The average resisting force that must act on `5kg` mass to reduce its speed from `65ms^-1` to `15ms^-1` in `2s` is

The average resisting force that must act on 5kg mass to reduce its speed from 65 to 15ms^-1 in 2s is

A constant force acting on a body of mass of 5 kg change its speed from 5ms^(-1) "to" 10ms^(-1) in 10 s without changing the direction of motion. The force acting on the body is

A constant force acting on a body of mass 3 kg changes its speed from 2ms^(-1) to 3.5 ms^(-1) in 25 s. The direction of motion of the body remains unchanged. Calculate magnitude and direction of the force.

What force should be applied on a body of mass 500 kg to change its velocity from 4 ms^(1) to 6 ms^(-1) in one second ?

An object of mass 10kg moves at a constant speed of 10 ms^(-1) . A constant force, that acts for 4 sec on the object, gives it a speed of 2ms^(-1) in opposite direction. The force acting on the object is :

A body of mass 6 kg is acted on a by a force so that its velocity changes from 3 ms^(-1) to 5ms^(-1) , then change in momentum is

A mass of 1 kg is acted upon by a single force F=(4hati+4hatj)N . Under this force it is displaced from (0,0) to (1m,1m). If initially the speed of the particle was 2 ms^(-1) , its final speed should be

A particle travels in a circle of radius 20 cm at a uniformly increasing speed. If the speed changes from 8 ms^(-1) to 9 ms^(-1) in 2s, what would be the angular acceleration in "rad s"^(-2) ?

A constant retarding force of 20 N acts on a body of mass 5 kg moving initially with a speed of 10 ms^(-1) . How long does the body take to stop?

Three particles of masses 1 kg, 2 kg and 3 kg are situated at the corners of an equilateral triangle move at speed 6ms^(-1), 3ms^(-1) and 2ms^(-1) respectively. Each particle maintains a direction towards the particles at the next corners symmetrically. Find velocity of CM of the system at this instant