshape
compression, 61-2
designations, 58-3
tension, 60-1
steel, 58-1corrugated pipe, 19-30properties, A-71
properties, high temperature, A-112
types, A-111
strand, 45-20tee, 61-1
Structureatomic, 22-1composite, 44-19
St. Venant torsional constant, 59-3 (ftn)Stud
connector, 64-1excavation brace, 39-2, 49-6
Subautogenousfuel, 31-11waste, 34-8 (ftn)
Subbase, G mass diagram, 79-8
Subcontract, 87-4Subcritical flow, 19-15, G Subgrade, G
drain, 75-24modulus, 35-30, 35-30, 76-5
reaction, modulus of, 35-30, 35-30, 75-15,76-4
Submain, GSubmatrix, 4-1Submerged
arc weld, 66-1density, 35-7, 36-7fraction, 15-15mode, 19-14pipelines, 15-16scraper conveyor, 32-5weir, 19-11
Subset, 11-1proper, 11-1
Subsidence loss, 79-8
Subsonic, 14-14flow regime, 14-14 (ftn)
Substitutes, asbestos, 32-5Substrate, 28-6, G
utilizationrate of, 30-7specific, 30-7
Subsurfacerunoff, Gwater, 21-1
SubtitleC landfill, 31-3D landfill, 31-3
Suburbanarea, 73-3survey, 77-4
Success, 11-3Suction, 18-4
head, net positive, 18-14head, total, 18-6specific speed, 18-16
Sugar, 23-3
Sulfatesulfur, 24-3-resistant portland cement, 48-2
Sulfide attack, 28-5Sulfur, 24-3
-asphalt concrete, 75-24concrete, 75-24dioxide, 32-14in stack gas, 32-4low-, coal, 24-4oxides, 32-14trioxide, 24-3, 32-4, 32-14
Sulfurous acid, 32-14Sulphex, 75-24Sum-of-the-years’ digits method, 86-21,
86-26Sunk cost, 86-3Superchlorination, 26-13, GSupercritical flow, 19-15, G Superelevation, 72-19, 78-6, G
railroad, 79-9rate, 78-6runoff, 78-8
rate, 78-8transition, 78-7
distance, 78-8rate, 78-8
Super high-rate filter, 29-8Supernatant, 30-14, 30-15, G Superpave, 75-2, 75-23
binder grades, 75-3
Superplasticizer, 48-3Superposition, 44-16
loads, 41-16method, 46-4theorem, 10-6
Supersaturated solution, 22-8 (ftn)Supersonic, 14-14Supplementary
angle, 6-2unit, 1-5
Supplier, dealing with, 88-2 Support
lateral, 59-3
membrane, 40-10type, 41-7
Supported membrane, 31-4Suppressed weir, 19-10Surcharge, 15-12, G
line, 37-5point, 37-5soil, 37-5strip, 37-5uniform, 37-5
Surcharged sewer, GSurface
-acting agent, 32-7 (ftn)area
factor, 75-7method, 75-7
class, 65-3detention, Gfinish, 2-4, 2-9, 43-9
factor, 43-10steel, 65-3
flow, 20-7, 20-7 (ftn)free, 16-6frictionless, 41-7loading, 26-5, 29-7, 29-9
rate, 29-7of revolution, 42-3, 9-5recycling, 75-22retention, G runoff, 20-6, 20-7 (ftn), 32-12, G sealing, 76-10temperature, 10-10tension, 14-10, 14-11wave, 19-17
Surfactant, 32-7Surficial, GSurge
chamber, 17-36, 18-21tank, 17-36wave, 19-17
Survey, 77-5, (see also type)class of, 77-4
Surveying, 77-1Surveyor’s
chain, 77-7transit, 77-11
Susceptance, 83-5Susceptibility, frost, GSuspended
metal, in wastewater, 28-14solids, 28-6, 29-3
age, 30-6mixed liquor, 30-5mixed liquor volatile, 30-5
Suspension, 22-7Sutro weir, 19-13SVI, 30-10, 30-12Swale, G Sweet mixture, concrete, 48-2Swell, 35-14, 79-8
(soil), 79-1Swelling, 35-24
index, 35-24, 40-4Swing valve, 16-12Symbols, 3-1
geotextile, A-67
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
piping, A-24
soil boring, A-67
USCS, A-67
weld, 66-2
well, A-67
Symmetricalfunction, 7-4matrix, 4-2waveform, 9-7
Symmetrycurve, types, 7-4even, 9-7
full-wave 9-7,half-wave 9-7,odd, 9-7
quarter-wave, 9-7
Synchronouscapacitor, 83-13motor, 83-13speed, 18-10, 18-10, 83-12
Syndet, 25-7Syngas, 24-8
from tires, 32-14Synthesis, 22-5
hydrograph, 20-10, 20-13organic compound, 23-3
Syntheticasphalt, 75-24detergent, 25-9gas, 24-5, 24-8 latex, 75-6membrane, 31-4
liner, 31-4organic chemical, 28-14polymer, 26-6textured, 31-5unit hydrograph, 20-10, 20-11
Espey, 20-12zeolite, 26-15
Systembudgeting, 85-5 combined, Gconsistent, 3-7force-couple, 41-4inconsistent, 3-7linear force, 41-4numbering, 3-1of forces, 41-6of units, 1-2performance curve, 18-16separate, GSI, 1-5time, 73-23voltage, 83-5 (ftn)
Systematic error, 84-2
T
T250 temperature, 24-3Table
divided difference, 12-3factor, A-137
groundwater, 37-6, 40-5of integrals, 9-1 (ftn)periodic, 22-2, A-47
water, GTachyometric distance measurement, 77-8
Tachyometry, 77-8Tack coat, G Tail
curve, 11-6race, 18-21, G
Tailwater, 18-21, G Takeoff, 85-3
