Statement-1 : Mechanical energy of a partical execting SHM is E. Maximum KE of particle may be greater than E.
Statement-2 : Potential energy of a system may be negative.

Q. Statement I: The total energy of a particle performing simple harmonic motion could be negative. Statement II: Potential energy of a system could be magnetic.

The total energy of a particle executing SHM is E. Its kinetic energy is K at the mean position. Then always

Statement-1: kinetic energy of SHM at mean position is equal to potential energy at ends for a particle moving in SHM. Statement-2: Total energy in SHM is conserved.

Statement -1: If kinetic energy of a system is zero then linear momentum of each of particle of the system must be zero. Statement-2: If linear momentum of a system is zero then kinetic energy of system must be zero. Statement-3: If linear momentum of a particle is zero then kinetic energy is zero. Select the correct sequence.

The total mechanical enegry of a particle is E . The speed of the particle at x = ((2E)/(K))^(1//2) is ((2E)/(m))^(1//2) . Find the potential energy of the particle at x :

The potential energy of a particle executing SHM change from maximum to minimum in 5 s . Then the line period of SHM is:

Binding energy of a particle on the surface of earth is E. Kinetic energy grater than E is given to this particle. Then total energy of particle will become

The potential energy of a partical is SHM is 2 xx 10^(-4) J at the extreme positions. What will be its potential energy when the particle is midway between the mean and extreme position ?

The total energy of a particle in SHM is E. Its kinetic energy at half the amplitude from mean position will be