Subject At a Glance
| Compulsory Items | |||
| S. No | Topic/Item | Status | Time of Completion |
| 1 | Theory | Only Chapter 10 is pending | By May end |
| 2 | GATE Questions Videos | Only 2019, 2020 years pending | By May end |
| 3 | GATE Question as Quizzes | Only 2019, 2020 years pending | By July end |
| 4 | Class Notes | Not Ready | By July End |
| Optional Items | |||
| 4 | ESE Objective Quizzes | Available in e-classes | |
| 5 | ESE Mains Q&As | Pdfs will be provided | |
| 6 | IAS Prelims Q&As | Pdfs will be provided | |
| 7 | IAS Mains | Pdfs will be provided | |
Details of Topics Covered
| 1. System of Forces | Video Time |
| Theory | |
| 1.1 Force Vector and principle of transmissibility | 0:19:02 |
| 1.2 Resultant of forces, Parallelogram law of two forces, triangle law | 0:34:43 |
| 1.3 Components of Forces in X and Y -axes directions | 0:13:15 |
| 1.4 Example problems on component method part 1 | 0:18;32 |
| 1.5 Example problems on component method part 2 | 0:18;24 |
| 1.6 Moment due to force | 0:19:25 |
| 1.7 Moment due to a couple | 0:17:12 |
| 1.8 Moment example problems | 0:23:56 |
| 1.9 Moment example problems of varying load distribution | 0:21:58 |
| 1.10 Newton’s 3rd law and Free body diagram concept | 0:19:46 |
| 1.11 Newton’s law of gravitation | 0:11:56 |
| 2. Equilibrium of Rigid bodies | Video Time |
| Theory | |
| 2.1 Conditions of Static Equilibrium | 0:20:16 |
| 2.2 Example problems on static equilibrium part1 | 0:24:58 |
| 2.3 Example problems on static equilibrium part2 | 0:18:38 |
| 2.4 Example problems of bodies on inclined planes | 0:15:16 |
| 2.5 Example of hinged rod supported by a string | 0:09:13 |
| 2.6 Example of Hanging string with forces at different points | 0:16:12 |
| 2.7 Example of two rollers on an inclined plane | 0:15:20 |
| 2.8 Forces and Moment in Space(3-D) with examples | 0:32:05 |
| IAS QUESTIONS | |
| 1.Equilibrium of Rigid bodies , IAS-mains-[ 2013]-1b | 0:23:00 |
| 2.Equilibrium of Rigid bodies -IAS-mains-[ 2010]-ie-(ii) | 0:23:50 |
| Theory | Video Time |
| 3.1 Understanding friction and its laws | 0:23:27 |
| 3.2 Angle friction | 0:15:49 |
| 3.3 Example problems part 1 | 0:10:00 |
| 3.4 Example of two blocks on one on another lying on floor | 0:19:56 |
| 3.5 Two blocks on one on another on an inclined plane | 0:09:30 |
| 3.6 Forces required for a block to move up or down the inclined plane | 0:26:59 |
| 3.7 Cylinder resting on floor and the wall, with moment | 0:09:10 |
| 3.8 Forces required in Tool gripper | 0:9;19 |
| 3.9 Example on non-concurrent force system | 0:13:45 |
| 3.10 Screw Jack: Efficiency, self locking condition, Mechanical Advantage and Velocity Ratio | 0:48:08 |
| 3.11 Rope / Belt pulley friction | 0:25:22 |
| 3.12 Example problems on rope or belt friction | 0:24:29 |
| 3.13 Friction on car wheels | 0:29:33 |
| 3.14 Rolling friction or resistance | 0:19:04 |
| IAS QUESTIONS | |
| Friction -IAS-mains-[ 2013]- 1(a) | 0:18:51 |
| Friction -IAS-mains-[ 2015]-4(a) | 0:21:09 |
| Theory | Video time |
| 4.1 Introduction: Perfect, Collapsible and Redundant trusses | 0:22:59 |
| 4.2 Forces in truss member and truss joint | 0:11:36 |
| 4.3 Zero force member with examples | 0:21:42 |
| 4.4 Method of Joints with example to find forces | 0:29:03 |
| 4.5 Method of Sections with example to find forces | 0:16:32 |
| 4.6 Example problem on method of sections | 0:18:29 |
| 4.7 Plane trusses with inclined supports | 0:25:54 |
| GATE | |
| 4.30 Plane Trusses GATE mech, Previous Objective Questions, Year -2003-[1m] | 0:11:54 |
| 4.31 Plane Trusses GATE mech, Previous Objective Questions, Year -2004-[1m] | 0:01:23 |
| 4.32 Plane Trusses GATE mech, Previous Objective Questions, Year -2008-[2m | 0:07:25 |
| 4.33 Plane Trusses GATE mech, Previous Objective Questions, Year -2012-[2m] | 0:16:53 |
