A force `F = Be^(Ct)` acts on a particle whose mass is m and whose velocity is 0 at t = 0. It's terminal velocity is :

Obtain an expression for the centripetal force F acting on a particle of mass m moving with velocity v in a circle of radius r . Take dimensionless constant K = 1 .

A time varying force, F=2t is acting on a particle of mass 2kg moving along x-axis. velocity of the particle is 4m//s along negative x-axis at time t=0 . Find the velocity of the particle at the end of 4s.

A force vecF=6t^(2)hati+4thatj is acting on a particle of mass 3 kg then what will be velocity of particle at t=3 second and if at t=0, particle is at rest:-

The velocity of a particle is zero at t=0

A force vecF acts on two particles of masses m and 4.0m moving at the same speed but at right angles to each other, as shown in Fig. The force acts on both the particles for a time T. Consequently, the particle of mass m moves with a velocity 4v in its original direction. (a) Find the new velocity v' of the other particle. (b) Also find the change in the kinetic energy of the system.

The magnitude of force acting on a particle moving along x-axis varies with time (t) as shown in figure. If at t = 0 the velocity of particle is v_(0) , then its velocity at t=T_(0) will be

A constant force (F) is applied on a stationary particle of mass 'm' The velocity attained by the particle in a certain displacement will be proportional to .