viewer, 85-3Taking sections at pluses, 79-2Tandem
parking, 73-18seal, 34-12
Tangency, point of, 78-3Tangent, 7-2
approach, 78-1back, 78-1curve, 78-1departure, 78-1distance, 78-2, 78-4forward, 78-1modulus, 48-5
bulk, 14-13offset, 78-4, 78-5
spiral, 79-18plane, 8-5resistance, 74-4runoff, 78-8runout, 78-8
Tangentialacceleration, 71-7stress, 45-3turbine, 18-22 (ftn)velocity, 18-22, 71-7
Tangents, law of, 6-5Tangible property, 86-20 (ftn)Tank
above-ground, 33-1aeration, 30-8contact, 30-3detritus, 29-6discharge, 17-16, 17-17pressurized, 17-17reactor, 34-6sedimentation, 26-5septic, 29-2skimming, 29-7spherical, 45-5stabilization, 30-3thick-walled, 45-4 (see also Cylinder,
thick-walled)thin-walled, 45-3 (see also Pressure
vessel)time to empty, 17-18underground, 32-13upflow, 26-10
Tape, survey, 77-7Taper
channelization, 73-26downstream, 73-26merging, 73-26parabolic, 78-4shifting, 73-26shoulder, 73-26two-way traffic, 73-26
Taperedaeration, 30-3
energy, 26-9flocculation, 26-9
Tapeworm, 27-2Tap hole, 15-2Taping, 77-7Tar
coal, epoxy, 16-11pipe coating, 16-11
Target substance, 84-3Taste, in water, 26-12Tax credit, 86-25Taxonomy, G Taylor’s
formula, 8-7series, 8-7
Taylor slope stability chart, 40-7, 40-8
T-beam, 50-19T-delta rosette, 84-12Tee-beam (see T-beam)Telescope, 77-9Telescopic instrument, 77-5Temperature
autoignition, 24-8combustion, 24-15deflection, 43-11effect on output, 84-12flame, 24-15flue gas, 24-13ignition, 24-8net stack, 24-13paving, 75-7rise, 13-4steel, 51-2surface, 10-10transition, 43-15transition, ductile, 43-15
variation constant, 28-8Temporary
benchmark, 77-7hardness, Gtraffic control zones, 73-26
Tendency, central, 11-10Tender mix, 75-5Tendon, 39-4
aramid, 56-4bonded, 56-2corrosion, 56-4prestress, 56-3prestressing, ASTM, 56-5
unbonded, 56-2Tensile
capacity, pile, 38-5strength, 43-3, 58-2
allowable, 60-3splitting, 48-5
stressarea, bolt, 65-3axial, 60-1
test, 43-1Tensiometer, 21-2Tension
bolt, minimum, 65-3cable, 72-11connection, 65-5
concentric, 66-3eccentric, 66-4
C I V I L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
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I N D E X I-57
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
field action, 63-2equation, 63-3
member, 60-1
steel, 60-1steel, design flowchart, 60-6
threaded, 60-5pile, 38-5stress, diagonal, 50-22surface, 14-10, 14-11
Tensioned soil pressure, 37-2Tensor, 5-1Ten States’ Standards, 28-2, 30-5, A-65, A-66
Termgeneral, 3-10in a sequence, 3-10
Terminalpoint, 5-1serviceability index, 75-12, 75-15value, 86-16velocity, 17-40, 72-16
Termsharmonic, 9-6separation of, 9-3
Tertiarycreep, 43-16pond, 29-4treatment, 29-3
Terzaghi bearing capacity factors, 36-3, 36-4
Terzaghi-Meyerhof equation, 36-3Test (see also type)
ASTM, soil, 35-16
Atterberg limit, 35-4, 35-21BOD, 28-8CD-, 35-27comparison, 3-12concrete strength, 49-1cone penetrometer, 35-17confined compression, 35-23confirmed, Gconsolidated-drained, 35-27consolidated-undrained, 35-27consolidation, 35-23constant-head, 35-22convergence, 3-11CPT, 35-17CU, 35-27destructive, 81-4direct shear, 35-24double ring infiltration, 21-9falling-head, 35-22fatigue, 43-8field density, 35-20financial, 86-34, 86-35 fire resistivity, 81-4hardness, 43-12, 43-13
Hveem’s resistance value, 35-30hydrometer, 35-2in-place density, 35-20Los Angeles abrasion, 75-4nondestructive, 81-4oedometer, 35-23, 40-5on plastic, 43-10penetration, 35-17penetration, standard, 36-7permeability, 35-22
plate bearing value, 35-30presumptive, GProctor, 35-17, 35-18Q-, 35-27quick, 35-27R-, 35-27ratio, 3-12S-, 35-27sieve, 35-2sliding plate viscometer, 14-6slow, 35-27slump, 48-3soil, standard, 35-15splitting tensile strength, 48-6SPT, 35-17stabilometer, 35-30tensile, 43-1third-point loading flexure, 76-4torsion, 43-7triaxial, 35-25unconfined compressive strength, 35-28unconsolidated-undrained, 35-27vane shear, 35-28
Testing (see also type)dye penetrant, 81-4laboratories, 81-3magnetic particle, 81-4nondestructive, 43-11standards, 81-3ultrasonic, 81-4
