46:36

Spiral Gear Efficiency

43:27

Spiral Gear Velocity Ratio and Center Distance

46:39

Spiral Gears shaft angle

44:32

Helical Gear Numerical

37:44

Helical Gear Force Analysis

38:05

Formative number of teeth on Helical gear/Virtual Spur gear in normal Plane

50:11

Helical Gear Terminology/Nomenclature

34:59

Spur Gear Force Analysis

46:45

Minimum no. of teeth on pinion & wheel to avoid interference, methods to avoid interference

49:31

Minimum number of teeth on rack to avoid interference & numerical on minimum number of teeth

44:56

Interference and undercutting in Involute Gears

45:36

Involute Gear Tooth Action in Spur Gears, Path of contact, arc of contact

47:08

Arc of Contact and contact ratio, Involute Gear tooth action

13:47

Trifilar Suspension System

18:53

Bifilar Suspension System

11:00

Compound Pendulum. Frequency of Oscillations of Compound Pendulum

16:15

Ackerman Steering Gear Mechanism

15:06

Davis Steering Gear Mechanism

08:21

Equation of Correct Steering. Condition of correct steering.Steering gear equation

15:17

Exact and Approximate Straight line Motion Mechanisms

12:44

Inversions of Double Slider Crank Chain/Mechanism

24:46

Inversions of single slider crank Chain/Mechanism

24:37

Inversions of 4 bar chain/Mechanism

29:52

Introduction to Kinematics & Mechanisms:lecture 2

18:25

Introduction to kinematics & Mechanisms: Lecture 1

29:44

Hooke's Joint Analysis

34:06

Degree of freedom of planar mechanisms.Grubler's criterion

33:49

Velocity & Acceleration Analysis of Slider crank mechanism: analytical methods:Lecture 2 (Numerical)

18:38

Complex Algebra method numerical: velocity and acceleration analysis of slider crank mechanism

21:01

Complex algebra and vector algebra methods for velocity and acceleration analysis

14:13

Velocity & Acceleration Analysis of Slider crank mechanism: analytical methods:Lecture 1

29:46

RTO AMVI previous years solutions Mains: Theory of Machines

11:54

Instantaneous Center of Rotation Method (ICR). Problem 3. Lecture 2

13:53

Instantaneous Center of Rotation Method (ICR). Problem 3. Lecture 1

14:52

Coriolis Acceleration.Velocity & acceleration analysis of trunnion joint. Lecture 2

12:42

Coriolis Acceleration. Velocity & acceleration analysis of trunnion joint.Lecture 1

22:06

Coriolis acceleration.Velocity & acceleration analysis of crank & slotted lever mechanism.Lecture 2

16:34

Coriolis acceleration.Velocity and acceleration analysis of crank & slotted lever mechanism.Lecture1

17:06

Coriolis component of acceleration

21:52

Velocity and acceleration analysis of 4 bar mechanism(ternary link). Lect. 02

14:39

Velocity and acceleration analysis of 4 bar mechanism (ternary link). Lect. 1

10:53

Velocity and acceleration analysis of scotch yoke mechanism. Lecture 2

10:31

Velocity and acceleration analysis of scotch Yoke mechanism. Lecture 1

13:08

Velocity and Acceleration Analysis of Slider crank Mechanism. Lecture 2

10:34

Velocity and acceleration analysis of slider crank mechanism using Relative velocity method

17:28

Instantaneous center of rotation.Kinematic Analysis of mechanism using instantaneous center method

28:35

Velocity and acceleration analysis for 4 bar mechanism using Relative velocity and acceleration

14:17

Instantaneous center of rotation for slider crank mechanism.Analysis of slider crank mechanism

22:21

relative velocity and acceleration analysis of Mechanisms: circular motion, vector representation

10:16

Velocity and acceleration analysis of IC engine Mechanism using klein's construction

09:20

Velocity and acceleration analysis of IC engine Mechanism using Klein's construction