Block B moves to the right with a consta...

Block B moves to the right with a constant velocity `v_(0)`. The velocity of body A relative to B is `:`

`(v_(0))/(2)`, towards left

`(v_(0))/(2)`, towards right

`( 3v_(0))/(2)`, towards left

`(3v_(0))/(2)`, towards right

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If block A starts from rest at t=0 & begins to move towards right with 2 m//s^(2) & simultaneously C moves towards right with constant velocity of 4 m/s. Velocity of block B at t=5 sec. will be:

2 m/s

3 m/s

4 m/s

None

Knowing that block B starts to move downward with a constant velocity of 18cm/sec, the velocity of block A will be:

27 cm/s

12 cm/s

36 cm/s

9 cm/s

In the block moves up with constant velocity v m//s. Find F

`F=(mg)/(2)`

`F=(2mg)/(3)`

`F=(mg)/(3)`

`F=(m)/(3)`

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Block B moves to the right with a constant velocity `v_(0)`. The velocity of body A relative to B is `:`

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Knowledge Check

If block A starts from rest at t=0 & begins to move towards right with 2 m//s^(2) & simultaneously C moves towards right with constant velocity of 4 m/s. Velocity of block B at t=5 sec. will be:

Knowing that block B starts to move downward with a constant velocity of 18cm/sec, the velocity of block A will be:

In the block moves up with constant velocity v m//s. Find F

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MOTION-NLM & FRICTION-EXERCISE-2