Textured synthetic cap, 31-5Theis equation, 21-6Theodolite, 77-9, 77-11, GTheorem
binomial, 3-3Buckingham, pi-, 1-8buoyancy, 15-14Cauchy-Schwartz, 5-3central limit, 11-11De Moivre’s, 3-8Kutta-Joukowsky, 17-38linearity, 10-6of calculus, fundamental, 9-4of Fourier, 9-6of Pappus, 9-5of Pappus-Guldinus, 42-3parallel axis, 42-4, 70-2perpendicular axis, 42-5Pythagorean, 6-2superposition, 10-6time-shifting, 10-6transfer axis, 42-4Varignon’s, 41-3
Theoretical yield, 22-7Theory
Coulomb earth pressure, 37-2–37-4distortion energy, 43-8log-spiral, 37-3maximum shear stress, 43-8Prandtl’s layer, 17-42Rankine earth pressure, 37-2, 37-4von Mises, 43-8
Therm, 13-1Thermal
ballast, 34-10
coefficient of expansion, 14-12 (ftn)cracking, 24-2deflection temperature, 43-11deformation, 44-3desorption, 34-18efficiency, 24-16energy, 13-4 (ftn)expansion, coefficients, 34-14, 44-4
load, 47-3NOx, 32-9resistance, coefficient of, 84-6
strain, 44-4Thermistor, 84-5Thermocline, GThermocouple, 84-6
material, 84-7thermoelectric constants, A-135
Thermoelectric constant, 84-7, A-135
Thermophile, 27-1Thermophilic bacteria, GThermopile, 84-7Thickening
batch gravity, 30-13dissolved air flotation, 30-13gravity, 30-13
belt, 30-14sludge, 30-13
Thicknessbase plate, 61-9minimum
concrete beam, 50-18
pavement, 75-17, 75-19
slab, 51-2, 51-9
Thick-walled cylinder, 45-4, 45-5
Thiem equation, 21-5Thiessen method, 20-2Thin
overlay, 76-10-walled tank, 45-3
Third-point loading, 48-5flexure test, 76-4
Thixotropic fluid, 14-7Thixotropy, G Thompson effect, 84-6 (ftn)Thread angle, helix, 45-13Threaded
fitting, 17-12 (ftn)member, tension, 60-5
Threadworm, 27-2Three
-dimensional mensuration, A-9
-force member, 41-6-moment equation, 46-5-phase
electricity, 83-9signal, 73-12
-reservoir problem, 17-21Threshold
level value, 82-2odor number, 26-13
Throateffective weld, 45-13thickness, 66-3
Throttling service valve, 16-12Tie, 39-4
back, 39-4
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bar spacing, pavement, 76-8
lateral, masonry column, 69-2rod, 39-4wall, 68-13
Tied column, 52-1Ties, form, 49-7Tile
bed, 29-2field, 29-2
Till, Gglacial, G
Time (see also type)base, 20-6bed residence, 34-5-cost trade-off, 85-2, 85-9decoloration, 28-12-dependent loss, 56-3detention, 26-5, 29-7doubling, 86-8
factor, 40-5factors, consolidation, 40-5
hydraulic detention, 30-8lag, 20-10, 20-11mean
cell residence, 30-8residence, 29-7speed, 73-4
of concentration, 20-3, Gperception-reaction, 78-8retention, 26-5, 29-7
hydraulic, 30-8rule, 78-8stabilization, 28-12-series analysis, 9-7 (ftn)-shifting theorem, 10-6-space diagram, 73-15to
double, 86-8empty tank, 17-18peak, 20-10triple, 86-8
tripling, 86-8
value of money, 86-5Timing, traffic-activated, 73-16Tip
resistance, 38-2speed, 18-4
Tipping fee, 31-2Tire
coefficient of friction, 74-4-derived fuel, 24-4discarded 32-13
Titania, 24-3 (ftn)Titration, 25-2TKN, 28-13Toe, 37-9
circle failure, 40-7dam, 15-11excavation, 39-2kick-out, 39-4retaining wall, 54-4wash-out, 39-4
Tolerance, 2-4mill plate widths, 58-3
TON, 26-13Tonnage rating, railroad, 74-3
Tonne, 1-7Top
cap, 31-5plate construction, 65-8
Topographic map, 77-19symbols, 77-20
Torque, 41-2bolt, 45-12coefficient, 45-12electrical motor, 83-10hydrostatic, 15-11meter, 84-14on a gate, 15-11pump shaft, 18-11shaft, 45-13
Torricelli’s equation, 17-16Torsion
angle, 43-8, 45-13balance, 14-10noncircular shape, 45-15
shell, 45-14solid member, 45-15test, 43-7
Torsionalaxis, 45-15buckling, 61-2
lateral, 59-2modification factor, lateral, 59-3
center, 45-16constant, 59-3
St. Venant, 59-3 (ftn)shear, 66-5
Tort, 87-5Total
active resultant, 37-3air voids, 75-9coliform, 27-4density, soil, 35-7discharge head, 18-7dissolved solids, 25-9energy, 16-2, 16-4energy line, 17-15fixed solids, 25-9float, Ghead, 16-3, 18-6, 18-7Kjeldahl nitrogen, 28-13metal (in wastewater), 28-14nitrogen, 25-8, 28-13phosphorous, 25-9pressure, 16-3, 37-6rainfall, 20-16residual
chlorine, 34-6oxidant, 29-12
solids, 25-8, 28-6station survey, 77-5stress, 35-14suction head, 18-6, 18-7suspended solids, 25-9volatile solids, 25-9
