A particle of mass m is located in a potential field given by U (x) = `U_(o)` (1-cos ax) where `U_(o)` and a are constants and x is distance from origin. The period of small oscillations is

A particle of mass m is located in a one dimensional potential field where potential energy is given by V(x) = A(1- cos Px) , where A and P are constant . The period of small oscillations of the particle is

A body of mass m is situated in a potential field U(x)= U_(0) (1-cos alpha x) when U_(0)" and "alpha are constants. Find the time period of small oscillations.

The potential energy of a particle of mass 'm' situated in a unidimensional potential field varies as U(x) = U_0 [1- cos((ax)/2)] , where U_0 and a are positive constant. The time period of small oscillations of the particle about the mean position-

The potential energy of a particle of mass 'm' situated in a unidimensional potential field varies as U(x) = U_0 [1- cos((ax)/2)] , where U_0 and a are positive constant. The time period of small oscillations of the particle about the mean position-

The potential energy of a peticle of mass 'm' situated in a unidimensional potential field varies as U(x) = 0 [1 - cos ax] , where U_(0) and a are constants. The time period of small oscillations of the particle about the mean positions is :

The potential energy of a peticle of mass 'm' situated in a unidimensional potential field varies as U(x) = 0 [1 - cos ax] , where U_(0) and a are constants. The time period of small oscillations of the particle about the mean positions is :