A body of mass `2 kg` has an initial velocity of `3 m s^-1` along `OE` and it is subjected to a force of `4 N` in `O F` direction perpendicular to `O E`. Find the distance of the body from `O` after `4 s`.
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A body mass 2kg has an initial velocity of 3 metre//sec along OE and it is subject to a force of 4N in a direction perpendicular to OE. The distance of body from O after 4 sec will be:

Assertion : A body of mass 4 kg has an initial velocity 5hat(i)ms^(-1) . It is subjected to a force of 4hat(j)N . The displacement of body from origin after 4 s will be 21.5 m . Reason : The equation v=u+a t can be applied to obtain v if a is constant.

A particle of mass 1 kg has a velocity of 2m//s . A constant force of 2N acts on the particle for 1s in a direction perpendicular to its initial velocity. Find the velocity and displacement of the particle at the end of 1 s.

A body of mass 5kg initially at rest, is subjected to a force of 40 N. Find the kinetic energy acquired by the body at the end of 5 seconds :

A body of mass 2 kg is moving along x-direction with a velocity of 2 m//sec. If a force of 4 N is applied on it along y-direction for 1 sec, the final velocity of particle willbe-

A body of mass 5 kg initially at rest is subject to a force of 20 N. What is the kinetic energy acquired by the body at the end of 10 s ?

A body has an initial velocity of 3 ms^-1 and has an acceleration of 1 ms^-2 normal to the direction of the initial velocity. Then its velocity 4 s after the start is.

A body of mass (1)/(4) kg moving with velocity 12 m//s is stopped by applying a force of 0.6 N. Then impulse is :-