A particle describes SHM along a straight line with a period of 2 s and amplitude 10 cm. Its velocity when it is at a distance of 6 cm from mean position is

A particle of mass 10 gm is describing S.H.M. along a straight line with period of 2 sec and amplitude of 10 cm . Its kinetic energy when it is at 5 cm from its equilibrium position is

A particle of mass 10 g is describing SHM along a straight line with a period of 2 s and amplitude of 10 cm. what is the kinetic energy when it is (i) 2 cm (ii) 5 cm, from its equilibrium positio ? How do you account for the difference between its two values.?

A particle of mass 10gm is describing an SHM along a staight line with a time period of 2sec and amplitude 10cm. Then its KE at 2 cm from the equilibrium position is

A particle of mass 100g is dexcribing SHM along a straight lig with a period of 2s and amplitude of 12 cm. What is the knetice energy when it is (i) 3cm (ii) 6cm from its equilibrium position? (Use pi^(2)=10)

A particle performs harmonic oscillations along a straight line with a period of 6s and amplitude 4 cm. The mean velocity of the particle averaged over the time interval during which it travels a distance of 2 cm starting from the extreme position is

A particle performing linear S.H.M. has a period of 6.28 seconds and a path length of 20 cm. What is the velocity when its displacement is 6 cm from mean position ?

A particle executes SHM on a straight line path. The amplitude of oscillation is 2 cm. When the displacement of the particle from the mean position is 1 cm, the magnitude of its acceleration is equal to that of its velocity. Find the time period, maximum velocity and maximum acceleration of SHM.