Page 1
1. Pre-requisites: None
2. Course Educational Objectives (CEOs): In this course the students are
introduced to numerical techniques for solving various types of equations.
They also learn vector differentiation and vector integration.
3. Course Outcomes (COs): At the end of the course, the student will be able to :
CO1 : Compare the rate of accuracy between Regula falsi method and The Newton-
Raphson Method in approximating a root of an equation. Also Distinguish among the
criteria of selection and procedures of various Numerical integration rules.
CO2 : Estimate the best fit polynomial for the given tabulated data using the methods
of Newton’s interpolation and Lagrange’s interpolation.
CO3 : Solve an initial value problem involving an ordinary differential equation by
using various numerical methods
CO4 : Compute the Directional derivative and the divergence and the angular velocity
for a given vector valued function.
CO5 : Evaluate the line, surface and volume integrals with the support of vector
integral theorems.
4. Course Articulation Matrix:
Course
Code
COs Programme Outcomes PSOs
1 2 3 4 5 6 7 8 9 10 11 12 1 2 3
S134
CO1 3 2 2 2
CO2 3 2 2 2
CO3 2 2 1 2
CO4 3 2 2 2
CO5 3 2 2 2
1 = Slight (Low) 2 = Moderate (Medium) 3-Substantial(High)
Department: AEROSPACE ENGINEERING Program: B.Tech
Course :APPLIED MATHEMATICS-III (S134)
SEM: III Academic Year : 2017-18
LESSON PLAN
Page 2
4. Course Delivery Plan:
S.NO TOPIC TO BE COVERED No.of Classes
Date DM As per
the
Schedule
Taken
Unit-1
1 Introduction class 1 20-6-17 1
2 Course Objectives and applications 1 21-6-17 1
3 Introduction to solution of algebraic and
transcendental equations 1
22-6-17 1
4 Bisection Method 1 24-6-17 1
5 Method of False Position 2
27-6-17
28-6-17 1
6 TUTORIAL-1 1 29-6-17 1,3
7 Newton-Raphson Method 2
1-7-17
4-7-17 1
8 Numerical Integration, Trapezoidal Rule 1 5-7-17 1
9 TUTORIAL-2 1 6-7-17 1,3
10 Simpson’s 1/3 Rule 1 8-7-17 1
11 Simpson’s 3/8 Rule. 1 11-7-17 1
12 Simpson’s 3/8 Rule. 1 12-7-17 1,3
13 Assignment/Quiz-1 1 13-7-17 4
Number of classes 15
Unit-II
14 Introduction to Interpolation 1 15-7-17 1
15 Forward, & Backward Differences 1 18-7-17 1
16 Symbolic Relations and separation of
symbols
2 19-7-17 20-7-17
1
17 Newton’s formulae for interpolation 2 22-7-17 25-7-17
1
18 TUTORIAL-3 1 26-7-17 1,3
19 Lagrange’s interpolation formula 2 27-7-17
29-7-17
1
20 Gauss Interpolation formula 1 1-8-17 1
21 TUTORIAL-4 1 2-8-17 1,3
22 Assignment/Quiz-2 1 3-8-17 4
Number of classes 12
Unit-III
23 Numerical Solution of ODE 1 5-8-17 1
24 Solution of ODE by Taylor’s series 1
17-8-17 1
25 Picard’s Method of successive
Approximation 1
19-8-17 1
26 TUTORIAL-5 1
22-8-17 1,3
Page 3
27 Euler’s Method 1
23-8-17 1
28 Modified Euler’s Method 2 24-8-17
26-8-17 1
29 Runge-Kutta Method 2 29-8-17
30-8-17 1
30 TUTORIAL-6 1 01-09-17 1,3
31 Assignment/Quiz-3 1 02-09-17 4
Number of classes 11
Unit-IV
32 Vector Differentiation 1 5-9-17 1
32 Gradient of a scalar point function 1 6-9-17 1
34 Directional Derivatives 2 7-9-17 12-9-17
1
35 TUTORIAL-7 1 13-9-17 1,3
36 Divergence 1 14-9-17 1
37 Curl of a vector 1 19-9-17
1
38 Laplacian and second order operators 1 20-9-17
1
39 Vector Identities 1 21-9-17 1
40 TUTORIAL-8 1 23-9-17 1,3
41 Assignment/Quiz-4 1 26-9-17 4
Number of classes 11
Unit-V
42 Vector Integration 1 27-9-17 1
43 Line Integral 1 3-10-17 1
44 Work done Area 1 4-10-17 1
45 Surface Integral 1 05-10-17
1
46 TUTORIAL-9 1 7-10-17 1,3
47 Volume Integral 1 10-10-17 1
48 Applications on Gauss divergence
Theorem
1 11-10-17 1
49 Applications on Green’s Theorem 1 11-10-17 1
50 Applications on Stokes’ Theorem 1 12-10-17
1
51 TUTORIAL-10 1 13-10-17 1,3
Page 4
52 Assignment/Quiz-4 1 14-10-17 4
Number of classes 11
Total Number of classes 60
Delivery Methods (DM):
1.Chalk & Talk 2. ICT Tools 3. Tutorial 4. Assignment/Test/Quiz
5. Laboratory/Field Visit 6. Web based learning.
Course
Instructor
Course
Coordinator
Module
Coordinator HOD
Signature
Name of the Faculty
PRINCIPAL
Page 5
1. Pre-requisites: Basic physics
2. Course Educational Objectives (CEOs):
To learn the components of airplane and different types of flight vehicles, the basic aspects of
aerodynamics and airfoils, the elements of propulsive systems used in airplanes, the function of
structural components in wing and the fundamental aspects of flight vehicle in space.
