Two particles are shown in figure. At `t = 0` a constant force `F = 6 N` starts acting on `3 kg`. Find the velocity of circle of mass of these particle at `t = 5 s`.
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A particle is resting over a smooth horizontal floor AT t = 0, a horizontal force starts acting on it. Magnitude of the force increases with time F = kt, where k is a constant. The two curves are drawn for this particle as shown

At t = 0 , the positions and velocities of two particles are as shown in the figure. They are kept on a smooth surface and being mutually attracted by gravitational force. Find the position of centre of mass at t = 2s . .

A particle is resting over a smooth horizontal floor. At t=0 , a horizontal force starts acting on it. Magnitude of the force increases with the time according to law F=at , where 'a' is a constant. For figure which of the following statement is/are correct ?

The acceleration-time graph of a particle moving along x-axis is shown in the figure. If the particle starts with velocity 3 m/s at t = 0, find the velocity of particle at t = 4 s.

Starting from rest, acceleration of a particle is a = 2t (t-1) . The velocity of the particle at t = 5s is

A particle of mass 2kg is initially at rest. A force starts acting on it in one direction whose magnitude changes with time. The force time graph is shown in figure. Find the velocity of the particle at the end of 10s .

The acceleration of a particle varies with time t as a=t^(2)+t+2 where t is in seconds. The particle starts with an initial velocity v-3m/s at t=0. find the velocity of the particle at the end of 5s.

A particle of m=5kg is momentarily at rest at x= at t=. It is acted upon by two forces vec(F)_(1) and vec(F)_(2) . Vec(F)_(1)=70hat(j) N. The direction and manitude of vec(F)_(2) are unknown. The particle experiences a constant acceleration, vec(a) ,in the direction as shown in (figure) Neglect gravity. a.Find the missing force vec(F)_(2) . b. What is the velocity vector of the particle at t=10 s ? c. What third force, vec(F)_(3) is required to make the acceleration of the particle zero? Either give magnitude and direction of vec(F)_(3) or its components.