A simple pendulum excuting S.H.M in a straight line has zero velocity at 'a' and 'b' whose distances from 'o' in the same line OAB are 'a' and 'b'. If the velocity half-way between them is 'v' then its time period is

A particle executing SHM along a straight line has zero velocity at point A and B whose distance from 0 on the same line OAB are a and b respectively if the velocity at the mid point between A and B is v then its time period is

A particle is executing SHM along a straight line. Its velocities at distance X_(1) and X_(2) from mean position are V_(1) and V_(2) , respectively. Its time period is :

A particle is moving on a straight line so that its distance s from a fixed point at any time t is proportional to t^n . If v be the velocity and 'a' the acceleration at any time , then (nas)/(n-1) equals

A particle is moving in a straight line so that after 't' seconds its distance is 'S' (in cms) from a fixed point of the line is given be S=f(t)= 8t+t^3 . Find (i) the velocity at time t=2 (ii) the initial velocity (iii) acceleration at t=2 sec

A particle is moving in a straight line so that after t seconds its distance is s (in cms) from a fixed point on the line is given by s= f(t)=8t+t^3. Find the velocity at time t= 2sec (ii) the initial velocity can acceleration at t=2 sec