Tough material, 43-6, 43-16Toughness, 43-6, 43-14, 58-2
modulus, 43-6notch, 43-14test, 43-14
Toweroxidation, 29-8packed, 34-3. 34-16spray, 34-16tray, 34-16
Town gas, 24-7 (ftn)Township, 77-18, G
number, 77-18Toxaphene, 32-11Toxicity (in fish), 25-8Toxicity leaching characteristic, 32-2Toxin, G Trace organic, 29-3Tracking, fast, 85-9Tract, 77-18Traction effort, 74-2Tractive force, 74-2
locomotive, 74-3Trade-in allowance, 86-18Traditional organochlorine pesticide, 32-10Traffic, 73-4, 75-12 (see also type)
-activated controller, 73-16calming, 73-22control zones, temporary, 73-26design, 75-12, 75-13recorder, 73-5
Train, cold, 75-22Tranquil flow, 19-15, G Transcendental function
circular, 6-2derivative, 8-2integral of, 9-1
Transducer, 15-2, 84-3Transfer
axis theorem, 42-4efficiency, 26-4
oxygen, 30-9heat, 30-16unit, 34-17
Transformfast Fourier, 9-7Laplace, 10-5, A-11
Transformationcoefficient of, 5-2matrix, 5-3
Transformer, 83-6Transgranular, 22-17Transit, 77-9, 77-11
rule, 77-14Transition
channel, 19-15curve, 79-17distance, superelevation, 78-8element, 22-2, 22-3metal, 22-2 (ftn), 22-3rate, 78-8region, 16-8superelevation, 78-7temperature, 43-15
ductile, 43-15trench width, 40-9zone, 3-13
Translation, 72-2Transmissible vector, 5-1 (ftn)Transmission
dynamometer, 84-12
C I V I L E N G I N E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
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I N D E X I-59
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
gear ratio, 74-2rope, 45-20
Transmissivity, 21-3, G coefficient of, 21-3
Transmittance, smoke, 32-13Transonic, 14-14Transpiration, G Transport loss, 79-8Transpose, 4-4Transverse
axis, 7-11load, truss, 41-16pitot tube, Gpressure, 17-27sensitivity factor, 84-8velocity, 71-9weld, 60-3
Trapezoidalchannel, 19-6, 19-8, 19-9channel conveyance factor, A-47–A-50
pressure distribution, 39-2rule, 7-1, 77-17weir, 19-12
Trap, sand, GTrash, 24-4Trashphalt, 75-24Trash rack, 26-4, 29-6Traveled way, G Travel speed, 73-4Traverse, 77-13
area, 77-15, 77-16closure, 77-14pitot tube, G
Travers tandem parking, 73-18Tray tower, 34-16Treatment
advanced wastewater, 29-3leachate, 31-8methods, water supply, 26-3
partial, Gpenetration, Gplant, wastewater, 29-3preliminary, 29-3primary, 29-3secondary, 29-3shock, 28-5tertiary, 29-3
Tremie concrete, 40-10Trench
anchor, 31-4method, landfill, 31-2sheet, 39-4shield, 82-1slurry, 40-10width, transition, 40-9
Trenching, 39-1accuracy standards, 49-7flying forms, 49-7lateral pressure, 49-7overall cost of, 49-7safety, 82-1slip forming, 49-7types of, 49-6
Trenchless method, 40-11Trestle, 41-12
Triad, Cartesian, 5-2Triadimenol, 32-11Trial, 11-2
batch method, 49-2Triangle, 6-2
general, 6-5oblique, 6-5, A-132
Pascal’s, 3-3right, 6-2similar, 6-2special, 6-2spherical, 6-5
Triangularchannel, 19-7matrix, 4-2unit hydrograph, 20-11weir, 19-12
Triangulation, 77-5station, 77-7
Triaxial stress test, 35-25Triazine, 32-11Trichinosis, 27-2Trichlorophenol, 25-10Trickling filter, 29-8
performance, 29-10
Trifluralin, 32-11Trigonometric
form, 3-7function, 6-2identity, 6-2–6-5, 6-3
Trigonometry, spherical, 6-5Trihalomethane, 25-9Trihedral angle, 6-5Trilateration, 77-5Trimetric view, 2-3Trip generation, 73-5Triphospate, adenosine, GTriple
integral, 9-3product
mixed, 5-4vector, 5-5
scalar product, 5-4Triplex pump, 18-2Tripling time, 86-8, 86-8Tripod, 41-22Tritium, 22-2Trivial solution, 3-7 (ftn)Tropopause, 15-13 (ftn)Troposphere, 15-13Truck
equivalent, 73-7
factor, 75-12loading, standard, 75-14
types, 73-3, 75-14True
color, in water, 25-8meridian, 77-11strain, 43-5stress, 43-5
Trumpet interchange, 73-21Trunk, 28-2Truss, 41-12
deflection, 44-17, 47-4indeterminate, 46-6pipe, 28-4
transverse load, 41-16types, 41-13
Tschebotarioff pressure distribution, 39-2TSS, A-65, A-66
T. trichiuro, 27-2Tube
impact, 16-4piezometer, 15-2pitot, 16-4stagnation, 16-4static pressure, 15-2
Tuberculosis, 27-2Tubing, copper, 16-10Tubular flow, 30-6Turbid water, 25-9Turbidity, 25-8, G
unit, Gunit, nephelometric, 25-8, G
