Lovely Professional University, Punjab
Lovely Professional University, Punjab
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Course Category
Course Category
Courses with Numerical focus
Courses with Numerical focus
TextBooks TextBooks S
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Week Week Number Number Lecture Lecture Number Number B
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REvision of torsion from REvision of torsion from Mechanics of Solids Mechanics of Solids
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REEvviissiioonn IImmaaggee
Detailed Plan For Lectures
Detailed Plan For Lectures
LTP week distribution: (LTP Weeks) LTP week distribution: (LTP Weeks) Weeks before MTE
Weeks before MTE 77
Weeks After MTE
Weeks After MTE 66
Spill Over
Week 1 Lecture 2 Torsion(Review of Basics) T-1:Ch- 6/Sec-6.1-6.2
&amp ;amp; 6.8
REvision of torsion from Mechanics of Solids
REvision Image
Lecture 3 Torsion(Review of Basics) T-1:Ch- 6/Sec-6.1-6.2
&amp ;amp; 6.8
REvision of torsion from Mechanics of Solids
REvision Image
Lecture 4 Torsion(Review of Basics) T-1:Ch- 6/Sec-6.1-6.2
&amp ;amp; 6.8
REvision of torsion from Mechanics of Solids
REvision Image
Week2 Lecture5 Test1
Lecture 6 Torsion(Shearing stress and deformations in inelastic range)
T-1:Ch- 6/Sec-6.13 Derivation introduction to inelastic range
Slide Show
Torsion(Thin walled hollow members)
T-1:Ch- 6/Sec-6.16 Derivation introduction to thin walled hollow member
Slide Show
Lecture 7 Torsion(Shaft couplings) T-1:Ch- 6/Sec-6.12 Derivation use of shaft coupling
Torsion(Torsion of non-circular members)
T-1:Ch- 6/Sec-6.14 Derivation application of torsion to members which are not circular in nature Lecture 8 Torsion(Torsion of non-circular
members)
T-1:Ch- 6/Sec-6.14 Derivation application of torsion to members which are not circular in nature Wee k 3 Lecture 10 Pre ssure Vesse l(Thick- Wa lle d
Pressure vessels)
T-1:Ch- 5/Sec-5.11 Derivation Introduction to pressure vessel
Slide Show
Lecture 11 Pressure Vessel(Thick-Walled Pressure vessel Solution to General Problem Static Equilibrium)
T-1:Ch- 5/Sec-5.12 Derivation Introduction to pressure vessel
Lecture 12 Pressure Vessel(Thick-Walled Pressure vessel Solution to General Problem Static Equilibrium)
T-1:Ch- 5/Sec-5.12 Derivation Introduction to pressure vessel
Lecture 9 Pressure Vessel(Thin walled pressure Vessels)
T-1:Ch- 5/Sec-5.9 Derivation Introduction to pressure vessel
Slide Show
Week 4 Lecture 13 Pressure Vessel(Geometric Compatibility and Properties of Material)
T-1:Ch- 5/Sec-5.13 Derivation Introduction to pressure vessel
Lecture 14 Thick Walled Pressure Vessel (Remarks on thin disc problem)
R-3:Ch 11/Sec-11.7 Derivation stress and strain analysis in rotating disc Lecture 15 Thick Walled Pressure Vessel
(Special Cases of thick vessels)
T-1:Ch- 5/Sec-5.13 only internal pressure cases
Week 4 Lecture 16 Thick Walled Pressure Vessel (Thick-Walled Pressure vessel Solution to General Problem (differential equation and its solution))
T-1:Ch- 5/Sec-5.12 Introduction to pressure
vessel
Week 5 Lecture 17 Bending of Beams(Review) T-1:Ch- 8/Sec-8.1-8.5
revision of concepts of bending of beams
Lecture 18 Bending of Beams(Review) T-1:Ch- 8/Sec-8.1-8.5
revision of concepts of bending of beams
Lecture 19 Bending of Beams(Review) T-1:Ch- 8/Sec-8.1-8.5
revision of concepts of bending of beams
Lecture20 Test2
Wee k 6 Lecture 21 Bending of Be ams (Elas tic strain energy in pure bending)
T-1:Ch- 8/Sec-8.7 Derivation use of energy equation in beams
Lecture 22 Bending of Beams(Elastic strain energy in pure bending)
T-1:Ch- 8/Sec-8.7 Derivation use of energy equation in beams
Lecture 23 Bending of Beams(Elastic strain energy in pure bending)