Course Outcomes (COs): At the end of the course, the student will be able to:
CO1: To know the properties of standard atmosphere relevant to the aspects of aerospace
engineering.
CO2: To understand the basics issues of aerodynamics forces acting on an airfoil.
CO3: To analyse the working principles of various aircraft engines systems.
CO4: To identify and know functions of the various components of aircraft wing.
CO5: To analyse the basics aspects of space vehicles trajectories.
4. Course Articulation Matrix:
Course
Code
COs Programme Outcomes PSOs
1 2 3 4 5 6 7 8 9 10 11 12 1 2 3
S225
CO1 3 3 1 2 2 1 2 1 1 1 2 3 3 2
CO2 3 3 1 2 2 1 2 1 1 1 2 3 3 2
CO3 3 3 1 2 2 1 2 1 1 1 2 3 3 2
CO4 3 3 1 2 2 1 2 1 1 1 2 3 3 2
CO5 3 3 1 2 2 1 2 1 1 1 2 3 3 2
1 = Slight (Low) 2 = Moderate (Medium) 3-Substantial(High)
Department: ASE Program: B.Tech
Course : –Elements of ASE (S225)
SEM: III Academic Year : 2017-18
LESSON PLAN
Page 6
3. Course Delivery Plan:
S.NO TOPIC TO BE COVERED
No.of
Classes Date DM As
per
the
Sc
he
dul
e
Taken
Unit-1: Introduction to Aerospace engineering
1 Introducing course and explaining
course objectives and explaining course
content
2 2
19,20-06-2017 1
2 History of early planes 2 2
22,23-06-2017 1,2
3 Components of Airplane and their
functions
2 2 28,29-06-2017 1,2,5
4 Types of Flight Vehicles, Classifications
1 1 30-06-2017 1,2
5 Standard Atmosphere, Role of
atmosphere in Aerospace engineering
1 1 01-07-2017 1
6 Hydrostatic Equation 1 1
03-07-2017 1
7
Geometric, Absolute, Geopotential,
Pressure, Density and Temperature
altitudes. Relation between Geopotential
and Geometric Altitudes
1 1
05-07-2017 1
8
Derivation of Pressure, Density,
Temperature variation w.r.t altitude for
both isothermal and temperature
gradient reasons
1 1
06-07-2017 1
9 Tutorial 1 1 07-07-2017 1
Number of classes 13
13
Unit-II: Basic Aerodynamics
10 Introduction to Aerodynamics and its
importance in Aerospace engineering,
Course objectives.
1
13-07-2017 1
11 Aero foils, Aero foil Nomenclature 1 14-07-2017 1,2
12 Classifications of NACA aerofoils, Wing
Geometry
2
15,19-07-2017 1,2
13 Tutorial 1
20-07-2017 1
14 Basic fluid mechanics definitions and
their importance
2 21,22-07-2017 1,2
15 Aerodynamic Forces, Pressure
Distribution over Aerofoil
2 26,27-07-2017 1
16 Lift, Drag and Moment Coefficients 1 28-07-2017 1
17 Co-efficient of Pressure, Aerodynamics
Center
1 29-07-2017 1
17 Tutorial 1 02-08-2017 1
Page 7
18 Types of Drag 1
03-08-2017 1,2
19 High Lift Devices 1 04-08-2017 1,2
20 Tutorial 1 05-08-2017 1
Total Number of classes 15
Unit-III: Propulsion
21 Introduction to Aerospace propulsion
and its importance in Aerospace
engineering, Course objectives.
1
16-08-2017 1,2
22 Propeller and Reciprocating Engine 2 17,18-08-2017 1,2
23 Jet Propulsion-The Thrust Equation 2 19,23-08-2017 1,2
24 Elements of Turbojet Engine-Turbofan
engine
2 24,26-08-2017 1,2
25 Tutorial 1
30-08-2017 1
26 Rocket Engine and rocket equation 1 01-09-2017 1,2
27 Rocket Propellants-Liquid Propellants,
Solid Propellants
2
06,07-07-2017 1,2
28 Rocket Staging 1
08-09-2017 1
29 Tutorial
1 13-09-2017 1
Total Number of classes 13
Unit IV: Aircraft Structure and Material
31 Introduction to Aerospace structures
and its importance in Aerospace
engineering, Course objectives.
1
14-09-2017 1
32 Fluselage-Monocoque Semi-Monocoque
Structures
1
15-09-2017 1,2
33 Components of Wing-Spars, Ribs,
Longerons, Stringers, Bulkheads
2 16,20-09-2017 1,2
34 Aircraft Materials-Metallic and non-
metallic materials
1 21-09-2017 1,2
35 Use of aluminum alloy, titanium,
stainless steel
1 22-09-2017 1
36 Composite materials 1 23-09-2017 1,2
Total Number of classes 7
Unit V: Space Flight
37 Introduction to Space mechanics and its
importance in Aerospace engineering,
Course objectives.