Turbine, 17-14axial-flow, 18-24Francis, 18-23high-head, 18-21impulse, 17-34, 18-21meter, 17-26power, 17-34, 18-22propeller, 18-24radial-flow, 18-23reaction, 18-23runner, 18-21specific speed, 18-21type, 18-23
Turbulent flow, 16-8, 17-5Turning
point, 79-11radius, 73-3
Turnout, GTurns ratio, 83-6Twaddel scale, 14-4 (ftn)Twist
angle, 43-8, 45-13center of, 45-16
Two-angle formula, 6-4-dimensional mensuration, A-7
-force member, 41-6, 41-12lines, angle, 7-8-metal corrosion, 22-16-phase signal, 73-12-point form, 7-5points, distance, 7-7-stage process, 26-13-stage trickling filter, 29-9-tail limit, 11-12-way
drainage, 40-5shear, 55-3slab, 51-5traffic taper, 73-26
Type1 connection, 65-62 connection, 65-63 connection, 65-6I settling, 26-4 (ftn)I building, 81-8II settling, 26-4 (ftn)V building, 81-8
Ind
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arrival, 73-13cover, 20-16-n flow, culvert, 19-28number, 3-1of flow, 19-2of views, 2-1
Types, structural steel, A-111
Typhoid fever, 27-2
U
U-tube manometer (see Manometer)U-waste, 32-2UBC, 58-4, 81-1UL, 81-3
label, 81-3Ultimate
analysis, 22-4, 22-5, 24-2bearing capacity, 36-3bearing capacity, pile, 38-1BOD, 28-8CO2, 24-12load, 47-2plastic moment, 59-12shear, 59-13strength, 43-3
design, 44-2 (ftn)method, 59-8, 59-10pipe, 40-9
Ultrafilter, 26-11Ultralow NOx burner, 34-12Ultrasonic
flowmeter, 17-26test, 43-14testing, 81-4
Ultrasound testing, 43-12Ultrathin white-topping, 75-24Ultraviolet radiation, 26-18Unaccounted-for water, 26-20Unavailable combined residual, 28-13Unbalanced
centrifugal ratio, 78-7force, 41-1
Unbiased estimator, 11-10Unbonded tendon, 56-2Unbraced column, 53-2, 53-4Unburned fuel loss, 24-15Uncertainty analysis, 86-43Unconfined
aquifer, 21-1compressive strength, 35-28
Unconsolidated-undrained test, 35-27Unconstrained motion, 72-9Underground
storage tank, 32-13water, 21-1
Under-reinforced beam, 50-6Underwriters Laboratories, 81-3Undetermined coefficients, method of, 3-6,
10-4 Undrained case, 36-4Unequal
angle, 61-1tangent vertical curve, 79-16
Unified soil classification, 35-5system, 35-6
Uniformacceleration, 71-3
formulas, 71-3
attack corrosion, 22-15Building Code, 58-4, 81-1cost, annual, 86-7exam, 89-2flow, 16-9, 19-2, 19-4, 19-6, G gradient factor, 86-9motion, 71-3series cash flow, 86-3surcharge, 37-5
Uniformitycoefficient, Hazen, 35-3coefficient of, 21-5
Uninterrupted flow, 73-2Union, set, 11-1Unit
circle, 6-1flow rate, pedestrian, 73-17hydrograph, 20-8
NRCS dimensionless, 20-11
synthetic, Espey, 20-12triangular, 20-11unit, synthetic, 20-10, 20-11
impulse function, 10-6load method, 44-17matrix, 4-2nephelometric turbidity, 25-8, Gprimary, 1-7process, Gshaft friction, 38-3sphere, 6-6step function, 10-6stream power, Gstrength method, 67-4transfer, 34-17turbidity, Gvector, 5-2, 41-2
Cartesian, 5-2 velocity, 21-3 (ftn)weight, 35-7
concrete, 48-4dry, at zero air voids, 35-19
width flow, 73-17Units
consistent system of, 1-2non-SI, 1-7
of pressure, 14-2SI base, 1-5
SI derived, 1-6
Unity equation, 68-8Universal
gas constant, back endpaper
gravitation, Newton’s 72-18set, 11-1transverse mercator, 77-5, 77-20
Universe, 11-3Unloading curve, 43-7Unreinforced
masonry, 68-3membrane, 31-4
Unsaturated hydrocarbon, 23-3, 24-1Unshored construction, 57-3, 64-1Unstable equilibrium, 72-2
Unsteady flow, well, 21-6Unstiffened element, 61-6Unsupported
length, steel beam, 59-3membrane, 31-4
Unsymmetricalbending, beam, 59-14vertical curve, 79-16
Upflow tank, 26-10Upgrade, coal, 24-5Upheaving, pavement, 75-5Uplift
force, 21-9pressure, 21-8
Upper bound, 9-4Upright, 39-2, 49-6Upstream control, 19-20Urban
area, 73-3interchange, 73-21street, 73-3survey, 77-4
Urea, 32-9 (ftn), 34-15 (ftn)Usage, electrical, 83-7USCS
soil classification system, 35-6
symbols, A-67
U.S. Rectangular Surveying System, 77-18UST, 32-13, 33-1UTC, GUtilization factor, 73-23
V
Vacuum, 14-3, 15-2drum filter, 30-16extraction, 34-18
Vadosewater, G zone, 21-1, G
Valence, 22-3, G Value (see also type)