T-1:Ch- 8/Sec-8.7 Derivation use of energy equation in beams
Bending of Beams continue (Inelastic bending of beams)
T-1:Ch- 8/Sec-8.8 application of equation
for beams in inelastic region
Lecture 24 Bending of Beams continue (Inelastic bending of beams)
T-1:Ch- 8/Sec-8.8 application of equation
for beams in inelastic region
Wee k 7 Lecture 25 Bending of Be ams continue(Beams of two material)
T-1:Ch- 8/Sec-8.9 derivation how to solve the problem of composites beams
Slide Show
Lecture 26 Bending of Beams continue(Beams of two material)
T-1:Ch- 8/Sec-8.9 derivation how to solve the problem of composites beams
Slide Show
Lecture 27 Bending of Beams continue (Curved Beams)
T-1:Ch- 8/Sec-8.10 conceptual
understanding of curved beams and its
comparison with straight beams
Slide Show
Lecture 28 Bending of Beams continue (Curved Beams)
T-1:Ch- 8/Sec-8.10 conceptual
understanding of curved beams and its
comparison with straight beams
Slide Show
MID-TERM
Week 8 Lecture 29 Shearing Stress in Beam (Introduction)
T-1:Ch- 10/Sec-10.1-10.2
revision of shear stress in beams
Wee k 8 Lecture 29 Shearing Stress in Bea m(Shea r flow)
T-1:Ch- 10/Sec-10.3 concept of shear flow Slide Show
Lecture 30 Shearing Stress in Beam(The shearing stress formula for Beams)
T-1:Ch- 10/Sec-10.4 Derivation
Shearing Stress in Beam(Warpage of plane sections due to shear)
T-1:Ch- 10/Sec-10.5 Introduction to warpage
phenomenon Lecture 31 Shearing Stress in Beam
(Limitations of the shearing stress)
T-1:Ch- 10/Sec-10.6 drawbacks of shearing
stress formula Shearing Stress in Beam(Shear
stress in beam flanges)
T-1:Ch- 10/Sec-10.7 shearing stress in
flanges Lecture 32 Shearing Stress in Beam(Shear
centre)
T-1:Ch- 10/Sec-10.8 Concept of shear centre
Shearing Stress in Beam (Combined direct and torsional shear stress)
T-1:Ch- 10/Sec-10.9 application of direct
and indirect stress
Slide Show
Wee k 9 Lecture 33 Spring(Stresse s in close ly coiled Helical Springs)
T-1:Ch-10/Sec-10.10
Derivation Stress in spring
Spring(Deflection of Closely Coiled Helical Springs)
T-1:Ch-10/Sec-10.11
Derivation Strain in spring
Lecture34 Test3
Lecture 35 Spring(Yield and Fracture criteria) T-1:Ch- 12/Sec-12.1 Derivation Introduction to failure criteria
Lecture 36 Theories of Failure(Maximum shear stress theory)
T-1:Ch- 12/Sec-12.2 Derivation application of different theories of failure
Slide Show
Wee k 10 Lecture 37 Theorie s of Fa ilure(Maximum distortion energy theory)
T-1:Ch- 12/Sec-12.3 application of different
theories of failure
Slide Show
Theories of Failure(Comparison of maximum shear and distortion energy theories for plane stress)
T-1:Ch- 12/Sec-12.4 application of different
theories of failure
Slide Show
Lecture 38 Theories of Failure(Maximum normal stress theory)
T-1:Ch- 12/Sec-12.5 application of different
theories of failure
Slide Show
Lecture 39 Plate Theory(Bending of thin plates)
R-3:Ch13/Sec-13.1 Derivation analysis of plates under forces
Lecture 40 Plate Theory(Assumptions of plate theory)
R-3:Ch13/Sec-13.1 analysis of plates under
forces
Slide Show
Week 11 Lecture 41 Plate Theory(GDE for deflection of plates)
R-3:Ch13/Sec-13.4 R-5:Ch 8/Sec 8.3.1
Derivation analysis of plates under forces
Slide Show
Lecture 42 Plate Theory(Boundary conditions) R-3:Ch13/Sec-13.7 Derivation analysis of plates under forces
Slide Show
Lecture 43 Plate Theory(Solutions for rectangular plates)
R-3:Ch13/Sec-13.8 Derivation analysis of plates under forces
Week 11 Lecture 44 Plate Theory(Navier's and Levy's solutions)
R-3:Ch13/Sec-13.8 Derivation analysis of plates under forces
Plate Theory(Solutions for rectangular plates)
R-3:Ch13/Sec-13.8 Derivation analysis of plates under forces
