Engineering Mechanics
Maharashtra State Board of Technical Education - Mechanical Engineering - SEM II


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  • Lectures
  • 195 Lectures
  • Videos
  • 29.25 Hrs Video

Course Description

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Curriculum

Total Chapters: 6 195 Videos

Chapter No. 1 : Simple Machines

   

What is Definitions of Simple Machines, Compound Machines, Load & Effort in Engineering Machanics

Preview 5.1

What is Definitions of Mechanical Advantage, Velocity Ratio, Input, Output & Efficiency Mechanics

Preview 7.05

What is definition of Ideal Machine, Actual Machine, Ideal Effort, Ideal Load in Mechanics

5.46

What is Definition Law of Machine, Maximum Mechanical Advantage & Maximum Efficiency in Mechanics

4.24

Definition of Reversible & Irreversible Machines, Load Lost in Friction

5.41

Problem no.1 on Load, Effort, Mechanical Advantage, Velocity ratio & Efficiency

3.29

Problem no.2 on Load, Effort, Mechanical Advantage, Velocity ratio & Efficiency

3.17

Problem no.3 on Load, Effort, Mechanical Advantage, Velocity ratio & Efficiency

2.57

Problem no. 4 on Load, Effort, Mechanical Advantage, Velocity ratio & Efficiency

2.47

Problem no.5 on Load, Effort, Mechanical Advantage, Velocity ratio & Efficiency

2.51

Problem on Ideal Effort in Engineering Mechanics

5.16

Problem on Effort Lost in Friction in Engineering Mechanics

4.13

Problem on Effort Lost in Friction & Load Lost in Friction in Engineering Mechanics

7.38

Problem on Maximum Efficiency in Engineering Mechanics

6.18

Problem on Law of Machine in Engineering Mechanism

6.51

Problem on Efficiency in Engineering Mechanics

4.11

Problem no. 1 on Developing Law of Machine in Engineering Mechanics

6.09

Problem no. 2 on Developing Law of Machine in Engineering Mechanics

6.32

What is Simple Axle & Wheel in Engineering Mechanics

3.43

What is Differential Axle & Wheel in Engineering Mechanics

3.3

What is Working and Construction of Simple Screw Jack in Engineering Mechanics

3.12

What is Weston's Differential Pulley Block in Engineering Mechanics

2.21

What is Working of Worm & Worm Wheel in Engineering Mechanics

2.56

What is Single Purchase Winch Crab in Engineering Mechanics

2.4

What is Double Purchase Winch Crab in Engineering Mechanics

3.56

Chapter No. 2 : Forces Systems

   

Resultant of Coplanar Force System Problem no 1

Preview 7.26

Resultant of Coplanar Force System Problem no 2

Preview 4.53

Resultant of Coplanar Force System Problem no 3

3.45

Resultant of Coplanar Force System Problem no 4

5.38

Resultant of Coplanar Force System Problem no 5

4.54

Theory of Rectilinear Motion- Uniform & Uniformly Accelerated Motion

29.1

Problem No. 1 on Rectilinear Motion with Variable Acceleration in Engineering Mechanics

5.17

Problem No. 2 on Rectilinear Motion with Variable Acceleration in Engineering Mechanics

13.27

Problem No. 3 on Rectilinear Motion with Variable Acceleration in Engineering Mechanics .

10.33

Problem No. 4 on Rectilinear Motion with Variable Acceleration in Engineering Mechanics

13.16

Problem No. 5 on Rectilinear Motion with Variable Acceleration in Engineering Mechanics.

6.17

Problem No. 6 on Rectilinear Motion with Variable Acceleration in Engineering Mechanics.

11.1

Problem No. 7 on Rectilinear Motion with Variable Acceleration in Engineering Mechanics

7.16

Problem No. 8 on Rectilinear Motion with Variable Acceleration in Engineering Mechanics

7.09

Problem No. 9 on Rectilinear Motion with Variable Acceleration in Engineering Mechanics

14.19

Problem No. 10 on Rectilinear Motion with Variable Acceleration in mechanics

8.34

Problem No. 11 on Rectilinear Motion with Variable Acceleration in Engineering Mechanics

9.34

Problem No. 12 on Rectilinear Motion with Variable Acceleration in Engineering Mechanics

11.33

Problem No. 13 on Rectilinear Motion with Variable Acceleration in Engineering Mechanics

8.3

Problem No. 14 on Rectilinear Motion with Variable Acceleration in Engineering Mechanics

12.26

Problem No. 1 Based on Projectile Motion in Engineering Mechanics

9.1

Problem No. 2 Based on Projectile Motion in Engineering Mechanics

7.35

Problem No. 3 Based on Projectile Motion in Engineering Mechanics

6.19

Problem No. 4 Based on Projectile Motion in Engineering Mechanics

6.19

Problem No. 5 Based on Projectile Motion in Engineering Mechanics

4.57

Problem No. 6 Based on Projectile Motion in Engineering Mechanics

5.33

Problem No. 7 Based on Projectile Motion in Engineering Mechanics.

9.41

Problem No. 8 Based on Projectile Motion in Engineering Mechanics

3.25

Problem No. 9 Based on Projectile Motion in Engineering Mechanics

7.09

Problem No. 10 Based on Projectile Motion in Engineering Mechanics

8.08

Problem No. 11 Based on Projectile Motion in Engineering Mechanics

9.04

Problem No. 12 Based on Projectile Motion in Engineering Mechanics

13.21

Problem No. 13 Based on Projectile Motion in Engineering Mechanics

11.16

Problem No. 14 Based on Projectile Motion in Engineering Mechanics

14.3

Problem No. 15 Based on Projectile Motion in Engineering Mechanics

4.49

Problem No. 16 Based on Projectile Motion in Engineering Mechanics

6.59

Problem No. 17 Based on Projectile Motion in Engineering Mechanics

10.21

Problem No. 18 Based on Projectile Motion in Engineering Mechanics

17.49

Problem No. 1 Based on Rectilinear Motion in Engineering Mechanics.

26.08

Problem No. 2 Based on Rectilinear Motion in Engineering Mechanics

5.13

Problem No. 3 Based on Rectilinear Motion in Engineering Mechanics

6.29

Problem No. 4 Based on Rectilinear Motion in Engineering Mechanics

10.55

Problem No. 1 Rectilinear Motion - Motion Under Gravity in Engineering Mechanics

5.07

Problem No. 2 Based on Motion Under Gravity in Engineering Mechanics

9.41

Problem No. 3 Based on Motion Under Gravity Engineering Mechanics

8.52

Problem No. 4 Based on Motion Under Gravity Engineering Mechanics

6.22

Problem No. 5 Based on Motion Under Gravity Engineering Mechanics

6.28

Problem No. 6 Based on Motion Under Gravity Engineering Mechanics

14.15

Problem No. 7 Based on Motion Under Gravity Engineering Mechanics

16.45

Problem No. 8 Based on Motion Under Gravity Engineering Mechanics

10.54

Problem No. 1 on Curvilinear Motion in Engineering Mechanics.

12.08

Problem No. 2 on Curvilinear Motion in Engineering Mechanics

9.11

Problem No. 3 on Curvilinear Motion in Engineering Mechanics

7.4

Problem No. 4 on Curvilinear Motion in Engineering Mechanics

5.56

Problem No. 5 on Curvilinear Motion in Engineering Mechanics

6.16

Problem No. 6 on Curvilinear Motion in Engineering Mechanics