1
27-09-2017 1
38 Gravitational force and Orbit Equation 2 28,29-09-2017 1,2
39 Basic Aspects of Space Vehicle
Trajectories
1
30-09-2017 1,2
Page 8
40 Tutorial 1 04-10-2017 1
41 Kepler’s Laws 2 05,06-10-2017 1,4
42 Tutorial 1 07-10-2017 1,2
43 Earth and Planetary Entry 1 11-10-2017 1,2
44 Space vehicles and its types 1 12-10-2017 1,2
45 Satellites, Types of satellites and their
functions
1 13-10-2017 1,2
46 Tutorial 1 14-10-2017 1
Total Number of classes 12
Delivery Methods (DM):
1.Chalk & Talk 2. ICT Tools 3. Tutorial 4. Assignment/Test/Quiz
5. Laboratory/Field Visit 6. Web based learning.
Course
Instructor
Course
Coordinator
Module
Coordinator HOD
Signature
Name of the Faculty M V Ramireddy
PRINCIPAL
Page 9
1. Pre-requisites: Engineering Mechanics, Mathematics
2. Course Educational Objectives (CEOs):
To understand basic concept of stress, strain and relations based on linear elasticity.
To demonstrate the shear bending diagrams on beams and know the location and magnitude
of the bending moment.
To understand theory of simple bending and torsion
To understand the graphical and analytical methods to compute principle stress and strain
To familiarize the concept of cylinders and shells subjected to internal and external
pressures.
3. Course Outcomes (COs): At the end of the course, the student will be able to :
CO1: Analyze different types of loads and behavior of materials under tensile, compressive,
shear loads and instantaneous stresses
CO2: Able to draw Shear Force & Bending Moment Diagrams for different types of loads and
support conditions.
CO3 : Judge failure of the beams on the basis of bending and shear stresses.
CO4 : Resolve the problems encountered due to deflection of beams for various types of loads
CO5 : Design the cylinders depending on the requirements
4. Course Articulation Matrix:
Course
Code
COs Programme Outcomes PSOs
1 2 3 4 5 6 7 8 9 10 11 12 1 2 3
S390
CO1
CO2
CO3
CO4
CO5
1 = Slight (Low) 2 = Moderate (Medium) 3-Substantial(High)
Department: AERO Program: B.Tech
Course : –STRENGTH OF MATERIALS (S 390)
SEM: III Academic Year : 2017-18
CEOs and COs
Page 10
Course Delivery Plan:
S.NO TOPIC TO BE COVERED No.of Classes
Date DM As per
the
Schedul
e
Taken
Unit-1
1 Introduction to strength of material
mechanics
1 19/06/17 1
2 Properties of material 1 20/06/17 1
3 Types of stresses strains, Hooks law 1 24/06/17 1
4 strains, Hooks law, Lateral strain,
Poisson’s ratio, Elastic constants
1 26/06/17 1
5 Stress strain diagram for mild steel 1 27/06/17 1,5
6 Bars of varying cross section, stepped
bar
1 28/06/17 1
7 Problem 1 28/06/17 1
8 Composite bar problems 1 01/07/17 1
9 Temperature stresses 1 03/07/17 1
10 Problems & Revision 1 04/07/17
1,3
11 working stress, Factor of safety, 1 08/07/17 1
12 Volumetric strain, poisons ratio, 1 10/07/17 1
13 Relation between various elastic
Constants
1 11/07/17 1
14 Stresses due to sudden loads & impact
loads 1 12/07/17 1
15 TEST-1 1 12/07/17 4
Number of classes 15
Unit-II
16 Definition of Beams, Types of beams,
Relationship B/W Shear force and B.M
1 15/07/17 1
17 S.F and B.M diagram for cantilever
with point load & Problems
1 17/07/17 1
18 S.F and B.M diagram for S.S.B with
point loads & Problems
1 18/07/17 1
19 S.F and B.M diagram for Overhang
with point loads & Problems
2 22/07/17 1
20 Uniformly distributed load for
cantilever and SSB & Problems
1 24/07/17 1
21 Uniformly Varying load for cantilever
and SSB & Problems
1 25/07/17 1
22 Combination of loads for cantilever and
S.S.B & Problems
2 26/07/17 1
23 Point of contra flexure, Maximum
Bending Moment
1 29/07/17 1
24 Revision 1 31/07/17 3
25 Test-2 1 01/08/17 4
Number of classes 12
Unit-III
26 Theory of simple bending, Assumptions 1 16/08/17 1
Department: AERO Program: B.Tech
Course : –STRENGTH OF MATERIALS (S 390)
SEM: III Academic Year : 2017-18
LESSON PLAN
Page 11
27 Derivation of Flexural equation 1 16/08/17 1
28 Section modulus of various cross
section
1 19/08/17 1
29 Calculation of normal stresses due to
flexure application
2 21/08/17 1
30 Theory of pure torsion &
Assumptions
1 22/08/17 1
31 Derivation of Torsion equations:
T/J = q/r = Cθ/L
1 26/08/17 1,5
32 Polar section modulus –Power