analysis, 86-43average (by integration), 9-4book, 86-23boundary, 10-2effective, 83-5engineering, 85-2, 86-43expected, 86-30face, 86-29heating, 24-14influence, 40-2initial, 9-3, 10-1limiting, 3-9market, 86-23R-, 35-30residual, 86-16resistance, soil, 35-30salvage, 86-18standard normal, 11-6
Valvealtitude, 26-19angle, 16-12ball, 16-12butterfly, 16-12characteristics, 16-13
check, 16-12
C I V I L E N G I N E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-61
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
equivalent length, A-31
flow coefficient, 17-13gate, 16-12globe, 16-12lift, 16-12needle, 16-12nonreverse-flow, 16-12plug, 16-12pressure-relief, 17-36swing, 16-12types, 16-12, 16-12, 16-13
Vane shear test, 35-28Vapor
condensing, 34-18incinerator, 34-12pressure, 14-9, 14-9
head, 18-6 (ftn)Reid, 32-8
Variable, 3-2-area meter, 17-25-capacitance transducer, 84-4cost, 85-9, 86-31dimension of, 1-8
-inductance transducer, 84-4matrix, 4-6-reluctance transducer, 84-4resistor, 84-3
Variance, 11-11account, 86-36
Variation, 77-11coefficient of, 11-11in water demand, 26-18Manning constant, 19-5of parameters, 10-4wastewater flow, 28-2
Varied flow, 19-20, GVarignon’s theorem, 41-3Varve, GVarved clay, 40-4Varying mass, 19-5, 72-17Vaulting, 74-8V-belt, 72-7 (ftn)Vector, 5-1
addition, 5-3biological, 31-5bound, 5-1 (ftn)Cartesian unit, 5-2cross product, 5-4dot product, 5-3equivalent, 5-1 (ftn)field
curl, 8-7divergence, 8-6
fixed, 5-1 (ftn)function, 5-5gradient, 8-5image, 77-6load, 47-12multiplication, 5-3normal
line, 8-6to plane, 7-6
resultant, 5-3sliding, 5-1 (ftn)transmissible, 5-1 (ftn)
triple product, 5-5unit, 5-2, 41-2
Vectorsequal, 5-1orthogonal, 5-3
Vehicledesign, 73-3, 73-3dynamics, 74-1equivalent, 73-6high-occupancy, 73-7standard design, 75-13types, 73-3
Vehicular volume warrant, signalization,73-14
Velocity, 71-3acoustical, 14-14apparent, 21-4average, 16-8bulk, 16-8burnout, 72-17centerline, 16-8cleansing (see Self-cleansing velocity)coefficient of, 17-16, 17-28critical, 26-5, G critical, sludge, 18-6Darcy, 21-4-dependent force, 72-17distribution, 16-8, 19-2drift, 34-7effective, 21-4energy, 16-2 (ftn)equivalent, 21-3escape, 72-19flooding, 34-2flow-through, 26-5gradient, 14-6, 17-13, 26-9Hazen-Williams, 19-6head, 18-6lifting, water, 21-4, 21-4
maximumerodible channels, 19-25
fluid, 17-3
open channel, 19-25mean, open channel, 19-2minimum open channel, 19-2mixing, 26-8of approach, 16-4, 17-16
factor, 17-28of whirl, 18-11 (ftn)overland flow, 20-4
paddle, relative, 26-8pore, 21-3ratio, pump, 18-3
reaction, 22-10scouring, 29-6seepage, 21-4self-cleansing, 19-2, 20-3 (ftn), 28-4settling, 26-4, 26-5
sewer, 28-4, 28-5
sonic, 14-14tangential, 18-22, 71-7terminal, 17-40, 72-16unit, 21-3 (ftn)wave, 19-17
Velzdecay rate, 29-11equation, 29-11
Vena contracta, 17-16, 17-29Veneer failure, 31-5Venturi
discharge coefficients, 17-28
meter, 17-27Vertex, parabola, 7-10Vertical
angle, 6-2buckling, 44-18curve, 78-10
K-value, 78-14through point, 79-12, 79-13unequal tangent, 79-16unsymmetrical, 78-15
exaggeration, 77-19-lagging cofferdam, 39-8soil pressure, 37-3
VFA, 75-9Vibration, concrete, 49-5Vibratory roller, 75-8Vibrio cholerae, 27-2Vicat softening point, 43-11Vickers hardness, 43-13View
auxiliary, 2-2axonometric, 2-3central, 2-2dimetric, 2-3isometric, 2-3normal, 2-1oblique, 2-2orthogonal, 2-2orthographic, 2-2
oblique, 2-3perspective, 2-2, 2-3planar, 2-2principal, 2-2profile auxiliary, 2-2redundant, 2-2trimetric, 2-3
Views, types, 2-1Virgin
compression line, 35-23consolidation line, 35-23curve, 40-4
Virtualdisplacement, 46-9work, 44-17
method, beams, 47-17principle, 47-3
Virus, 27-1, 27-2, 27-3Viscometer
concentric cylinder, 14-6 (ftn)cup-and-bob 14-6, (ftn)Saybolt, 14-6 (ftn)test, 14-6
Viscosity, 14-6coefficient of, 14-6conversion, 14-8
dynamic, 14-6 (ftn)effect on head loss, 17-10grading, 75-2index, 14-9
Ind
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
kinematic, 14-8, 16-7power law, 17-11water, A-13, A-14
Viscouscoefficient, 72-16flow, 16-7
Vision, center of, 2-3Vitrification, 34-4, 34-18, GVitrified clay, pipe, 16-10, 28-4VMA, 75-9
criterion, 75-11
V-notch weir, 19-12VOC, 28-14
removal, 32-14, 34-3Void
