7:47
01 Principle Stress Stress transformation
Sunil Mohod
8:33
02 Principle Stress Stress on inclined plane due to normal stress
4:14
03 Principle Stress Stress on inclined plane due to shear stress
9:31
04 Principle Stress Principle stress derivation
9:56
05 Principle Stress expression for Principle stress
7:50
06 Principle Stress Mohr's Circle
9:25
07 Principle Stress Mohr's Circle for standard state of stress
3:03
08 Principle Stress 3D Mohr's Circle
13:29
09 Principle Stress Strain transformation
9:41
01 Shear force and Bending moment Introduction
45:13
02 Shear force and Bending Moment Basic Method
27:06
03 Shear force and Bending Moment Basic Method 2
9:49
04 shear force and bending moment How to draw SFD and BMD
9:33
05 shear force and bending moment simply supported beam
6:59
06 shear force and bending moment Pure Bending
10:45
07 shear force and bending moment UVL on cantilever
6:27
08 shear force and bending moment Overhang beam
12:26
09 shear force and bending moment GATE Numerical
8:07
01 Bending Stress theory part I
10:15
02 Bending Stress Flexure formula
9:04
03 Bending Stress variation
5:56
04 Bending Stress Comparison of section
9:09
05 Bending Stress Bending + axial stress
4:45
06 Bending Stress Simple numerical
8:37
07 Bending Stress level I numerical
10:58
01 Torsion of shaft Introduction
10:29
02 Torsion Torsion formula and application
03 Torsion Numerical
6:08
04 Torsion variable section
30:26
06 Torsion IES GATE Numerical
13:04
05 Torsion combined bending and twisting moment
01 Deflection Introduction
11:00
02 Deflection Area moment Method
29:12
03 Deflection Area Moment method Numerical 1
15:15
04 Deflection Area Moment method Numerical 2
16:54
05 Deflection Area Moment method Numerical 3
8:51
06 Deflection of Cantilever beam
9:53
07 Deflection Simply supported and Cantilever beam
7:27
08 Deflection Numerical I
6:43
09 Deflection Numerical II
8:49
10 Deflection Numerical III
9:03
11 Deflection of Propped Beam
11:38
01 Strain energy Introduction to Strain energy
10:33
02 Strain energy Axially loaded member part 1
6:26
03 Strain energy Axially loaded member Part 2
9:15
04 Strain energy due to shear stress and Torsion
5:11
05 Strain energy shear stress and Torsion Numerical
13:39
06 Strain energy impact loading Part I
7:44
07 Strain energy impact loading Part II
6:41
08 Strain energy due to Bending
5:34
09 Strain energy in beams
9:00
10 Strain energy Castigliano's Theorem Part I
7:19
11 Strain energy Castigliano's Theorem Part II
3:37
12 Strain energy Castigliano's Theorem Part III
6:47
13 Strain energy Impact on Beam
15:32
01 Thin cylinder Types of stresses
3:59
02 Thin cylinder Spherical vessel Derivation
12:38
03 Thin cylinder Hemi Spherical vessel
12:21
04 Thin cylinder Numerical 1
10:04
05 Thin cylinder Numerical 2
11:50
01 Theory of Static Failures Introduction to Theory of Static Failures
4:32
02 Theo of Static Failures Maximum Principle or Normal Stress Theory (Rankine’s Theory)
11:46
03 Theo of Static Failures Maximum Shear Stress Theory (Guest’s or Shear Stress Theory)
04 Theo of Static Failures Maximum Principal Strain Theory (Saint Venant’s Theory)
14:13
05 Theo of Static Failures Distortion energy or Max shear strain Theory
5:54
06 Theo of Static Failures Numerical 1
10:53
07 Theo of Static Failures Numerical 2
8:19
01 Fatigue Failure Theories Variable and mean stress
5:43
02 Fatigue Failure Theories Fluctuating Stress
12:29
03 Fatigue Failure Theories S N diagram
3:51
04 Fatigue Failure Theories S N diagram Numerical
4:31
05 Fatigue Failure Theories Miner's Rule
9:48
06 Fatigue Failure Theories Stress Concentration
8:38
07 Fatigue Failure Theories Notch sensitivity
6:10
08 Fatigue Failure Theories Theory of Failures
6:02
09 Fatigue Failure Theories Theo of Failures Numerical
10:50
01 Column Euler's Critical Load
5:55
02 Column End conditions
8:50
03 Column GATE numerical
7:23
01 Quick revision Stress and strain
6:44
02 Quick revision SFD BMD strain energy
6:31
03 Quick revision Bending stress & Deflection
5:29
04 Quick revision Torsion
12:52
05 Quick revision Dynamic theory of Failures
7:01
Design 03 -Principal stress.avi
17:01
Fatigue Failure
39:40
Shear stress
23:46
Torsion 01 Introduction to Torsion
22:45
Torsion 02 Torsion Theory Part I
19:31
Torsion 03 Torsion Theory Part II
22:50
Torsion 04 Simple Numerical on Torsion Formula
23:44
Torsion 05 Multiple Torque on Shaft Statically Determinate
21:42
Torsion 06 Multiple Torque on Shaft Numerical 1
23:07
Torsion 07 Multiple Torque on Shaft Numerical 2
21:46
Torsion 08 Multiple Torque on Shaft Numerical 3
13:56
Torsion 09 Composite Shaft
12:42
Torsion 10 Composite Shaft Numerical
24:30
Torsion 11 Transmission of Power
19:50
Torsion 12 Torsional Stiffness
18:56
Torsion 13 Comparison of Hollow and Solid Shaft
13:53
Torsion 14 Comparison of Hollow and Solid shaft Numerical
