A particle performs S.H.M. with amplitude 5 m, period 0.02 . s and x = 2.5 m at t = 0. Which is the correct equation?

An object performs S.H.M. of amplitude 5 cm and time period 4 s at t = 0 the object is at the centre of the oscillation i.e., x = 0 then calculate. (i) Frequency of oscillation , (ii) The displacement at 0.5 s (iii) The maximum acceleration of the object , (iv) The velocity at a displacement of 3 cm .

A particle performs SHM with an amplitude of 5 m. If at x = 4 m, the magnitude of velocity and accelertion are equal, then the time period of SHM (in seconds) is

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

An object performs S.H.M. of amplitude 5 cm. and time period 4 sec. If timing is started when the object is at the centre of the oscillation i.e., x = 0 then calculate. (ii) The displacement at 0.5 sec.\

If a particle performing S.H.M. with a period of T s, then the time required to reach from midway to extreme position will be

A particle executes a linear S.H.M. of amplitude 8 cm and period 2s. The magnitude of its maximum velocity is

An object performs S.H.M. of amplitude 5 cm. and time period 4 sec. If timing is started when the object is at the centre of the oscillation i.e., x = 0 then calculate. (i) Frequency of oscillation

An object performs S.H.M. of amplitude 5 cm. and time period 4 sec. If timing is started when the object is at the centre of the oscillation i.e., x = 0 then calculate. (iii) The maximum acceleration of the object.

A particle performing SHM has maximum speed, 10 m/s, it's amplitude is 4 m. Find the position at which it's velocity will be 5 m/s.