The ins"tan""tan"cous acceleration (a) of a particle executing a linear SHM is given by a = -4x where x is the displacement from the mean position. The period of the particle is given by

The acceleration of a particle performing a linear S.H.M. is 16 cm//s^(2) , when it is at a dis"tan"ce of 4 cm from the mean position. The period of S.H.M. is

Acceleration of a particle, executing SHM, at it’s mean position is

Acceleration of a particle, executing SHM, at it’s mean position is

Variation of acceleration a of a particle executing SHM with displacement x is

The equation of SHM of a particle is given as 2(d^(2)x)/(dt^(2))+32x=0 where x is the displacement from the mean position. The period of its oscillation ( in seconds) is -

The energy of a particle executing simple harmonic motion is given by E=Ax^2+Bv^2 where x is the displacement from mean position x=0 and v is the velocity of the particle at x then choose the correct statement(s)

A particle moves such that its acceleration a is given by a = -bx , where x is the displacement from equilibrium positionand is a constant. The period of oscillation is

A particle moves such that its accleration a is given by a = -bx , where x is the displacement from equilibrium position and b is a constant. The period of oscillation is

The maximum displacement of a particle executing a linear S.H.M. is 5 cm and its periodic time is 2 sec. If it starts from the mean position then the equation of its displacement is given by

A particle moves such that its acceleration ‘a’ is given by a = – zx where x is the displacement from equilibrium position and z is constant. The period of oscillation is