transmitted by shaft
1 28/08/17 1
33 Stresses in solid and hollow circular
shafts
2 29/08/17 1
34 Revision 1 30/08/17 3
35 Test 1 30/08/17 4
Number of classes 12
Unit-IV
36 State of stress at a point 1 02/09/17 1
37 Normal and Tangential stresses on
inclined planes
1 04/09/17 1
38 Introduction to Failure Theories 1 5/09/17 1
39 Maximum Stress theory 1 9/09/17 1
40 Maximum Strain Theory 1 11/09/17 1
41 Maximum Shear Stress theory 1 12/09/17 1
42 Distortion energy theory 1 13/09/17 1
43 Maximum strain energy Theory 1 16/09/17 1
44 Derivation of Shear Stress Formula 1 18/09/17 1
45 Shear stress distribution across
rectangular section
1 19/09/17 1
46 Shear stress distribution across
circular section
1 23/09/17 1
47 Shear stress distribution across I
section
1 25/09/17 1
48 Shear stress distribution across T
section
1 26/09/17 1
49 Shear stress distribution across
Triangular section
1 27/09/17 1
50 Revision 1 27/09/17 3
51 Test 1 30/09/17 4
Number of classes 16
Unit-V
52 Differential equation of Elastic line 1 02/10/17 1
53 Deflection in statically determinate
beams
1 03/10/17
&
1,5
54 Macaulay’s Method for prismatic
members
2 04/10/17 1
55 Area moment method for stepped
beams with concentrated loads
7/10/17
56 Hoop and longitudinal stress thin
,thick cylinders
2 09/10/17
1
57 Spherical shells changes in dimensions
and volume
10/10/17
58 Problems 2 11/10/17 1
Page 12
57 Test 1 14/10/17 4
Number of classes 10
Content beyond the syllabus:
58
59
Total Number of classes
Delivery Methods (DM):
1.Chalk & Talk 2. ICT Tools 3. Tutorial 4. Assignment/Test/Quiz
5. Laboratory/Field Visit 6. Web based learning.
Course
Instructor
Course
Coordinator
Module
Coordinator HOD
Signature J Naresh
Name of the Faculty
PRINCIPAL
Page 13
1. Pre-requisites: -------
2. Course Educational Objectives (CEOs):
To learn the basic concepts of energy conversions, laws of
thermodynamics, concept of entropy, the properties of different gas
mixtures and pure substances and basic aspects of ideal thermal cycles.
3. Course Outcomes (COs): At the end of the course, the student will be able to :
CO1 : Describe the thermodynamic properties of various systems
CO2 : Apply the laws of thermodynamics to analyze various thermal systems
CO3 : Analyze the entropy change of various processes
CO4 : Analyze the properties of different gas mixtures and pure substances
CO5 : Analyze ideal gas power cycles and refrigeration cycle to estimate various
performance parameters
4. Course Articulation Matrix:
Course
Code
COs Programme Outcomes PSOs
1 2 3 4 5 6 7 8 9 10 11 12 1 2 3
S408
CO1 1 1 2 1 2 1 1 1 1
CO2 1 1 2 1 2 1 1 1 1
CO3 3 1 3 2 3 1 1 1 1
CO4 1 1 2 3 2 1 1 1 1
CO5 2 1 2 1 2 1 1 1 1
3 = Slight (Low) 2 = Moderate (Medium) 1-Substantial(High)
Department: ASE Program: B.Tech
Course: –Thermodynamics (S408)
SEM: III Academic Year: 2017-18
LESSON PLAN
Page 14
4. Course Delivery Plan:
S.No Topic to be Covered No.of Classes
Date DM Schedule Taken
UNIT I
1 Basic Concepts and Definitions: Introduction 1 19-06-2017 1
2
Macroscopic and Microscopic View Point,
Continuum, System, Control Volume,
Properties of System
2 20-07-2017
21-06-2017 1
3 State and Equilibrium, Thermodynamic
Equilibrium 1 22-06-2017 1
4 Tutorial – I 1 27-06-2017 3
5 Process- Quasi static process-Cycle 1 28-06-2017 1
6 Temperature -Temperature scales, Problems 2 29-06-2017
03-07-2017 1
7
Zeroth law of Thermodynamics, energy-forms
of energy, heat, work, Mechanical forms of
work
1 04-07-2017 1
8 Tutorial – II 1 05-07-2017 3
9 Moving boundary of system, Thermodynamic
definition of work, Moving Boundary work 1 06-07-217 1
10 Work done in various non-flow process,
Problems on Pdv Work 2
10-07-2017
11-07-2017 1
11 Problems on Pdv Work, Path and point
function 1 12-07-2017 1
Number of Classes 14
UNIT II
12 First Law of Thermodynamics: introduction 1 13-07-2017 1
13 Energy change of system 1 17-07-2017 1
14 First Law Analysis of closed system 1 18-07-2017 1
15 Energy balance, Internal energy, specific heat,
Enthalpy, PMM-I, Problems 2
19-07-2017
20-07-2017 1
16 Tutorial – III 1 24-07-2017 3
17
First law analysis of control volume-
Conservation of mass, Conservation of energy
principle-flow work.
