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Descripción: Introduction to Solid Mechanics by Irving Shames and James PItrarresi 3rd Edition
Descripción: Solid Mechanics, Y C Fung, Theory of Elasticity
Solution ch 1 crandall solid mechanics
Introduction to Solid Mechanics by Irving Shames and James PItrarresi 3rd Edition
Solid Mechanics, Y C Fung, Theory of ElasticityFull description
Introduction to Solid Mechanics by Irving Shames and James PItrarresi 3rd Edition
Band Theory of SolidFull description
Band theory of solid
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Intermediate Mechanics of Materials is designed for the second course in mechanics of materials. In the first course, the students are introduced to mechanics of materials variables, the rel…Full description
solutions
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Lovely Professional University, Punjab Course Code
Course Title
Course Planner
Lectures
MEC204
ADVANCED MECHANICS OF SOLIDS
13412::Aditya Veer Gautam
Course Category
Courses with Numerical focus
Tutorials Practicals Credits
4.0
1.0
0.0
TextBooks Sr No
Title
Author
Edition
T-1
Engineering Mechanics of solids
E.P. Popov
2nd
Year
Publisher Name Pearson
Reference Books Sr No
Title
Author
Edition
R-1
Mechanics of Materials
R.C. Hibbeler
8th
R-2
Mechanics of solids
Beer & Johnson
6th
R-3
Advanced Mechanics of Materials
Boresi, A.P., and Sidebottom O.M
5th
R-4
Advanced Mechanics of Materials
Srinath, L.S
3rd
R-5
Advanced Mechanics of Solid
Otto T Bruhns
1st
Year
Publisher Name Prentice Hall
2012
Tata McGraw Hill John Wiley & Sons
2008
Tata McGraw Hill Springer
LTP week distribution: (LTP Weeks) Weeks before MTE
7
Weeks After MTE
6
Spill Over
2
Detailed Plan For Lectures Week Number
Lecture Number
Broad Topic(Sub Topic)
Chapters/Sections of Text/reference Text/reference books
Week 1
Lecture 1
Torsion(Review of Basics)
T-1:Ch- 6/Sec-6.16.2 & ;amp; 6.8
Other Readings, Relevant Websites, Audio Visual Aids, software and Virtual Labs
Lect Lectur uree Desc Descri ript ptio ion n
Lear Learni ning ng Outc Outcom omes es
REvision of torsion from REvision Mechanics of Solids
Peda Pedago gogi gica call Too Tooll Demonstration/ Case Study / Images / animation / ppt etc. Planned Image
5.0
Week 1
Week 2
Lecture 2
Torsion(Review of Basics)
T-1:Ch- 6/Sec-6.16.2 & ;amp; 6.8
REvision of torsion from REvision Mechanics of Solids
Image
Lecture 3
Torsion(Review of Basics)
T-1:Ch- 6/Sec-6.16.2 & ;amp; 6.8
REvision of torsion from REvision Mechanics of Solids
Image
Lecture 4
Torsion(Review of Basics)
T-1:Ch- 6/Sec-6.16.2 & ;amp; 6.8
REvision of torsion from REvision Mechanics of Solids
Image
Lecture 5 Lecture 6
Torsion(Shearing stress and deformations in inelastic range)
T-1:Ch- 6/Sec-6.13
Derivation
introduction to inelastic Slide Show range
Torsion(Thin walled hollow members)
T-1:Ch- 6/Sec-6.16
Derivation
introduction to thin walled hollow member
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
Lecture 10
Pre ssure Vesse l(Thick- Wa lle d Pressure vessels)
T-1:Ch- 5/Sec-5.11
Derivation
Introduction to pressure Slide Show vessel
Lecture 11
Pressure Vessel(Thick-Walled T-1:Ch- 5/Sec-5.12 Pressure vessel Solution to General Problem Static Equilibrium)
Derivation
Introduction to pressure vessel
Lecture 12
Pressure Vessel(Thick-Walled T-1:Ch- 5/Sec-5.12 Pressure vessel Solution to General Problem Static Equilibrium)
Derivation
Introduction to pressure vessel
Lecture 9
Pressure Vessel(Thin walled pressure Vessels)
T-1:Ch- 5/Sec-5.9
Derivation
Introduction to pressure Slide Show vessel
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
Lecture 7
Wee k 3
Week 4
Test 1
Slide Show
Slide Show
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-8.18.5
revision of concepts of bending of beams
Lecture 18
Bending of Beams(Review)
T-1:Ch- 8/Sec-8.18.5
revision of concepts of bending of beams
Lecture 19
Bending of Beams(Review)
T-1:Ch- 8/Sec-8.18.5
revision of concepts of bending of beams
Lecture 20 Wee k 6
Wee k 7
Test 2
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
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 Slide Show understanding of curved beams and its comparison with straight beams
Lecture 28
Bending of Beams continue (Curved Beams)
T-1:Ch- 8/Sec-8.10
conceptual Slide Show understanding of curved beams and its comparison with straight beams
