A
B
C
D
Text Solution
Verified by Experts
The correct Answer is:
|
Topper's Solved these Questions
LAW OF MOTION
FULL MARKS|Exercise ADDITIONAL QUESTIONS SOLVED (SHORT ANSWER QUESTIONS)|27 VideosView PlaylistLAW OF MOTION
FULL MARKS|Exercise ADDITIONAL QUESTIONS SOLVED (SHORT ANSWER QUESTIONS (2 MARKS))|12 VideosView PlaylistLAW OF MOTION
FULL MARKS|Exercise TEXTUAL QUESTIONS SOLVED (NUMERICAL PROBLEMS)|15 VideosView PlaylistKINETIC THEORY OF GASES
FULL MARKS|Exercise Addtional Numerical Problems|10 VideosView PlaylistMOTION OF SYSTEM OF PARTICLES AND RIGID BODIES
FULL MARKS|Exercise ADDITIONAL QUESTIONS SOLVED - III (LONG ANSWER QUESTIONS (5 MARKS))|6 VideosView Playlist
Similar Questions
Explore conceptually related problems
Knowledge Check
Similar Questions
Explore conceptually related problems
FULL MARKS-LAW OF MOTION -ADDITIONAL QUESTIONS SOLVED (MULTIPLE CHOICE QUESTIONS)
- The concept " force causes motion" was given by
01:35
|
Playing Now - Who decoupled the motion and force?
01:46
|
Play - The inability of objects to move on its own or change its state of mot...
01:59
|
Play - Inertia means
02:16
|
Play - When a bus starts to move from rest, the passengers experience a sudde...
02:48
|
Play - If the brake is applied in the moving bus suddenly, passengers move fo...
02:37
|
Play - In whirling motion, if the string is cut suddenly, the stone moves tan...
03:27
|
Play - Newton's laws are applicable in
02:25
|
Play - The accelerated train is an example for
02:03
|
Play - Rate of change of momentum of an object is equal to
02:21
|
Play - The product of mass and velocity of a particle is
01:09
|
Play - The unit of momentum in SI system is .
01:57
|
Play - According to Newton's third law,
02:25
|
Play - According to Newton's third law,
02:25
|
Play - The law which is valid in both inertial and non-inertial frame is
02:03
|
Play - When a force is applied on a body, it can change
01:47
|
Play - The rate of change of velocity is 1ms^(-2) when a force is applied o...
01:26
|
Play - The action and reaction forces acting on
02:23
|
Play - Newton 's first law of motion describes the following
02:42
|
Play - Inertia of the body depends on
01:46
|
Play