B.Sc. Civil Engineering: Semester System w.e.f. 2010 Year 1 Semester 1 Semester 2 Cours e No. S u b j e c t Contact Hours Credit Hours Theor y Prac t. Theor y Prac t. CE- 103 Construction Materials 3 3 3 1 CE- 105 Civil Engineering Drawing 1 6 1 2 HU- 120 English Communication Skills 0 3 0 1 MA- 104 Mathematics-I 3 0 4 0 IS/ Hu- 101 Islamic & Pak Studies/ Ethics 3 0 3 0 Tutorial 0 2 0 0 Total 10 14 11 4 G. Total 24 15 Cours e No. S u b j e c t Contact Hours Credit Hours Theor y Prac t. Theor y Pract . CE- 101 Elementary Surveying 3 6 3 2 CE- 102 Engineering Mechanics 3 3 3 1 EE- 102 Applied Electricity 2 2 2 1 CE- 150 Computer Programming 3 3 3 1 MA- 105 Mathematics- II 3 0 3 0 Tutorial 0 1 0 0 Total 14 15 14 5 G. Total 29 19 Year 2 Semester 3 Semester 4 Cours e No. S u b j e c t Contact Hours Credit Hours Theor y Prac t. Theor y Pract . CE- 201 Surveying and GIS-RS Applications 3 6 3 2 CE- 212 Mechanics of Materials 3 3 3 1 Cours e No. S u b j e c t Contact Hours Credit Hours Theor y Prac t. Theor y Prac t. CE- 205 Civil Engineering Construction & Graphics 2 3 2 1 CE- Project &3 3 3 1
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B.Sc. Civil Engineering: Semester System w.e.f. 2010
Year 1
Semester 1 Semester 2
Cours
e No.S u b j e c t
Contact
Hours
Credit
Hours
Theor
y
Pract
.
Theor
y
Pract
.
CE-
103
Construction
Materials3 3 3 1
CE-
105
Civil Engineering
Drawing
1 6 1 2
HU-
120
English
Communication
Skills
0 3 0 1
MA-
104
Mathematics-I 3 0 4 0
IS/Hu-
101
Islamic & Pak
Studies/ Ethics
3 0 3 0
Tutorial 0 2 0 0
Total 10 14 11 4
G. Total 24 15
Cours
e No.S u b j e c t
Contact
HoursCredit Hours
Theor
y
Pract
.
Theor
y
Pract.
CE-
101
Elementary
Surveying
3 6 3 2
CE-
102
Engineering
Mechanics
3 3 3 1
EE-
102
Applied
Electricity
2 2 2 1
CE-
150
Computer
Programming
3 3 3 1
MA-
105
Mathematics-II3 0 3 0
Tutorial 0 1 0 0
Total 14 15 14 5
G. Total 29 19
Year 2
Semester 3 Semester 4
Cours
e No.S u b j e c t
Contact
HoursCredit Hours
Theor
y
Pract
.
Theor
y
Pract.
CE-
201
Surveying and
GIS-RS
Applications
3 6 3 2
CE-
212
Mechanics of
Materials
3 3 3 1
CE-
231
Fluid
Mechanics-I
3 3 3 1
Cours
e No.S u b j e c t
Contact
Hours
Credit
Hours
Theor
y
Pract
.
Theor
y
Pract
.
CE-
205
Civil Engineering
Construction &
Graphics
2 3 2 1
CE-
206
Project & Contract
Management
3 3 3 1
CE-
211
Elementary
Structural
3 0 3 0
MinE-
270
Engineering
Geology
2 2 2 1
MA-
220
Mathematics-III 3 0 3 0
Tutorial 0 1 0 0
Total 14 15 14 05
G. Total 29 19
Analysis
CE-
221
Geotechnical
Engineering-I
3 3 3 1
MA-
230
Numerical
Analysis
3 0 3 0
IS/Hu-
202
Islamic & Pak
Studies/Ethics
3 0 3 0
CE-
225
Social Sciences* 0 3 0 1
Tutorial 0 1 0 0
Total 17 13 17 4
G. Total 30 21
Year 3
Semester 5 Semester 6
Cours
e No.S u b j e c t
Contact
HoursCredit Hours
Theor
y
Pract
.
Theor
y
Pract.
CE-
306
Construction
Management
2 3 2 1
CE-
311
Structural
Analysis
3 3 3 1
CE-
313
Steel Structures 3 3 3 1
CE-
321
Geotechnical
Engineering-II
3 3 3 1
CE-
332
Engineering
Hydrology
3 3 3 1
Total 14 15 14 5
G. Total 29 19
Course
No.
S u b j e c t
Contact
Hours
Credit
Hours
Theor
y
Pract
.
