A particle is executing SHM and its velocity v is related to its position (x) as `v^(2) + ax^(2) =b`, where a and b are positive constant. The frequency of oscillation of particle is

Acceleration of a particle, executing SHM, at it’s mean position is

Acceleration of a particle, executing SHM, at it’s mean position is

A particle of mass m is executing oscillations about the origin on the x-axis. Its potential energy is V(x)=kx^(2) . Where k is a positive constant. If the amplitude of oscillation is a, then its time period T is……………

A particle executing SHM has velocities u and v and acceleration a and b in two of its position. Find the distance between these two positions.

A particle executing SHM has velocities u and v and acceleration a and b in two of its position. Find the distance between these two positions.

A particle of mass (m) is executing oscillations about the origin on the x axis. Its potential energy is V(x) = k|x|^3 where k is a positive constant. If the amplitude of oscillation is a, then its time period (T) is.

A particle of mass m is executing oscillation about the origin on X- axis Its potential energy is V(x)=kIxI Where K is a positive constant If the amplitude oscillation is a, then its time period T is proportional

A particle of mass m is executing oscillation about the origin on X- axis Its potential energy is V(x)=kIxI Where K is a positive constant If the amplitude oscillation is a, then its time period T is proportional