| 4.34 Plane Trusses GATE mech, Previous Objective Questions, Year -2014-[SET-1] | 0:04:33 |
| 4.35 Plane Trusses GATE mech, Previous Objective Questions, Year -2014-[SET-4] | 0:07:50 |
| 4.36 Plane Trusses GATE mech, Previous Objective Questions, Year -2015-[2m] | 0:05:59 |
| 4.37 Plane Truss GATE mech, Previous Objective Questions, Year -2019-[SET-1 | 0:10:11 |
| 4.38 Plane Truss GATE mech, Previous Objective Questions, Year -2020-[1m] | 0:10:40 |
| 4.39 Plane Truss GATE mech, Previous Objective Questions, Year -2020-[1m] | 0:09:32 |
| Theory | Video Time |
| 5.1 Understanding centroid and center of gravity | 0:16:29 |
| 5.2 Finding centroid of a rectangle by integrating an elemental strip | 0:14:12 |
| 5.3 Finding centroid of a circle, semicircle and sector of a circle | 0:11:23 |
| 5.4 Centroid formula for various important shapes | 0:10:03 |
| 5.5 Example problem to find out centroid of a composite shape | 0:11:42 |
| 5.6 Example problem to find centroid of a shape with hollow sections | 0:11:23 |
| 5.7 Understanding moment of Inertia and finding M.I for a rectangle | 0:13:56 |
| 5.8 Parallel axis theorem and polar moment of inertia(perpendicular axis theorem) | 0:15:19 |
| 5.9 Moment of Inertia formulas for various important planar shapes | 0:16:15 |
| 5.10 Example problem on moment of inertia of a T-section | 0:15:40 |
| 5.11 Moment of inetia of planar body with hollow sections | 0:12:16 |
| 5.12 ESE 2018 problem on centroid of a trapezium | 0:20:35 |
| Theory | Video Time |
| 6.1 Different type of motions | 0:11:39 |
| 6.2 Equation of motion in rectilinear motion | 0:17:52 |
| 6.3 Plots of different variables in rectilinear motion | 0:11:06 |
| 6.4 Example problem on graphical method | 0:14:09 |
| 6.5 Two trains starting from same station example using graphical method | 0:22:08 |
| 6.6 Motion under gravity | 0:06:55 |
| 6.7 Example problems | 0:08:35 |
| 6.8 Stone thrown from a building example problem | 0:09:30 |
| 6.9 Stone crossing window example problem | 0:08:29 |
| 6.10 Stone dropped into a well example | 0:06:23 |
| 6.11 Bike crossing a signal | 0;9:03 |
| 6.12 Lift and freely dropped stone problem | 0:11:11 |
| 6.13 Acceleration as function of velocity problem | 0:7::56 |
| 6.14 Acceleration as function of displacement problem | 0:11;34 |
| 6.15 Curvilinear motion introduction | 0;7:51 |
| 6.16 Projectile motion: Range, maximum height and total time | 0:22:09 |
| 6.17 Motion of a body horizontally projected from a height with example | 0:20:14 |
| 6.18 Example problem on projectile | 0:08:28 |
| 6.19 Example problem on projectile motion -2 | 0:08:01 |
| Theory | Video Time |
| 7.1 Equations of motion in fixed axis rotation | 0:22:55 |
| 7.2 Example problem | 0:10:03 |
| 7.3 Linear velocity of a rotating body | 0:28:18 |
| 7.4 Logic to remember relation between linear and angular parameters | 0:11:10 |
| 7.5 Linear acceleration of a rotating body | 0:24:38/ |
| 7.6 linear velocity and acceleration of a rotating body summary | 0:06:15 |
| 7.7 Example problems on linear velocity and acceleration | 0:12;20 |
| 7.8 Radius of curvature of path of motion with example | 0:12:13 |
| 7.9 Example problem on radius curvature of a projectile | 0:14:04 |
| 7.10 Linear velocity and acceleration of a body with rotation and translation | 0:26:15 |
| 7.11 Velocity in double slider mechanism | 0:10:22 |
| 7.12. Instantaneous centre method to find velocity | 0:18:41 |
| 7.13 Velocity of any point on a rolling disk without slipping | 0:25:57 |
| 7.14 Example problem of rolling disk without slipping on the ground | 0:05:53 |
| 7.15 Velocity of Circular disk moving between the belts | 0:15:24 |
| 7.16 Acceleration of Disk rolling without slipping on the ground | 0:21:24 |
| GATE | |
