A body undergoing `SHM` about the origin has its equation is given by `X=0.2 cos 5pit`. Find its average speed from `t=0 to t=0.7 sec`.

If velocity of a particle is given by v=3t^(2)-6t +4 . Find its displacement from t=0 to 3 secs .

The velocity-time graph of a body is given below. Find the average velocity from t = 0 to t = 40 s .

A body is executing SHM according to the equation : y = 14 sin( 100 pi t + (pi/6)) cm. Find its maximum speed.

Position time graph is given find average speed in time t=0 and t=15 sec is

A particle is executing SHM about y =0 along y-axis. Its position at an instant is given by y = (7m) sin (pit) . Its average velocity for a time interval 0 to 0.5 s is

An SHM is given by the equation x = 8 sin (4 pi t) + 6 cos (4pit)] cm find its amplitude and period

A body moves in a straight line along Y-axis. Its distance y in metre) from the origin is given y = 8t -3t^(2). The average speed in the time interval from t =0 second to t =1 second is

Acceleration of a particle is given by a= 3t^(2)+2t +1 Where t is time . Find (i) its velocity at time t assuming velocity to be 10 m/s at t = 0. (ii) its position at time t assuming that the particle is at origin at t = 0. (iii) What is the average speed of the particle in the duration t = 0 to t = 1s? (iv) What is the average acceleration of the particle in the duration t = 0 to t = 1s?

A particle executes simple harmonic motion about x=0 along x-axis. The position of the particle at an instant is given by x= ( 5 cm) sin pi t . Find the average velocity and average acceleration for a time interval 0-0.5 s . Hint : Average velocity =( x_(2)- x_(1))/(t_(2)-t_(1)) x_(1) = 5 sin 0 x_(2) = 5 sin ( pi xx 0.5) t_(2) - t_(1) = 0.5 Average acceleration = ( v_(2) - v_(1))/( t_(2) - t_(1)) v=(dx)/(dt) = 5 pi cos pit implies a _(av) = ( 5 pi cos ( pi xx 0.5) -5 pi cos theta)/(0.5)

The distance covered by an object (in meter) is given by s=8 t^(3)-7t^(2)+5t Find its speed at t = 2 s.