Week 12 Lecture 45 Plate Theory(Circular plates) R-3:Ch13/Sec-13.9 Derivation analysis of plates under forces
Lecture 46 Plate Theory(Membrane theory of shells of revolution and cylindrical shells)
R-5:Ch8/Sec-8.4 Introduction to shell
theory
Lecture 47 The Energy Methods(Introduction) T-1:Ch- 17/Sec-17.1 Derivation energy within the material under different conditions
The Energy Methods(Elastic Strain energy for uniaxial stress)
T-1:Ch- 17/Sec-17.2 Derivation energy within the material under different conditions
Slide Show
The Energy Methods(Elastic Strain energy)
T-1:Ch- 17/Sec-17.2 Derivation energy within the material under different conditions
Slide Show
The Energy Methods(Elastic strain energy in pure bending)
T-1:Ch- 17/Sec-17.2 Derivation energy within the material under different conditions
The Energy Methods(Elastic strain energy for Shearing Stresses)
T-1:Ch- 17/Sec-17.2 energy within the
material under different conditions
Lecture 48 The Energy Methods
(Displacements by conservation of Energy)
T-1:Ch- 17/Sec-17.3 use of energy methods
to solve problem
Week 13 Lecture 49 The Energy Methods(Virtual work Principle)
T-1:Ch- 17/Sec-17.4 use of energy methods
to solve problem The Energy Methods(Virtual work
method)
T-1:Ch- 17/Sec-17.4 use of energy methods
to solve problem Lecture 50 The Energy Methods(Virtual work
method for deflections)
T-1:Ch- 17/Sec-17.5 use of energy methods
to solve problem
Slide Show
The Energy Methods(Virtual work equations for elastic systems)
T-1:Ch- 17/Sec-17.6 use of energy methods
to solve problem
Slide Show
Lecture 51 The Energy Methods(Virtual displacements for equilibrium)
T-1:Ch- 17/Sec-17.8 use of energy methods
to solve problem
Slide Show
Lecture 52 The Energy Methods(Virtual displacements for equilibrium)
T-1:Ch- 17/Sec-17.8 use of energy methods
to solve problem
Slide Show
SPILL OVER
Week 14 Lecture 53 R-5:Ch8/Sec-8.4 Membrane theory of
shells of revolution and cylindrical shells More insight
Scheme for CA:
Component Frequency Out Of Each Marks Total Marks
Test 2 3 10 20
Total :- 10 20
Details of Academic Task(s)
AT No. Objective Topic of the Academic Task Nature of Academic Task (group/individuals/field
work
Evaluation Mode Allottment / submission Week
Test 1 To do the revision of basic required for Advanced level
A set of problems are to be given in order to do the revision of solid mechanics course which is a prerequisite of the course. This will almost cover the entire syllabus
Individual marks scored 2 / 3
Test 2 To test analytical skill
Numerical test based on topic covered so far i.e Torsion,Pressure Vessel,Bending of beams
Individual marks scored 5 / 5
Test 3 To test analytical skill
Numerical test based on topic covered so far i.e Spring , Failure Theory , Columns
Individual marks scored 9 / 9
Plan for Tutorial: (Please do not use these time slots for syllabus coverage)
Tutorial No. Lecture Topic Type of pedagogical tool(s) planned
(case analysis,problem solving test,role play,business game etc)
Tutorial 1 Torsion Problem solving Tutorial 2 Thin walled hollow members,Shearing stress and
deformations in inelastic range
Problem solving
Tutorial 3 Numerical on Thin- Walled Pressure vessels Problem solving Tutorial 4 Numerical on Thin- Walled Pressure vesselscontinue Problem solving Tutorial 5 Numerical on Thick- Walled Pressure vessels Problem solving Tutorial 6 Numerical on Thick- Walled Pressure vessels continue Problem solving Tutorial 7 Bending Of Beams Problem solving
After Mid-Term
Tutorial 8 Shearing Stress in Beam Problem solving Tutorial9 Spring Problemsolving Tutorial 10 Theories of Failure Problem solving
Tutorial 12 Plate Theory continue Problem solving Tutorial 13 The Energy Methods Problem solving