For a particle executing SHM, the displacement `x` is given by `x = A cos omegat`. Identify the graph which represents the variation of potential energy `(PE)` as a function of time `t` and displacement `x`.

(a) `I, III`
(b) `II, IV` (c ) `II, III`
(d) `I, IV`

For a particle executing S.H.M. the displacement x is given by x= A cos omegat . Identify the graph which represents the variation of potential energy (P.E.) as a function of time

For a particle executing SHM the displacement x given by x = Acos omegat . Identify the graph which represents the variation of potential energy (PE) as a function of time and displacement x

For a particle executing S.H.M., the displacement x is given by x=Acosωt. Identify the graph which represents the variation of potential energy (U) as a function of time t and displacement x.

For a particle executing simple harmonic motion, the displacement x is given by x= Acosomegat . Identify the graph, which represents the variation of potential energy (U) as a function of time t and displacement x.

For a particle executing simple harmonic motion, the displacement x is given by x= Acosomegat . Identify the graph, which represents the variation of potential energy (U) as a function of time t and displacement x.

For a particle executing (SHM) the displacement (x) is given by (x = A) cos (omega) t . Identify the graph which represents the variation of potential energy (PE) as a function of time (t) and displacement (x). (##JMA_CHMO_C10_006_Q01##), (##JMA_CHMO_C10_006_Q02##).

If for a particle executing SHM, the equation of SHM is given as y=acosomegat . Then which of the following graphs represents the variation in potential energy?

For a particle executing SHM , the kinetic energy (K) is given by K = K_(0)cos^(2) omegat . The equation for its displacement is

For a particle executing SHM , the kinetic energy (K) is given by K = K_(0)cos^(2) omegat . The equation for its displacement is

Write the expression of potential energy of SHM particle (i) as a function of displacement (ii) as a function of time.