A nonzero external force on a system of particles. The velocity and the acceleration of the cente of mass are found to be `v_0 and a_0` at an instant t. It is possible that

A nonzero external force acts on a system of particles. The velocity and the acceleration of the centre of mass are found to be v_(0) "and"a_(0) at an instant t. It is possible that:

A system of particles is acted upon by a constant nonzero external force. If v and a are instantaneous velocity and acceleration of the centre of mass, then it is possible that at a given instant

The velocity of a particle is zero at t=0

The velocity of a particle is given by v=12+3(t+7t^2) . What is the acceleration of the particle?

A system consists of two particles. At t=0 , one particle is at the origin, the other, which has a mass of 0.60kg , is on the y-axis at y=80m . At t=0 , the centre of mass of the system is on the y-axis at y=24m and has a velocity given by (6.0m//s)t^2hatj . (a) Find the total mass of the system. (b) Find the acceleration of the centre of mass at any time t. (c) Find the net external force acting on the system at t=3.0s .

A particle moves with initial velocity v_(0) and retardation alphav , where v is velocity at any instant t. Then the particle

At any instant, the velocity and acceleration of a particle moving along a straight line are v and a. The speed of the particle is increasing if

If the material particle is moving with velocity v and the velocity of light is c, then mass of particle is taken as ( m_0 is rest mass)

Statement-1: When velocity of a particle is zero then acceleration of particle must be zero at that instant Statement-2: Acceleration is equal to a= v ((dv)/(dx)) , where v is the velocity at that instant .

Two partticles A and B intially at rest move towards each other under a mutual force of attraction. The instant at which velocity of A is 4v and velocity of B is 2v , the velocity of centre of mass of the system at that instant will be