A particle moves vertically with an upward initial speed `v_(0) = 5 m//s`. If its acceleration varies with time as shwon in `a - t` graph in the fig. 4.30, find the velocity of the particle at `t = 7s`.

A particle moves vertically with an upwards initial speed v_0 = 10.5 ms^(-1). If its acceleration varies with time as shown in a-t graph in figure, find the velocity of the particles at t = 4s.

A particle moves aling x-axis with an initial speed v_(0)=5 m s^(-1) . If its acceleration varies with with time asshown in a-t graph in . . a. Find the .

The acceleration of paticle varies with time as : a(t) = 3t^(2) +4 If the initial velocity of particle is 2 m//s , find the velocity of particle at t = 3sec .

For the acceleration - time (a - t) graph shown in figure, the change in velocity of particle from t = 0 to t = 6 s is

A particle initially at rest starts moving along x-axis.Its acceleration varies with time as a=6tm/s^(2) .If it starts from x=10m .Then the position of particle at t=2s is

For a particle moving in a straight line, the position-time graph is as shown in the figure. Find the velocity of the particle at time t=1 s and t=4 s . Also sketch the v-t graph.

A particle is moving in a straight line and its acceleration-time graph is shown below. At t=0 , the particle is at rest. Find the velocity of the particle at t=3 s, 6 s and 8 s . Also sketch the v-s graph.

the angular velocity omega of a particle varies with time t as omega = 5t^2 + 25 rad/s . the angular acceleration of the particle at t=1 s is

A particle is given an initial velocity of vecu=(3 hati+4 hatj) m//s . Acceleration of the particle is veca=(3t^(2) +2 thatj) m//s^(2) . Find the velocity of particle at t=2s.