ratio, 21-2, 35-7region, 7-3
Voidsfilled with asphalt, 75-9in mineral asphalt, 75-9total air, 75-9
Volatileacid, 27-6dissolved solids, 25-9inorganic compound, 32-14liquid, 14-9, 22-7 (ftn)matter, 24-4organic
chemical, 28-14, G compound, 28-14, 32-14, 34-3, 34-5,
34-17solids, 25-9, 28-6, 30-5, G suspended solids, 25-9
Volatility, 24-6Volatilization, GVolcanic glass, 35-31Voltage, 83-2
divider, 83-4drop, 83-3motor, 83-15
regulation, 83-10Voltammetric sensor, 84-3Volume
absolute, 49-2-capacity ratio, 73-5, 73-12consolidated, 49-2directional design hour, 73-5hourly, 73-8index, sludge, 30-6molar, 22-4of
a fluid, 14-1revolution, 9-5, 42-3sludge, water treatment, 26-10
parameter, traffic, 73-4pile, 79-3sludge, 30-12solid, 49-2specific, 14-4three-dimensional, mensuration of, A-9
warrant, signalization, 73-14, 73-15wastewater, 28-1, 28-2
Volumetricair flow rate, 30-9analysis, 24-2efficiency, pump, 18-3
expansion, coefficient, 44-3fraction, 24-2loading, 30-8strain, 14-13
Von Mises theory, 43-8Vorticity, 8-7
W
Waffle slab, 51-5Wah gas, GWaiting
line, 73-23time, 73-23
Wake drag, 17-39Wale, 39-2, 49-6, G Walkway, 73-17
width, effective, 73-17Wall
bearing, 54-2buttress, 37-1cantilever, 37-1, 39-4cell, Gconcrete, 54-1containment, 40-10counterfort, 37-1cut-off, 40-10effective length factor, 54-2footing, 36-2, 55-2friction, soil, 37-3, 37-4gabion, 37-2gravity, 37-1load-carrying, 54-2masonry, 68-2, A-114–A-118
allowable stress, 68-4
multiple wythe, 68-13nonbearing, 54-1retaining, 54-1, 54-2
active components, A-69, A-70
analysis, 37-6cantilever, 37-1, 39-4design, 37-8
semi-gravity, 37-1shear, 54-2shear stress factor, 17-5 (ftn)slurry, 40-10tie, 68-13
Warming, global, 32-8Warping constant, 59-3Warrant, signal, 73-14 (see also type)WAS, 30-2, 30-13Washboarding, pavement, 75-5Washing, soil, 34-15Washout
sludge, 30-12solids, 30-12toe, 39-4
Wastage rate, 30-8Waste, 32-2 (see also type)
-activated sludge, 30-2, 30-13decomposition end products, 27-5
domestic, Gfuel, 24-4municipal solid, 31-1-to-energy facility, 31-9-to-steam plant, 31-9
Wastewater, 34-18characteristics, 28-5compositing, 28-14domestic, 28-1industrial, 28-1, 28-8, 29-2
municipal, 28-2peaking factors, 28-2
plant acreage, 29-3
pump, 18-4, 29-3, 29-4
quantity, 28-1, 28-2reclamation, 29-12sanitary, 28-1sludge quantity, 30-12standard, 28-14standards, industrial, 29-1tests, 28-8treatment, 34-18
plant, 29-3volume, 28-1, 28-2
Wasteway, G Water
absorbed, Gabsorption, masonry, 67-5balance
equation, 20-2post-closure, 31-7
-borne pathogen, 27-2bulk modulus, 14-14
capillary, G-cement ratio, 49-2, 76-2, 76-2
chemistry CaCO3 equivalents, A-48, A-49
confined, Gconnate, Gcontent, 21-2, 35-7
optimum, 35-17demand, 26-17, 26-18
fire fighting, 26-19multipliers, 26-18
dissolved oxygen, A-50
distribution, 26-19flow, steel pipes, 17-8, A-30
gas, 24-7 (ftn)gravitational, Ghammer, 17-35hard, Ghardness, 25-3, 25-4
ions, 25-3
horsepower, 17-14, 18-7
hygroscopic, Gin concrete, 48-2juvenile, Glifting velocity, 21-4meteoric, Gof crystallization, 22-4of hydration, 22-4pipe, 26-20 (see also type)power, 18-7pressure, 26-20properties, 49-1, A-13, A-14
quality compartment, 32-12reducer, high-range, 48-3-reducing mixture, 48-3softening, 26-13
equivalents, A-48, A-49
storage, 26-19
C I V I L E N G I N E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
I N D E X I-63
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
subsurface, 21-1supply demand, 26-17
supply treatment methods, 26-3
table, 40-5, G table, bearing capacity, 36-7treatment chemical application points,
26-2
treatment chemicals, A-64
treatment plant location, 26-2unaccounted for, 26-20underground, 21-1Vadose, Gvapor, 32-14viscosity, A-13, A-14
Waterborne pathogen, 27-2Watercourse, natural, 19-10Watershed
detention, 20-20modeling, 20-22retention, 20-20
Watery mixture, 48-4Watt, 1-6Wave
formula, kinematic, 20-4standing, 19-17, Gsurface, 19-17surge, 19-17velocity, 19-17
WaveformFourier, 9-7
frequency, 9-6period, 9-6periodic, 9-6symmetrical, 9-7
Waviness height, 2-4Waving the rod, GWay, traveled, GWeak
