Give an example of motion with
(i) acceleration `a = 0` and velocity `v != 0`
(ii) displacement = 0 and distance travelled = 0

A body describes simple harmonic motion with an amplitude of 5 cm and a period of 0.2s . Find the acceleration and velocity of the body when the displacement is (a) 5cm, (b) 3cm, (c) 0 cm.

A particle is executing SHM with amplitude A , time period T , maximum acceleration a_(0) and maximum velocity V_(0) and at time t , it has the displacement A//2 , acceleration a and velocity V then

Fig. shows the graph of velocity versus time for a partice going along the x-axis. Find (a) acceleration, (b) the distance traveled in 0 to 10 s and (c) the displacement in 0 to 10 s.

Give example of a motion where x gt 0, vlt 0, agt at a particular instant.

A body starts from rest with uniform acceleration. Its velocity after 2n second is v_(0) . The displacement of the body in last n second is (3v_(0)n)/(beta) . Determine the value of beta ?

A particle is moving in sand under acceleration a=g-lambday^(2) , where lambda is a positive constant and y is the distance traveled on the y-axis. If the initial velocity is v_(0) and after traveling a distance y_(m) , the particle stops, find lambda (the motion is along the y-axis).

What type of velocit-time graph will you get, for a unitormly accelerated motion when (i) acceleration is + ve (a gt 0)and (ii) acceleration is -ve (a- lt0) ?

The velocity of a particle moving in a straight line varies with time in such a manner that v versus t graph is represented by one-half of an ellipse. The maximum velocity is v_m and the total time of motion is t_0 (i) average velocity of the particle is (pi)/(4) v_m (ii) such motion cannot be realized in practical terms.

figure shows the graph of velocity versus tie for a particle going along the X-axis. Find a. the acceleration, b. The distance travelled in 0 to 10 s and c. the displacement in 0 to 10 s.

An object is subjected to an acceleration a = 4 + 3v . It is given that the displacement S = 0 when v = 0 . The value of displacement when v = 3 m//s is