1 25-07-2017 1
18 Total energy of flowing fluid, the steady flow
process, Steady flow energy equation 2
26-07-2017
26-07-2017 1
19 Steady flow engineering devices- Nozzle,
Turbine, compressor, Heat Exchanger 2
27-07-2017
31-07-2017 1
20 Problems on Steady Flow Devices- Tutorial IV 3 01-08-2017
02-08-2017
03-08-2017
1,3
Number of Classes 14
First Mid Examinations 07-08-2017 to 12-08-2017
UNIT III
21 Second law of thermodynamics :Introduction 1 14-08-2017 1
22
Thermal energy reservoirs, heat engines Kelvin-
Planks, clausius statement of second law of
thermodynamics, Refrigerator, heat pumps,
2 16-08-2017
17-08-2017 1
23
Equivalence of kelvin-plank and clausius
statements, Perpetual motion machines,
reversible and irreversible process
1 21-08-2017 1
24 Tutorial – V 1 22-08-2017 3
25
Carnot cycle, Carnot principles, Corollary of
Carnot Theorem, Absolute Thermodynamic
Temperature Scale
1 23-08-2017 1
26 Problems 2 24-08-2017
28-08-2017 1
Page 15
27 Entropy: Introduction, Clausius inequality,
property diagrams 1 29-08-2017 1
28 Max well Relation, entropy change for ideal
gases 1
30-08-2017
31-08-2017 1
29 Tutorial - VI 1 04-09-2017 3
30 Isentropic relations for ideal gases 1 05-09-2017 1
31 Principle of increase of entropy 1 06-09-2017 1
32 Problems on Entropy, Third Law of
Thermodynamics 1 07-09-2017 1
Number of Classes 14
UNIT IV
36 Non reactive gas mixtures-Introduction, 1 11-09-2017 1
37
Mass fraction, mole fraction, Daltons law of
additive pressures, Amagat’s law of additive
volumes
1 12-09-2017 1
38 Ideal gas mixture, problems on Gas Mixtures 1 13-09-2017
1
39 Tutorial - VII 1 14-09-2017 3
40
Pure substance: Introduction, phase of pure
substance, Phase change processes, property
diagrams
1 18-09-2017 1
41 P-V-T surface, property tables, h-s Diagram or
Mollier Diagram for pure Substance 1 19-09-2017 1
42 Tutorial - VIII 1 20-09-2017 1
43 Problems on Pure Substances 1 21-09-2017 1
Number of Classes 8
UNIT V
47 Gas power cycles-Introduction, 1 25-09-2017 1
48 Analysis of power cycles- Carnot, Otto 1 26-09-2017 1
49 Analysis of Diesel, Dual 1 27-09-2017 1
50 Analysis of Brayton Cycle, Tutorial - IX 1 28-09-2017 1,3
51 Problems 1 03-10-2017 1
52 Vapour power cycles: Analysis of Carnot
vapor cycle, Simple Rankine cycle 1 04-10-2017 1
53 Tutorial - X 1 05-10-2017 3
54 Refrigeration cycles: Reversed carnot cycle,
Bell-Coleman cycle, 1 09-10-2017 1
55 Simple vapor compression cycle, Problems 2 11-09-2017
12-09-2017 1
Number of Classes 10
Total Number Classes 60
Delivery Methods (DM):
1.Chalk & Talk 2. ICT Tools 3. Tutorial 4. Assignment/Test/Quiz
5. Laboratory/Field Visit 6. Web based learning.
Course
Instructor
Course
Coordinator
Module
Coordinator HOD
Signature
Name of the Faculty
PRINCIPAL
Page 16
LAKKIREDDY BALI REDDY COLLEGE OF ENGINEERING DEPARTMENT OF AEROSPACE ENGINEERING
(Autonomous & Affiliated to JNTUK, Kakinada & Approved by AICTE, New Delhi,
NAAC Accredited with ‘A’ grade, Accredited by NBA, Certified by ISO 9001:2015) L B Reddy Nagar, Mylavaram-521 230, Krishna District, Andhra Pradesh.
COURSE HANDOUT
PROGRAM : B.Tech., III-Sem., ASE
ACADEMIC YEAR : 2017-18
COURSE NAME & CODE : Environmental Studies - S 243
L-T-P STRUCTURE : 2-0-0
COURSE CREDITS : 0
COURSE INSTRUCTOR : Dr.Shaheda Niloufer, Sr. Assistant Professor
COURSE COORDINATOR : Dr.Shaheda Niloufer, Sr. Assistant Professor
COURSE OBJECTIVE: To provide a general background on developing an
understanding of systems and cycles on the earth and how individual organisms live
together in complex communities.
To enable the students in understanding how human activities influence our air,
water and soil and it also helps in developing a right attitude about our use of fossil fuels
and effect on climate and sustainable management of natural resources.