20:07
Torsion 15 Shaft subjected to Variable Torque
21:05
Torsion 16 Shaft subjected to Variable Torque Numerical
19:30
Torsion 17 Angle of Twist Gear and shaft arrangement
23:19
Torsion 18 Angle of Twist Gear and shaft arrangement Numerical
19:03
Torsion 19 Principle and maximum shear stress in combined loading
19:24
Torsion 20 Equivalent Twisting and Bending Moment
19:16
Torsion 21 Equivalent Twisting and Bending Moment Numerical
20:17
Torsion 22 Complex stress and Principle stress
15:40
Torsion 23 Complex stress and Principle stress Numerical
Bending Stress 01 Introduction to Pure Bending | Flexural Stress | Flexural Stress
21:27
Bending Stress 02 Flexure Formula Theory Part I | Bernoulli Euler beam theory | Flexural Stress
21:38
Bending Stress 03 Flexure Formula Theory Part II | Bernoulli Euler beam theory | Flexural Stress
18:15
Bending Stress 04 Flexure Formula Theory Part III | Bernoulli Euler beam theory | Flexural Stress
16:01
Bending Stress 05 Flexural Rigidity and Section Modules | Flexure Formula | Euler beam theory
18:50
Bending Stress 06 Numerical on bending stress in bent plate or wire | Flexural Stress
15:59
Bending Stress 07 Bending stress in beams Numerical 1 | Flexural Stress
24:15
Bending Stress 08 Bending stress in beams Tee Cross section Numerical 2
19:57
Bending Stress 9 Bending stress in beams I Cross section | W cross section | Numerical 3
24:33
Bending Stress 10 Bending stress in beams I Cross section | W cross section | Numerical 4
23:25
Bending Stress 11 Bending stress in beams Rectangular Cross section Numerical 5
21:53
Bending Stress 12 Bending stress in beams Rectangular Cross section Numerical 6
21:12
Bending Stress 13 Bending stress in beams Rectangular Cross section Numerical 7
16:14
Bending Stress 14 Bending stress in beams Triangular Cross section Numerical 8
15:01
Bending Stress 15 Bending stress for Uniformly Varying Load
22:46
Bending Stress 16 Effect of Shape of Beam Section on Stress Induced
17:19
Bending Stress 17 force and moment of resistance for given area
13:03
Bending Stress 18 Force and moment of resistance for given area Numerical
18:03
Bending Stress 19 Longitudinal variation of the bending stress and Uniform strength
18:44
Bending Stress 20 Uniform strengthin Tapered Cantilever beam
19:32
Bending Stress 21 Eccentric axial loading in a plane of symmetry
24:02
Bending Stress 23 Eccentric axial loading in a plane of symmetry Numerical 2
15:45
Shear Stress 01 Introduction to Horizontal Shear Stress
18:55
Shear Stress 02 Derivation for Shear Stress due to bending of a beam
Shear Stress 03 Shear Stress Distribution in Various cross section
19:17
Shear Stress 04 Shear Stress in beams Numerical 1
21:09
Shear Stress 05 Shear Stress in beams Numerical 2
20:34
Shear Stress 06 Shear Stress in beams Numerical 3
18:49
Strain energy 01 Introduction to Strain or Elastic Strain Energy
18:18
Strain energy 02 Strain Energy in Axially Loaded Members
20:50
Strain energy 03 Strain Energy in Axially Loaded Members Numerical 1
17:13
Strain energy 04 Strain Energy in Axially Loaded Members Numerical 2
15:20
Strain energy 05 Strain Energy in Impact Loading Part I
19:33
Strain energy 06 Strain Energy in Impact Loading Part II
17:27
Strain energy 07 Strain Energy in Impact Loading Numerical 1
Strain energy 08 Strain Energy in Impact Loading Numerical 2
18:41
Strain energy 09 Strain Energy due to Shear Stress and Torsion
19:36
Strain energy 10 Strain Energy due to Shear Stress and Torsion Numerical 1
17:58
Strain energy 11 Strain Energy due to Shear Stress and Torsion Numerical 2
17:52
Strain energy 12 Strain Energy due to Bending Stress
18:13
Strain energy 13 Strain Energy due to Bending Stress Numerical 1
16:00
Strain energy 14 Strain Energy due to Bending Stress Numerical 2
10:07
Strain energy 15 Strain Energy due to Bending Stress Numerical 3
14:53
Strain energy 16 Impact loads on beams
12:25
Strain energy 17 Impact loads on beams Numerical
23:05
01 Thin cylindrical pressure vessel Theory Part I | Hoop Stress | Longitudinal stress
15:22
02 Thin cylindrical pressure vessel Theory Part II | Hoop Strain | Longitudinal strain
17:06
03 Thin cylindrical pressure vessel | Theory Part III | Absolute and in plane Shear
20:48
04 Thin cylindrical pressure vessel| Numerical |Hoop Stress | Longitudinal stress
17:15
05 Thin cylindrical pressure vessel | Numerical | Hoop Strain | Longitudinal strain
21:28
06 Thin cylindrical pressure vessel | Numerical 1 | Hoop Strain |Longitudinal strain
07 Thin cylindrical pressure vessel | Numerical 2 | Hoop Strain | Longitudinal strain
17:09
Thin Pressure vessel 08 | Hoop Stress |and Axial stress in Vertical Pipe
20:04
Thin Pressure vessel 09 | Hoop Stress | and |Axial stress |in Vertical Pipe Numerical y
20:03
Thin Pressure vessel 10 | Hoop Stress | and Strain |in thin Spherical pressure Vessel
