In S.H.M., potential energy (U) V/s, time (t) . Graph is

Which of the following graph is correct between kinetic energy E , potential energy (U) and height (h) from the ground of the partical

Consider a hypothetical situation where we are comparing the properties of two crystals made of atom A and atom B . Potential energy (U) v//s interatomic separation (r) graph for atom A and atom B is shown in figure (i) and (ii) and respectively. It is seen that the potential energy can reach a maximum value of U_(T) at temperature T= 10K . if r_(1) and r_(2) are 0.9999 r_(0) "and" 1.0003 r_(0) for atoms of crystal A , its approximate coefficient of linear expansion can be :-

A body performs S.H.M. Its kinetic energy K varies with time t as indicated by graph

At the surface of earth, potential energy of a particle is U and potential is V.Change in potential energy and potential at height h=R are suppose DeltaU" and " Delta V .Then

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)

The figure below shows a graph of potential energy U(s) verses position x for a particle executing on edimensional motion along the x axis. The total mechanical energy of the system is indicated by the dashed line. At t=0 the particle is somewhere between points A and G. For later times choose the correct statement:-

For any S.H.M., amplitude is 6 cm . If instantaneous potential energy is half the total energy then distance of particle from its mean position is

The potential energy of a particle executing S H M is 25 J. when its displacement is half of amplitude. The total energy of the particle is

If V and u are electric potential and energy density, respectively, at a distance r from a positive point charge, then which of the following graph is correct ?

Assuming potential energy 'U' at ground level to be zero. All objects are made up of same material :- {:(U_(P) = "Potential energy of solid sphere",U_(Q) = "Potential energy of solid cube",),(U_(R ) = "Potential energy of solid cone",U_(S) = "Potential energy of solid cylinder",):}