COURSE ARTICULATION MATRIX(Correlation between COs&POs,PSOs):
CO Statement
At the end of the course, student will be able to
PO
1
PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 PO
11 PO
12 PSO
1 PSO
2 PSO
3
1 Evaluate local, regional and global environmental issues
related to resources and their
sustainable management
2 2 2 2
2 Realize the importance of ecosystem and biodiversity for
maintaining ecological
balance
2 2 2 2
3 Identify environmental
problems arising due to engineering and technological
activities that help to be the part of sustainable solutions
2 2 3 3 3 2
4 Create awareness on sustainable population growth and know the contributions of Information Technology in environmental management
2 2 3 3 2
Note: Enter Correlation Levels 1 or 2 or 3. If there is no correlation, put ‘-’
1- Slight(Low), 2 - Moderate(Medium), 3 - Substantial (High).
BOS APPROVED TEXT BOOKS:
1 P.N.Palanisamy et al., “Environmental Science” 2nd edition, Dorling Kindersley
publishers.
2 R. Rajagopalan, “Environmental Studies (From Crisis to Cure)”, Oxford University
Press.
Page 17
BOS APPROVED REFERENCE BOOKS:
1 M. Anji Reddy, “Textbook of Environmental Sciences and Technology” by BS
Publications, 2011 Second Edition.
2 Erach Bharucha, “Textbook of Environmental Studies for Undergraduate Courses”, by University Grants Commission, University Press (India) Private Limited, 2005.
COURSE DELIVERY PLAN (LESSON PLAN): Section-A
UNIT-I : Natural Resources
S.No. Topics to be covered
No. of
Classes
Required
Tentative
Date of
Completion
Actual
Date of
Completion
Teaching
Learning
Methods
HOD
Sign
Weekly
1.
Introduction to syllabus, Def of
Environmental studies, Scope &
Importance of environmental studies.
Need for public awareness.
1 22.06.17 TLM1
2. Natural Resource classification & Forest
resources 1 24.06.17 TLM1
3. Water Resources 1 29.06.17 TLM1
4. Mineral Resources 1 1.07.17 TLM1
5. Food Resources 1 6.07.17 TLM1
6. TUTORIAL-1 1 8.06.17 TLM3
7. Energy Resources 1 13.07.17 TLM1
No. of classes required to complete UNIT-I 7 No. of classes taken:
UNIT-II : Ecosystems & Biodiversity and its conservation
S.No. Topics to be covered
No. of
Classes
Required
Tentative
Date of
Completion
Actual
Date of
Completion
Teaching
Learning
Methods
HOD
Sign
Weekly
8. Introduction to UNIT-II Structure and
functions of ecosystems 1 15.07.17 TLM1
9. Ecological succession, Food chains
and Food web, Ecological Pyramids 1 20.07.17
TLM1
10. Bio-geochemical cycles 1 22.07.17
TLM1
TLM2
11. TUTORIAL-2 1 27.07.17 TLM3
12. Biodiversity and levels of measuring
biodiversity 1 29.07.17
TLM1
13.
Bio-geographic classification of India,
Values, Hot spots 1 3.08.17
TLM1
TLM2
14.
Threats and conservation of
biodiversity 1 5.08.17
TLM1
No. of classes required to complete UNIT-II 7 No. of classes taken:
UNIT-III : Environmental Pollution
S.No. Topics to be covered
No. of
Classes
Required
Tentative
Date of
Completion
Actual
Date of
Completion
Teaching
Learning
Methods
HOD
Sign
Weekly
15. Air pollution 1 17.08.17 TLM1
16. Water pollution 1 19.08.17 TLM1
Page 18
17. Soil pollution & Noise pollution 1 24.08.17 TLM1
18. Radioactive pollution(Tutorial 3) 1 26.08.17
TLM1
TLM3
19. Solid waste management 1 31.08.17 TLM1
20. Disaster management 1 2.09.17 TLM1
No. of classes required to complete UNIT-III 6 No. of classes taken:
UNIT-IV : Social Issues and the Environment
S.No. Topics to be covered
No. of
Classes
Required
Tentative
Date of
Completion
Actual
Date of
Completion
Teaching
Learning
Methods
HOD
Sign
Weekly
21. From unsustainable to sustainable
development 1 7.09.17
TLM1
22. Environmental and human health
Resettlement and rehabilitation 1 9.09.17
TLM1
23. Climate change: Global warming &
Acid rains 1 14.09.17
TLM1
24. Ozone depletion & Nuclear accidents
and holocaust 1 16.09.17
TLM1
25. Consumerism and waste products 1 21.09.17 TLM1
26. Tutorial 4 1 23.09.17 TLM3
No. of classes required to complete UNIT-IV 6 No. of classes taken:
UNIT-V : Human Population and Environment
S.No. Topics to be covered
No. of
Classes
Required
Tentative
Date of
Completion
Actual
Date of
Completion
Teaching
Learning
Methods
HOD
Sign
Weekly
27. Population growth and variations
among nations, population explosion 1 28.09.17
TLM1
28. Family welfare programs
Women and child welfare programs 1 5.10.17
TLM1
29. Human rights and value education,
HIV/AIDS (Tutorial 5) 1 7.10.17
TLM1
TLM3
30. Role of IT in Environmental
management and human health 1 12.10.17
TLM1
31. Environmental Law 1 14.10.17 TLM1
No. of classes required to complete UNIT-V 5 No. of classes taken:
Contents beyond the Syllabus
S.No. Topics to be covered
No. of
Classes
Required
Tentative
Date of
Completion
Actual
Date of
Completion
Teaching
Learning
Methods
HOD
Sign
Weekly
32. Case studies on Environmental
Pollution 1 14.10.17 TLM9
33.
