The velocity of a particle, undergoing SHM is v at the position. If its amplitude is doubled, the velocity at the mean position will be…………….

The magnitude of acceleration of particle executing SHM at the position of maximum displacement is

The kinetic energy of a particle, executing SHM, is 16 J when it is at its mean position. If the amplitude of oscillations is 25 cm, and the mass of the particle is 5.12 kg, the time period of its oscillation is………….

The ratio of kinetic energy to the potential energy of a particle executing SHM at a distance equal to half its amplitude, the distance being measured from its equilibrium position is:

A particle executing SHM, covers a displacement of half of amplitude in one second. Calculate its time period.

A particle movesin the X-Y plane with a constasnt acceleration of 1.5 m/s^2 in the direction making an angle of 37^0 with the X-axis.At t=0 the particle is at the orign and its velocity is 8.0 m/s along the X-axis. Find the velocity and the position of the particle at t=4.0 s.

The maximum velocity of a particle , executing simple harmonic motion with an amplitude 7mm" is "4.4ms^(-1) . The period of oscillation is

Consider a particle undergoing simple harmonic motion. The velocity of the particle at position x_(1) is v_(1) and velocity of the particle at position x_(2) is v_(2) . Show that the ratio of time period and amplitude is (T)/(A)=2pisqrt((x_(2)^(2)-x_(1)^(2))/(v_(1)^(2)x_(2)^(2)-v_(2)^(2)-x_(1)^(2)))

The kinetic energy of paritcle executing SHm will be equal to ((1)/(8))^(th) of its potential energy when its displacement from the mean position is (Where A is the amplitude) :