A particle executes SHM of type `x= a sin omega`. It takes time `t_1` from `x=0` to `x= (a)/(2) and t_2` from `x= (a)/(2)` to `x= a`. The ratio of `t_1: t_2` will be

A particle executes SHM in accordance with x=A"sin"omegat . If t_(1) is the time taken by it to reach from x=0 to x=sqrt(3)(A//2) and t_(2) is the time taken by it to reach from x=sqrt(3)//2 A to x=A , the value of t_(1)//t_(2) is

A particle executes SHM of amplitude A. If T_1 and T_2 are the times taken by the particle to traverse from 0 to A/2 and from A/2 to A respectively, then T_1/T_2 will be equal to

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.

Find the time taken by the particle in going from = x = (A)/2) to x=A Hint : t_(1) = Time taken to go from x=0 to x =A t_(2) = Time taken to go from x=0 to x= (A)/(2) Required time = t_(1) - t_(2)

The displecemen-time equation of a particle execitting SHM is x = A sin (omega t + phi) At time t = 0 position of are position is x = A//2 and it is moving along negative x- direction .Then the angle phi can be

Displacement-time equation of a particle executing SHM is x=4sin omega t+3tsin(omegat+pi//3) Here, x is in cm and t ini sec. The amplitude of oscillation of the particle is approximately.

A particle startsits SHM at t=0 . At a particular instant on its way to extreme position , x= (A)/(2) . Find the time taken by the particle to come back to this point after passing through the extreme position. Hint : t_(1) = time taken to go from x=0 to x= (A)/(2) t_(2) = time taken to go to extreme position and come back to mean position = (T)/(2) Required time = (T)/(2) - t_(1)

x - t equation of a particle executing SHM is x = Acos (omega t - 45^(@)) Find the point from where particle starts its journey and the direction of its initial velocity.