Page 19
Teaching Learning Methods
TLM1 Chalk and Talk TLM4 Problem Solving TLM7 Seminars or GD
TLM2 PPT TLM5 Programming TLM8 Lab Demo
TLM3 Tutorial TLM6 Assignment or Quiz TLM9 Case Study
ACADEMIC CALENDAR:
Description From To Weeks
I Phase of Instructions-1 19-06-2017 05-08-2017 7 W
I Mid Examinations 07-08-2017 12-08-2017 1 W
II Phase of Instructions 16-08-2017 14-10-2017 9 W
II Mid Examinations 16-10-2017 21-10-2017 1 W
Preparation and Practicals 23-10-2017 02-11-2017 2 W
Semester End Examinations 03-11-2017 18-11-2017 2 W
EVALUATION PROCESS:
Evaluation Task COs Marks
Assignment/Quiz – 1 1 A1=5
Assignment/Quiz – 2 2 A2=5
I-Mid Examination 1,2 B1=20
Assignment/Quiz – 3 3 A3=5
Assignment/Quiz – 4 4 A4=5
Assignment/Quiz – 5 5 A5=5
II-Mid Examination 3,4,5 B2=20
Evaluation of Assignment/Quiz Marks: A=(A1+A2+A3+A4+A5)/5 1,2,3,4,5 A=5
Evaluation of Mid Marks: B=75% of Max(B1,B2)+25% of Min(B1,B2) 1,2,3,4,5 B=20
Cumulative Internal Examination : A+B 1,2,3,4,5 A+B=25
Semester End Examinations 1,2,3,4,5 C=75
Total Marks: A+B+C 1,2,3,4,5 100
Dr. Shaheda Niloufer Dr. Shaheda Niloufer Dr. Shaheda Niloufer
Course Instructor Course Coordinator Module Coordinator BOS Chairman&HOD
Page 20
LESSON PLAN
Course Code& Course Name: BASIC ELETRICAL ENGINEERING (S143) SEM: III Programme: B.Tech , II Year Department: ASE Name of Faculty: T.NAGADURGA
Course Objectives:
The objective of this course is to introduce the electrical circuits, and provide
knowledge and skills needed to calculate efficiency of different machines, and also prepare the
students to understand the working principles of different electrical and electronic measuring
instruments.
Course outcomes:
After completion of the course students will be able to:
CO1. Analyse different types of electrical circuits.
CO2. Identify a suitable dc machine for particular application.
CO3. Use the techniques to measure efficiency and regulation of AC Machines.
CO4. Understand the working of electrical measuring instruments.
Prerequisites:
Electricity, Magnetism,Dynamo
S No. Tentative
Date Topics to be covered Actual Date
Num.
of
classes
Content
Delivery
Methods
UNIT I: ELECTRICAL CIRCUIT
FUNDAMENTALS
1. 20-6-2016
Electric power system & introduction
to syllabus 1 DM1
2. 21-6-16
Basic definitions of Electrical circuits 1 DM1
3. 22-6-16
Types of elements and Examples 1 DM1
4. 23-6-16
Resistive networks(series and parallel) 1 DM1
5. 24-6-16
Ohm’s law and Kirchhoff’s laws
Tutorial 1
1 DM2
6. 27-6-16
Problems on Ohm’s and Kirchhoff’s
laws 1 DM1
7. 28-6-16
Inductance and capacitance 1 DM1
8. 29-6-16
Inductive & capacitive networks 1 DM1
Page 21
S No. Tentative
Date Topics to be covered Actual Date
Num.
of
classes
Content
Delivery
Methods
(series and parallel problems)
9. 30-6-16
Star<->delta transformations 1 DM1
10. 1-7-16
Delta-srtar transformation 1 DM1
11. 4-7-16
Problems on Star<->delta
transformations: Tutorial 2 1 DM2
12. 5-7-16
Problems on delta-star transformation:
Tutorial 3 1 DM2
13. 7-7-16
Source Transformation 1 DM1
14. 8-7-16
Test on Unit -I 1 DM4
UNIT II: DC MACHINES
15. 11-7-16
Basic laws of DC machine 1 DM1
16. 12-7-16
Principle of operation of DC
Generator 1 DM1
17. 13-7-16
Construction of DC Generator 1 DM2
18. 14-7-16
Construction of DC Generator 1 DM1
19. 15-7-16
Action of commutator 1 DM1
20. 18-7-16
EMF Equation of DC Generator 1 DM1
21. 19-7-16
Tutorial 4 1 DM2
22. 20-7-16
Types of DC Generators 1 DM1
23. 21-7-16
Losses in DC Machine: 1 DM1
24. 22-7-16
Tutorial 5 1 DM2
25. 25-7-16
Problems on losses and of dc
generators 1 DM1
26. 26-7-16
Magnetization and load
Characteristics Of DC Generators
1 DM1
27. 27-7-16
Characteristics of series Generator 1 DM1
28. 28-7-16
Characteristics of shunt Generator 1 DM1
29. 29-7-16
Characteristics of compound
Generator: Tutorial 6 1 DM2
30. 1-8-16
Principle of operation of DC Motor 1 DM1
31. 2-8-16
Significance of Back EMF
&Voltage equation of DC Motor
1 DM1
Page 22
S No. Tentative
Date Topics to be covered Actual Date
Num.