Theor
y
Prac
t
CE-312 Structural
Mechanics
3 3 3 1
CE-314 Plain &
Reinforced
Concrete-I
3 3 3 1
CE-331 Fluid Mechanics-II 3 3 3 1
CE-341 Environmental
Engineering-I
3 3 3 1
CE-342 Technical Writing
& Presentation
Skills
0 3 0 1
Tutorial 0 2 0 0
Total 12 17 12 5
G. Total 29 17
Year 4
Semester 7 Semester 8
Cours
e No.S u b j e c t
Contact
Hours
Credit
Hours
Theor
y
Pract
.
Theor
y
Pract
.
CE-
411
Plain Reinforced
Concrete-II
3 3 3 1
CE-
421
Transportation
Engineering
3 3 3 1
CE-
441
Environmental
Engineering-II
3 3 3 1
CE-
424
Hydraulic
Engineering
3 3 3 1
CE-
499
Project 0 6 0 3
Total 12 18 12 7
G. Total 30 19
Cours
e No.S u b j e c t
Contact
Hours
Credit
Hours
Theor
y
Pract
.
Theor
y
Prac
t
CE-
401
Structural
Engineering
3 3 3 1
CE-
431
Irrigation
Engineering
3 3 3 1
CE-
422
Design of
Structures
3 3 3 1
CE-
423
Pavement &
Foundation
Engineering
3 3 3 1
CE-
499
Project 0 6 0 3
Total 12 18 12 7
G. Total 30 19
Contact
HoursCredit Hours
Total- hours
Grand Total 230 148 378
Total
Hours% age
Total 378 -
Engineering 326 86
Mathematics 25 7
Humanities/Social
Science27 7
Checksum 100
DETAILS OF SUBJECTS FOR FIRST –SECOND SEMESTERS
CE-101 ELEMENTARY SURVEYING
Introduction to land surveying, definitions, branches and their application. Instruments used in
reconnaissance.
Chain Surveying; Types of tapes, chains, methods of chain surveying
Leveling: Reduction of levels, temporary and permanent adjustments of levels, precise leveling.
Theodolite: Types, use, temporary and permanent adjustments. Traversing with compass and
theodolite.
Tachometry: With staff and sub tense bar.
Plane Table Surveying: Parts and accessories, Methods of plane table survey, two and three points
problems.
Contouring: Methods and applications.
Area and Volumes: Computation by various methods, cross section and L-section of roads, layout of
buildings and structures.
Field and drawing office work based on above.
CE-102 ENGINEERING MECHANICS
Basic concepts of space, time, mass, velocity, acceleration and force. Scalar and vector quantities.
Newton's laws of motion, law of gravitation. Units of measurements for space, time, mass and force. SI
and FPS systems of units.
Resultant and resolution of co-planer forces using parallelogram, triangle and polygon law and
funicular polygon. Simple cases of resultant and resolution of forces in space.
Conditions of equilibrium of co-planar forces, analytical and graphical formulations. Free body concept,
conditions of support and attachment to other bodies. Degree of restraint and static determinacy.
Statically determinate problems especially of civil engineering importance.
Work, energy and power. Virtual work formulation of equilibrium of coplanar force. Potential energy,
energy criterion for equilibrium, stability of equilibrium, application to simple cases.
Geometrical properties of plane areas, first moment of area, centroid, second moment of area,
principal axes, polar second moment of area and radius of gyration.
Friction, Coulomb's theory of friction. Problems involving friction on flat and curved surfaces.
CE-103 CONSTRUCTION MATERIALS
Cements, Ceramics and Refractories: Manufacture, properties and applications of lime, cement,
ceramics, bricks and asbestos.
Hydration of lime and cement, mortar and concrete, effect of various chemicals on cement and
concrete, types and properties of polymer concrete and fiber reinforced concrete.
Plastics: manufacture of plastics, comparison of different types of plastics and their use in civil
engineering.
Glass: Main types of glass, chemical and physical properties of glass, fiberglass manufacturing
techniques and properties.
Wood: Different types of wood available in Pakistan, seasoning and preservation of wood, laminated
materials, gluing and joining techniques. Elastic properties of Pakistani woods.
Paints and Varnishes: Composition and manufacture of oil paints, plastic emulsion paints,
distempers, varnishes, lacquers and enamels, methods of application.
Metals: Composition, properties and manufacture of ferrous and non ferrous metals used in civil
engineering. Hot rolled and cold worked steels, effect of various heat treatments on the properties of
steel and its alloys, structural failures induced by corrosion. Brittle failures of steel. Methods of
corrosion control.
Thermometry: Heat transfer, steady and unsteady states, conductivity and diffusivity, properties of
thermal insulation and acoustical materials for use in buildings.
CE-105 CIVIL ENGINEERING DRAWING
Introduction to the subject and drawing equipment.
Lettering and dimensioning, graphic symbols, free hand sketches and isometric views. Methods of
sections including assembly sections.