axis, 59-4bending, 59-4
material, 43-16Weakened
base, pole, 74-8plane joint, 76-9
Weatheringgrade, 67-4steel, 58-5
Weavingarea, 73-21configuration, 73-21
Web, 42-4crippling, 44-18, 59-4, 59-5depth, 63-1force, concentrated, 59-4plastification factor, 63-6plate buckling coefficient, 63-2stiffener, 44-18yielding, 59-4
Weber number, 1-9
similarity, 17-45Wedge, 72-7Weight, 1-1, 1-3, 70-1
adjusted, 49-3and proportion problem, 22-6atomic, 22-1, A-46, Gcombining, 22-5
density, 1-3concrete, 48-4
equivalent, 22-4, Gformula, 22-4molecular, 22-4, Groughness, 2-4specific, 14-5
concrete, 48-4unit, 35-7
concrete, 48-4Weighting agent, 26-6Weir, 19-10
broad-crested, 19-13Cipoletti, 19-12contracted, 19-10equation
Francis, 19-11Rehbock, 19-11
length, 19-10loading, 26-6, 29-7
rate, 29-7proportional, 19-13sharp-crested, 19-10submerged, 19-11suppressed, 19-10Sutro, 19-13trapezoidal, 19-12triangular, 19-12V-notch, 19-12
Weisbach equation, 17-7Weld, 66-1
decay, 22-15fillet, 45-13, 66-1groove, 66-1group, balanced, 66-4groups, properties, A-82
metal, 66-1plug, 66-2shielded metal arc, 66-1size, 66-3
fillet, minimum, 66-3
slot, 6-2submerged arc, 66-1symbols, 66-2
throat, 66-3effective, 45-13
transverse, 60-3Weldability, 58-2Well, 21-4
artesian, 21-2chlorine dose, 21-4drawdown, 21-5extraction, gas, 31-6flowing, Gfunction, 21-6, 21-7
-graded soil, 35-3gravel pack, 21-4gravity, 21-2, 21-4injection, 34-9monitor, 21-4, 31-8observation, Gpumping power, 21-6relief, 21-4screen, 21-4
symbols, A-67
wet, GWell-graded soil (see Well)West declination, 77-11Westergaard case, 40-2Western coal, 24-4Wet
basis concrete, 49-3density, 35-7scrubber, 34-2scrubbing, 34-14well, G
Wetted perimeter, 16-6, A-15, G Weymouth formula, 17-9Wheatstone bridge, 84-9Wheelbase, 73-3Whipworm, 27-2Whirl, velocity of, 18-11 (ftn)Whistle blowing, 88-3 (ftn)White-topping, 75-24Whitney assumption, 50-9Wide-beam shear, 55-2Width, 2-2
beam, minimum, 50-8
effective, 50-19, 64-2slab, composite member, 57-2
minimum, concrete beam, 50-8
-thickness ratio, 61-6, 61-6, 63-2trench, transition, 40-9
Windage loss, 83-15Winfrey method, 86-16 (ftn)Wire
brushed surface, 65-3fiber core, 45-20independent core, 45-20reinforcing, A-92
rope, 45-19, 45-20, 45-21
sheave, 45-20spiral, column, 52-3
-strand core, 45-20Witness stake, 80-1Wood, as fuel, 24-3Work, 13-2, 47-3
done by force, 13-2torque, 13-2
-energy principle, 13-3, 13-4, 45-19external, 13-2flow, 13-3internal, 13-2, 43-6performed by a force, 9-4pV, 13-3spring, 13-2 virtual, 44-17
Workabilityconcrete, 48-3, 49-1pavement, 75-4
Working stress design, 58-4Worksheet, moment distribution, A-90
Worm, 27-1, 27-2, 27-2, 27-4Worth
future, 86-5present, 86-5
Woven fabric, 40-11Wye-connection, 83-9Wythe, multiple, 68-13
Ind
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Italicized page numbers represent sources of data in tables, figures, and appendices. “G” indicates a glossary entry.
X
Xeriscape, GXerophytes, G X-ray testing, 43-12
Y
Y-connection, 83-9Yard
cubic, 79-1-quarter, 79-8-station, unit, 79-7
Yaw, 72-2Year-end convention, 86-3Yersinia enterocolitica, 27-2Yield, 22-7, 86-28
bond, 86-30cell, 30-12, 30-13
coefficient, 30-7maximum, 28-6
linear, paving, 75-7mass, 31-10observed, 30-8point, 43-2, 58-2reservoir, 20-20safe, 21-5, Gspecific, 21-3, Gstrength, 58-2, 43-3
stress, 43-2, 58-2Yielding, web, 59-4Young’s modulus, 43-2, 43-2, 44-2
concrete, 48-4
Z
z-values for confidence levels, 11-12
Zx beam selection table, 59-4Zebra mussel, 27-4Zeolite
process, 26-14synthetic, 26-15
Zero, 3-3, 12-1air voids
curve, 35-18density, 35-19
-discharge facility, 32-6-force member, 41-13matrix, 4-2order reaction rate, 22-10-voids density, 35-7
Zinc silicate painted surface, 65-3Zone (see also type)
active, 37-2benthic, Gof
aeration, G influence, 40-2saturation, G
phreatic, 21-1, Gvadose, 21-1, G
Zoned survey, 77-5Zoning ordinance, 81-2Zoogloea, GZooplankton, GZuber equation, 14-10
C I V I L E N G I N E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
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