of
classes
Content
Delivery
Methods
32. 3-8-16
Losses and efficiency 1 DM1
33. 4-8-16
Problems on DC motors, Necessity of
3-Point starter 1 DM1
34. 5-8-16
Tutorial 7:Test on Unit –II 1 DM4
MID-I
UNIT III: AC FUNDAMENTALS
& TRANSFORMERS
35. 16-8-16
Generation of sinusoidal alternating
voltage 1 DM1
36. 17-8-16
Important AC Terminology, phase and
phase difference 1 DM1
37. 18-8-16
Peak, Average, RMS, Instantaneous,
Peak factor, Form factor 1 DM1
38. 19-8-16
Problems on single phase AC circuits 1 DM1
39. 22-8-16
Concept of reactance: 1 DM1
40. 23-8-16
Tutorial 8 1 DM2
41. 24-8-16
Concept of impedance 1 DM1
42. 26-8-16
Power factor, Real, Reactive, apparent
power 1 DM1
43. 29-8-16
Concept of susceptance, Admittance 1 DM1
44. 30-8-16
Principle of operation of Single phase
Transformer 1 DM1
45. 31-8-16
Ideal Transformer: 1 DM1
46. 1-9-16
Tutorial 9 1 DM2
47. 2-9-16
Emf equation of Transformer 1 DM1
48. 6-9-16
Practical transformer 1 DM1
49. 7-9-16
Problems on EMF equation of
transformer 1 DM1
50. 8-9-16
Equivalent circuit of transformer 1 DM1
51. 9-9-16
Regulation of transformer 1 DM1
52. 13-9-16
Tutorial 10 1 DM2
53. 14-9-16
Open circuit and Short circuit tests 1 DM1
54. 15-9-16
Losses and efficiency 1 DM1
Page 23
S No. Tentative
Date Topics to be covered Actual Date
Num.
of
classes
Content
Delivery
Methods
55. 16-9-16
Problems on regulation 1 DM1
56. 19-9-16
Test on Unit –III 1 DM4
UNIT IV: AC MACHINES
57. 20-9-16
Principle of Operation of alternator:
Tutorial 11 1 DM2
58. 21-9-16
Salient pole type rotor 1 DM1
59. 22-9-16
Non-salient pole type rotor 1 DM1
60. 23-9-16
Principle of operation of alternator on
load and under no-load 1 DM1
61. 26-9-16
Determination of voltage regulation
by synchronous impedance method 1 DM1
62. 27-9-16
Problems on voltage regulation of
alternator: 1 DM1
63. 28-9-16
Tutorial 12 1 DM2
64. 29-9-16
Principle of Operation of Induction
motor 1 DM1
65. 30-9-16
Slip ring and squirrel cage motors 1 DM1
66. 3-10-16
Problems on 3-phase induction motors 1 DM1
67. 4-10-16
Slip-Torque Characteristics of IM 1 DM1
68. 5-10-16
Tutorial 13 1 DM2
69. 6-10-16
Test on Unit –IV 1 DM4
UNIT V: ELECTRICAL
MEASURIMG INSTRUMENTS
70. 7-10-16
Classification of Electrical measuring
Instruments 1 DM1
71. 17-10-16
Principle of operation and essentials
of indicating instruments DM1
72. 18-10-16
Controlling torque 1 DM1
73. 19-10-16
Deflecting torque 1 DM1
74. 20-10-16
Working and construction of
Permanent magnet moving coil
instruments: Tutorial 14
1 DM2
75. 21-10-16
Extension of range of PMMC
instruments 1 DM1
76. 24-10-16
Working and construction of
Dynamometer type instruments 1 DM1
77. 25-10-16
Working and construction of
attraction type moving iron 1 DM1
Page 24
S No. Tentative
Date Topics to be covered Actual Date
Num.
of
classes
Content
Delivery
Methods
instruments
78. 26-10-16
Working and construction of repulsion
type moving iron instruments 1 DM1
79. 27-10-16
Extending range of MI instruments 1 DM1
80. 28-10-16
Tutorial 15 1 DM2
81. 31-10-16
Problems on PMMC and MI
instruments 1 DM1
82. 1-11-16
Test on Unit –V 1 DM4
83. 2-11-16
Revision 1 DM1
NOTE: DELIVERY METHODS:
DM1: Lecture interspersed with discussions/BB
DM2: Tutorial
DM3: Lecture with a quiz
DM4: Assignment/Test
DM5: Demonstration (laboratory, field visit)
DM6: Presentations/PPT
Signature
Name of the Faculty
Name of Course Coordinator
Name of Module Co-ordinator
HOD
Head of the Department