Orthographic projection, orthogonal projections of simple solids in simple position, oblique and
auxiliary planes.
Isometric and pictorial projections of solid figures, making of free hand sketches from solid objects and
from orthographic projections. Intersection of surfaces. Development of surfaces.
Introduction to Civil Engineering drawing, preparation of plan, elevation and sections for simple
buildings. Introduction to Computer Graphics.
CE –150 COMPUTER PROGRAMMING
Introduction to personal computer setup. Introduction to DOS and WINDOWS Operating system. Basics
of Computer Programming. Program structure and flow charts.
BASIC Language: Arithmetic operations and functions, input/output statements, decision making
statements and loop functions and subroutines. Data and Data Files.
Fundamentals of Visual Basic Programming. Introduction to Visual Basic. Programming of simple, and
elementary civil engineering problems.
CE-102 APPLIED ELECTRICITY
Nature of electricity, electric circuits and their analysis by different methods.
Electromagnetism, system of units. Basics of reading and understanding electrical circuits. Alternating
currents, alternating current circuits, electrical resonance,
Machines using AC. principles of electronics and their applications to measuring instruments, principles
of measuring physical quantities by electrical methods.
Introduction to single phase transformers, applications, improvements, introduction to alternator.
Introduction to lasers and fiber optics their uses and converters. The induction motor.
Introduction to direct current machines and their working, Latest trends.
Principles of house and industrial wiring grounding with applications, methods and their relative
advantages, circuit diagrams and load calculation.
Illumination of spaces.
MA-104 MATHEMATICS-1
Application of Derivative: Rate, speed and acceleration, tangents and normals, maxima and minima
of a function of single variable. Curvature and radius of curvature. Polar Curves.
Functions of Several Variables: Coordinates in space, partial differential coefficient, Partial
differentiation of an implicit function, total differential. Sensitivity and error estimates. Liberalization,
chain rules, maxima and minima of functions of two independent variables.
Vectors: Addition and scalar multiplication of vectors. Scalar and vector products. Triple products.
Differentiation and integration of vectors. Algebra of matrices and determinants and their use in
solving simultaneous equations, Eigen values and eigen- vectors.
Motion: Motion along a straight line with uniform acceleration, motion along a curved path. Tangential
and normal components of acceleration. Simple harmonic .motion, projectiles. Momentum and
conservation of work and energy.
MA-105 MATHEMATICS-II
Techniques of Integration: Application of integration in finding area, volume and surface area of a
solid of revolutions, length of arc, centroid etc. Theorem of Pappus and Gladinus.
Hyperbolic functions. Catenaries.
Double Integration and its application to find volume, centroid and moment of inertia.
Differential Equations: Solution of various types of first order equations. Orthogonal trajectories,
Application in physical problems. Linear differential equations of second order, Complementary
function and particular integral. Method of undetermined coefficients. Variation of parameters.
Simultaneous differential equations. Solution of differential equation in series.
Three Dimensional Analytical Geometry of 3-dimensions. Cartesian, cylindrical and spherical
coordinates. Equation of plane. Direction cosines. Equations of straight line. Orthogonality. Equation
of sphere.
Multiple Integration: Volume, center of mass, moment of inertia.
MinE-170 ENGINEERING GEOLOGY
The fundamentals of general/structural geology, importance of geology for civil engineers, introduction
to engineering geology. Engineering properties of geological materials and rocks and their correlation
with civil engineering projects, classification of rock masses, discontinuities of rocks and determination
of shear strength of rock discontinuity. Determination of elastic properties of rocks, wave propagation
through rocks.
Subsurface Investigation: Drilling, sampling and in-situ testing of subsurface geological materials,
collection of geophysical data, planning and supervision of geophysical investigations, Behavior of
subsurface geological materials under static and dynamic loading, definition and importance of
damping for the design of civil engineering structures, introduction to tectonic plates, causes of
earthquake, determination of shear wave modulus, and construction of response spectrum.
Stability of Rock Slope: Various types of rock failures and factors affecting the stability of rock
slopes, analysis and calculation of safety factors, causes of landslides and remedial measures.
Engineering Geology of Dams: Identification and determination of geological parameters required
in dam design and selection of dam sites, case histories of dam sites in Pakistan,
Engineering Geology of Tunnels: Geological survey prior to tunneling, lining of tunnels and its
section, selection of tunnel site and its requirements, case histories.
Ground Subsidence: Effect of alteration of fluid levels. Mines.
PRACTICAL WORK: Examination and interpretation of geological maps. Logging of rock core for
engineering purposes. Testing of rocks for their elastic properties, identification of rocks and their
physical properties.
DETAILS OF SUBJECTS FOR THIRD – FOURTH SEMESTERS
CE-201: SURVEYING AND GIS-RS APPLICATIONS
Introduction to advanced surveying and its application, Triangulation, trilateration, field procedures
and application. EDM. Strength of figure, computation and plotting.