| 7.30 . Rotational Motion GATE mechanical, Previous year Questions, Year -2018-[SET-2]] | 0:12:07 |
| 7.31 Rotational Motion GATE mech, Previous Objective Questions, Year -1996-, | 0:04:13 |
| 7.32. Rotational Motion GATE mech, Previous Objective Questions, Year -2018-[SET-2], | 0:13:19 |
| Theory | Video Time |
| 8.1 Linear motion: D’Alembert’s principle to find acceleration | 0:19:29 |
| 8.2 Example problem on D’Alembert’s principle | 0:18:10 |
| 8.3 A body sliding on the inclined plane example using D’Alembert’s principle | 0:11:08 |
| 8.4 Two bodies placed on one over another example using D’Alembert’s principle | 0:08:12 |
| 8.4 Moving lift with a person example using D’Alembert’s principle | 0:17:10 |
| 8.5 Relation between the displacement and the accelerations of the connected bodies | 0:10 |
| 8.6 Motion of Connected bodies example using D’Alembert’s principle part 1 | 0:19:57 |
| 8.7 Motion of Connected bodies example using D’Alembert’s principle part 1 | 0:23:47 |
| 8.8 Two moving bodies on an inclined plane using D’Alembert’s principle | 0:26:49 |
| 8.9 two trollied connected by strings around a pulley | 0:21:23 |
| 8.10 Plane Circular motion of a body: Critical velocity for sliding and overturning | 0:29:49 |
| 8.11 Banking of roads to avoid skidding and overturning | |
| 8.12 skidding and overturning on a banked road | 11:06 |
| 8.13 Example problems on curvilinear motion in a plane | 0:10:38 |
| 8.14 Kinetics of rotational motion with examples | 0:35:27 |
| 8.15 Kinetic analysis of composite cylinder with a rod rotating about an axis | 0:16:15 |
| 8. 16 Kinetic analysis of simple gear train | 0:13:25 |
| GATE | |
| 8.30 Kinetics Linear and Rotational Motion GATE mech, Previous Objective Questions, Year -1998-[1m] | 0:06:14 |
| 8.31 Kinetics Linear and Rotational Motion GATE mech, Previous Objective Questions, Year -2015-[SET-2] | 0:04:40 |
| Theory | Video Time |
| 9.1 Understanding the work concepts using examples | 0:37:08 |
| 9.2 Energy and power concepts | 0:17:15 |
| 9.3 Conservatiove forces and conservation of energy | 0:21:18 |
| 9.4 Force and energies in a spring | 0:14:51 |
| 9.5 Work and Energy in rotational motion | 0:13:26 |
| 9.6 word done in sliding of a body in different scenarios | 0:13:22 |
| 9.7 Height drop required for a mass to complete a full verticle circulation revolution | 0:06:40 |
| 9.8 work done on a slider moving on a inclined plane | 0:13:21 |
| 9.9 workdone in connected bodies sliding on an inclined plane | 0:12:50 |
| 9.10 Work done in sliding and tipping of a block | 0:12:14 |
| 9.11 work/energy examples with springs in the system | 0:08:58 |
| 9.12 strain energy produced in the springs when load is gradual, sudden and dropped from a height | 0:13:37 |
| 9.13 Special example on work done of springs | 0:13:11 |
| 9.14 KE in fixed axis rotation of a body | 0:08:37 |
| 9.15 KE of a circular disk coming down on a inclined plane with friction | 0:09:07 |
| 9.16 example of a circular disc connected to a mass through a wire | 0:11:17 |
| Theory | Video Time |
| 11.1 collision(impact) introduction: conversation of momentum, coefficient of restitution | 0:18;52 |
| 11.2 Coefficient restitution and oblique collision | 0:17:29 |
| 11.3 Example problems of direct impact | 0:10:33 |
| 11.4 Bouncing of a ball on the floor with example | 0:20:32 |
| 11.5 Falling body colliding with simple pendulum example | 0:11:52 |
| 11.6 Bullet is fired into a block example | 0:11:42 |
| GATE Previous Engineering Mechanics | Video Time |
| 8. Engineering Mechanics GATE mech, Previous Objective Questions, Year -1990-[1m] | 0:03:19 |
| 1. Engineering Mechanics GATE mech, Previous Objective Questions, Year-1994-[1m] | 0:07:48 |
| 2. Engineering Mechanics GATE mech, Previous Objective Questions, Year -1995-[2m] | 0:04:51 |
