If `x=A sin(omegat+(pi)/(6))`, then find the minimum time t when kinetic energy of SHM is same as its potential energy.

In a SHM distance from mean position where kinetic energy equals potential energy is

A horizontal spring mass system is executing SHM with time period of 4s. At time t=0, it is at mean position. Find the minimum time after which its potential energy becomes three times of kinetic energy.

In a simple harmonic motion (i) the maximum potential energy equal the maximum kinetic energy (ii) the minimum potential energy equals the minimum kinetic energy (iii) the minimum potential energy equals the maximum kinetic energy (iv) the maximum potential energy equals the minimum kinetic energy

In S.H.M., the graph between kinetic energy K and time 't' is

If A is amplitude of a particle in SHM, its displacement from the mean position when its kinetic energy is thrice that to its potential energy

A particle is performing linear S.H.M. at a point A, on the path, its potential energy is three times kinetic energy. At another point B on the same path, its kinetic energy is 3 times the potential energy. The ratio of the potential energy at A to its potential energy at B is

A particle is performing linear S.H.M. at a point A, on the path, its potential energy is three times kinetic energy. At another point B on the same path, its kinetic energy is 3 times the potential energy. The ratio of the kinetic energy at A to its kinetic at B is

If the phase angle for a block -spring system in SHM is pi//8 rad and the block's position is given by x= x_(m) cos(omega t + phi) , what is the ratio of the kinetic energy to the potential energy at time t= 0?

A particle performing SHM with amplitude 10cm . At What distance from mean position the kinetic energy of the particle is thrice of its potential energy ?

A particle undergoing SHM has the equation x=A"sin"(2omegat+phi) , where x represents the displacement of the particle. The kinetic energy oscillates with time period