Theory of Errors and Weights: Quality of observations, weighted observations, distribution and
adjustment of errors. Most probable value.
Curves: Various types of curves with application: simple circular curve, compound curves, transition
curves, vertical curve and reverse curves, Design and layout of curves.
Tunnel Surveying: Use of gyroscope.
Hydrographic Surveying: Horizontal and vertical controls, submarine surface contours. Discharge
measurement, reservoir capacity calculation.
Field Astronomy: Solar and stellar observations for position and azimuth determination.
Photogrammetry: Introduction, definition and application of aerial and terrestrial photogrammetry.
Modern positioning systems, use of GPS,computation and plotting, use of computer and plotter.
CE-205 CIVIL ENGINEERING CONSTRUCTION AND GRAPHICS
Site selection, orientation and setting out for civil engineering projects.
Masonry Construction: Types of stone, brick and block masonry. Bonds in brick masonry.
Dampness in buildings, causes and remedial measures.
Various types of floor finishes, interior and exterior finishes. Scaffolding and formwork, Expansion and
construction joints, factors affecting their location.
Concrete Construction: Batching, mixing, transportation and compaction of concrete. Pre-cast
concrete, concrete construction. Quality control in concrete construction.
Woodwork in building construction.
Defects in building construction. Principal defects, diagnosis, causes and remedial measures.
Stone crushers. Machines for cleaning and grading of aggregates. Concrete mixers, vibrators and
pneumatic tools.
Types of Civil Engineering drawing. Preparation of plans, elevations and sections. Working drawings of
a residential building. Computer graphics.
Application of architectural planning and rendering in Civil Engineering projects.
CE-206 PROJECT AND CONTRACT MANAGEMENT
Introduction to Engineering Economics: Inflation, escalation, indexation, economic evaluation,
financial planning, value, utility, depreciation, arbitration and litigation. Demand and supply analysis,
theory of pricing, theory of production and laws of return,
Construction Specifications. Role of specifications on cost of project.
Contracts: Types and conditions of contracts, work contracts and tendering.
Estimating: Need for estimates, rough cost and detailed estimates. Preparation of bill of quantities.
Scheduled and non scheduled rates. Analysis of rates, abstract of costs. Preparation of estimates from
drawings. Use of proper planning. Introduction to critical path method.
Safety and Environmental management at construction sites.
Technical Report Writing: Qualities of a good report, main parts, scope and functions, Logical
sequence, numbering system and use of suitable heading and subheadings, Formats of tile page, table
of contents, bibliography, footnote.
Oral Presentation: Basic principles of good oral presentation.
CE-211 ELEMENTARY STRUCTURAL ANALYSIS
Introduction to Structures and Analysis. Types of structures, structural idealisation and loads.
Redundancy and stability of structures.
Analysis of Determinate in Jointed Structures: by method of joints, method of sections, method
of moments and shears and graphical method.
Analysis of Statically Determinate Rigid Jointed Plane Frames: Shear force, bending moment
and axial force diagrams for these structures.
Temperature stresses in structures.
Moving Loads: Influence lines for reactions, shear force and bending moment in statically
determinate beams and paneled girders, influence lines for member forces in pin jointed frames,
Calculation of maximum stress function (reaction, shear, bending moment, axial force) in these
structures.
Three Hinged Arches, Cables and Suspension Bridges: Basic considerations in analysis and
design. Moving loads on three hinged arches and suspension bridges.
Deflection and Rotations: Castigliano’s second theorem. Rotation and deflection of beams, plane
trusses and frames. Principle of virtual Work, unit load method, graphical method. Three moment
equation for analysis of statically indeterminate beams.
CE-212 MECHANICS OF SOLIDS
Types of stresses and strains, stress-strain behavior of ductile and brittle materials. Statically
determinate and indeterminate problems, compound bars. Temperature stresses.
Bending moment and shear force diagrams for determinate beams for general loading. Principle of
superposition, relationship between load, shear force and bending moment.
Theory of simple bending, distribution of bending and shear stresses in beams of symmetrical sections.
Differential equation of beam deflection and deflection of beams using the double integration. Singular
Functions moment area and conjugate beam methods. Strain energy due to direct loads, shear and
bending. Castigliano's theorems and their application to find deflections and rotations.
Combined bending and axial stresses, columns, types of columns, stability of columns, Euler and other
formulae for elastic critical load, eccentrically loaded short columns.
Torsion of solid and hollow circular sections. Strain energy due to torsion and impact loads.
CE-221 GEOTECNICAL ENGINEERING-1
Significance. Soil, rock and their types and formation. Physical properties of soil: water content, voids
ratio, porosity, degree of saturation, specific gravity, unit weight and their determination, mass-volume