| 3. Engineering Mechanics GATE mech, Previous Objective Questions, Year -1996[2m] -1 | 0:07:05 |
| 4. Engineering Mechanics GATE mech, Previous Objective Questions, Year -1996[2m] -2 | 0:08:07 |
| 5. Engineering Mechanics GATE mech, Previous Objective Questions, Year-1996-[1m]-3 | 0:07:26 |
| 6. Engineering Mechanics GATE mech, Previous Objective Questions, Year-1996-[1m]-4 | 0:09:10 |
| 7. Engineering Mechanics GATE mech, Previous Objective Questions, Year -1997 [2m] | 0:09:51 |
| 10. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2003 [2m] – 1 | 0:08:46 |
| 11. Engineering Mechanics GATE mech, Previous Objective Questions, Year-2003-[1m]-2 | 0:06:15 |
| 12. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2004 [2m] -1 | 0:07:32 |
| 13. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2004 [2m] -2 | 0:06:53 |
| 14. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2004 [2m] – 3 | 0:04:48 |
| 15. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2005 [2m]-1 | 0:03:12 |
| 16 .Engineering Mechanics GATE mech, Previous Objective Questions, Year -2005 [2m] – 2 | 0:08:20 |
| 17. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2005 [2m]-3 | 0:16:29 |
| 18. Engineering Mechanics GATE mech, Previous Objective Questions, Year-2005-[1m]-4 | 0:02:23 |
| 19. Engineering Mechanics GATE mech, Previous Objective Questions, Year-2005-[1m]-5 | 0:11:31 |
| 20. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2007 [2m] | 0:12:00 |
| 21. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2008 [2m] | 0:13:52 |
| 22. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2009 [2m] | 0:07:24 |
| 24. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2011-2 [2m] | 0:03:20 |
| 25. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2013 [2m] | 0:05:50 |
| 26. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2014 [2m] -1 | 0:09:02 |
| 27. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2014 [2m] -2 | 0:06:02 |
| 28. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2014 [2m] -3 | 0:03:31 |
| 29. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2014 [2m] -4 | 0:06:35 |
| 30. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2014 [2m] -5 | 0:10:18 |
| 31. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2014 [2m] -6 | 0:05:12 |
| 32. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2014 [2m] -7 | 0:13:38 |
| 33. Engineering Mechanics GATE mech, Previous Objective Questions, Year-2014-[SET-3]-8 | 0:03:30 |
| 34. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2016 [2m] -1 | 0:05:42 |
| 35. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2016 [2m] -2 | 0:05:50 |
| 36. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2016 [2m] – 3 | 0:04:14 |
| 37. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2016 [2m] -4 | 0:06:23 |
| 38. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2016 [2m] -5 | 0:05:56 |
| 39. Engineering Mechanics GATE mech, Previous Objective Questions, Year-2016-[SET-2]-7 | 0:06:39 |
| 40. Engineering Mechanics GATE mech, Previous Objective Questions, Year-2016-[SET-23]-8 | 0:02:54 |
| 41. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2017 [2m]-1 | 0:04:16 |
| 42. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2017 [2m]-2 | 0:07:26 |
| 43. Engineering Mechanics GATE mech, Previous Objective Questions, Year-2017-[SET-1]-3 | 0:08:04 |
| 44. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2018 [1m]-1 | 0:03:19 |
| 45. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2018 [1m] -2 | 0:03:49 |
| 46. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2018 [2m] -3 | 0:03:14 |
| 47. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2018 [1m] -4 | 0:05:31 |
| 48. Engineering Mechanics GATE mech, Previous Objective Questions, Year -2018 [2m] -5 | 0:05:05 |
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