In an SHM of time period T
(i) What minimum time is taken by the oscillator to move between - A/2 to +A
(ii) What maximum time is taken by it to go from -A/2 to +A/2 without crossing any point not more than twice.

A paricle performs S.H.M. with time period T . The time taken by the particle to move from hall the amplitude to the maximum dispalcement is T/2

A particle executes simple harmonic motion between x = -A and x = + A . The time taken for it to go from 0 to A//2 is T_1 and to go from A//2 to (A) is (T_2) . Then.

A particle executes simple harmonic motion between x=-A and x=+A . The time taken for it to go from 0 to A/2. is T_(1) and to go from A/2 to A is T_(2) . Then:

A simple harmonic motion has an amplitude A and time period T. What is the time taken to travel from x=A to x=A//2 ?

The given figure shows the elliptical orbit of a planet m about the sun S. If t_(1) is the time taken by the planet of move from C to D and t_(2) is the time taken by the planet to move from A to B, then the relation between t_(1) and t_(2) is [Given, area SCD = 2 (area SAB)]

A pariticle is performing SHM of amplitude "A" and time period "T" . Find the time taken by the period to go from 0 to A//2 .

A partical is performing SHM of amplitude 'A' and time period 't'. Find the time taken by the partical to go from 0 to A//2 .

A particle is executing SHM with time period T Starting from mean position, time taken by it to complete (5)/(8) oscillations is,