MID-TERM Week 8
Lecture 29
Shearing Stress in Beam (Introduction)
T-1:Ch- 10/Sec-10.110.2
revision of shear stress in beams
Wee k 8
Lecture 29
Shearing Stress in Bea m(Shea r flow)
Lecture 30
Shearing Stress in Beam(The T-1:Ch- 10/Sec-10.4 shearing stress formula for Beams) Shearing Stress in Beam(Warpage of plane sections due to shear)
Lecture 31
Lecture 32
Wee k 9
Lecture 33
T-1:Ch- 10/Sec-10.3
Week 11
Slide Show
Derivation
T-1:Ch- 10/Sec-10.5
Introduction to warpage phenomenon
Shearing Stress in Beam T-1:Ch- 10/Sec-10.6 (Limitations of the shearing stress)
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
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
Spring(Stresse s in close ly coiled Helical Springs)
T-1:Ch10/Sec-10.10
Derivation
Stress in spring
Spring(Deflection of Closely Coiled Helical Springs)
T-1:Ch10/Sec-10.11
Derivation
Strain in spring
Lecture 34
Wee k 10
concept of shear flow
Slide Show
Test 3
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 Slide Show theories of failure
Lecture 37
Theorie s of Fa ilure(Maximum distortion energy theory)
T-1:Ch- 12/Sec-12.3
application of different Slide Show theories of failure
Theories of Failure(Comparison of T-1:Ch- 12/Sec-12.4 maximum shear and distortion energy theories for plane stress)
application of different Slide Show theories of failure
Lecture 38
Theories of Failure(Maximum normal stress theory)
T-1:Ch- 12/Sec-12.5
application of different Slide Show theories of failure
Lecture 39
Plate Theory(Bending of thin plates)
R-3:Ch13/Sec-13.1
Lecture 40
Plate Theory(Assumptions of plate theory)
R-3:Ch13/Sec-13.1
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 Slide Show forces
Lecture 42
Plate Theory(Boundary conditions)
R-3:Ch13/Sec-13.7
Derivation
analysis of plates under Slide Show forces
Lecture 43
Plate Theory(Solutions for rectangular plates)
R-3:Ch13/Sec-13.8
Derivation
analysis of plates under forces
Plate Theory(Navier's and Levy's
R 3 Ch13/S
D i
13 8
Derivation
analysis of plates under forces analysis of plates under Slide Show forces
i
l i
f l
d
Week 11
Week 12
Week 13
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
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)
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 T-1:Ch- 17/Sec-17.2 energy for uniaxial stress)
Derivation
energy within the Slide Show material under different conditions
The Energy Methods(Elastic Strain T-1:Ch- 17/Sec-17.2 energy)
Derivation
energy within the Slide Show material under different conditions
The Energy Methods(Elastic strain T-1:Ch- 17/Sec-17.2 energy in pure bending)
Derivation
energy within the material under different conditions
R-5:Ch8/Sec-8.4
Introduction to shell theory
The Energy Methods(Elastic strain T-1:Ch- 17/Sec-17.2 energy for Shearing Stresses)
energy within the material under different conditions
Lecture 48
The Energy Methods T-1:Ch- 17/Sec-17.3 (Displacements by conservation of Energy)
use of energy methods to solve problem
Lecture 49
The Energy Methods(Virtual work T-1:Ch- 17/Sec-17.4 Principle)
use of energy methods to solve problem
The Energy Methods(Virtual work T-1:Ch- 17/Sec-17.4 method)
use of energy methods to solve problem
The Energy Methods(Virtual work T-1:Ch- 17/Sec-17.5 method for deflections)
use of energy methods to solve problem
Slide Show
The Energy Methods(Virtual work T-1:Ch- 17/Sec-17.6 equations for elastic systems)
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
Lecture 50
SPILL OVER Week 14
Lecture 53
R-5:Ch8/Sec-8.4
Lecture 54
R-3:Ch- 13/Sec-13 8
Membrane theory of shells of revolution and cylindrical shells More insight Naviers and Levys
Scheme for CA: Component
Frequency
Test
Out Of 2
Each Marks Total Marks 3
Total :-
10
20
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 A set of problems are to be given in order to do the revision of Individual basic required for solid mechanics course which is a prerequisite of the course. This Advanced level will almost cover the entire syllabus
marks scored
2/3
Test 2
To test analytical skill
Numerical test based on topic covered so far i.e Torsion,Pressure Individual Vessel,Bending of beams
marks scored
5/5
Test 3
To test analytical skill
Numerical test based on topic covered so far i.e Spring , Failure Theory , Columns
marks scored
9/9
Individual
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