The total energy of particle performing SHM depend on : -

For a particle performing SHM

Energy of particle executing SHM depends upon

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.

STATEMENT-1 , The total energy of a particle executing S.H.M( of given amplitude) of depends on the mass of particle but does not depend on its displacement from mean position and STATEMENT -2 : The total energy of a particle executing S.H.M. ismaximum at the mean position.

The total energy of a particle executing SHM is directly proportional to the square of the following quantity.

Ratio of kinetic energy at mean position to potential energy at A/2 of a particle performing SHM

The potential energy of a particle execuring S.H.M. is 5 J, when its displacement is half of amplitude. The total energy of the particle be

The total energy of a vibrating particle in SHM is E . If its amplitude and time period are doubled, its total energy will be :-

Assertion: The graph of total energy of a particle in SHM with respect to position is a straight line with zero slope. Reason: Total energy of particle in SHM remains constant throughout its motion.

Fill in the blanks using appropriate word from the list at the end of each statement : (i) The magnitude of accleration of a particle in S.H.M. is the "….." at the end points. (least, greatest) (ii) The total energy of a particle in S.H.M. equals the "......" at the end point and the "....." at the mean position, (kinetic energy, potential energy) (iii) the restoring force in S.H.M. is "........" in magnitude, when the particle is intantaneously at rest. (zero, maximum) (iv) The time period of a particle in S.H.M. depends, in general , on "........" , but in independent of "......." (amplitude, force constant, initial phase, mass, total energy). (v) For a particle in S.H.M. with a given mass m and force constant k , quantities which depends on initial conditions are "......" (time period, amplitude, phase, total energy, frequency). (vi) A particle in S.H.M . has "......" speed, and "....." magnitude of accleration at its mean position. (minimum, maximum)