A particle of mass m is in a uni-directional potential field where the potential energy of a particle depends on the x-coordinate given by `phi_(x)=phi_(0) (1- cos ax)` & `'phi_(0)'` and 'a' are constants. Find the physical dimensions of 'a' & `phi_(0)`.

A particles is in a unidirectional potential field where the potential energy (U) of a particle depends on the x-coordinate given by U_(x)=k(1-cos ax) & k and 'a' are constant. Find the physical dimensions of 'a' & k .

A particle of mass m in a unidirectional potential field have potential energy U(x)=alpha+2betax^(2) , where alpha and beta are positive constants. Find its time period of oscillations.

The potential energy of a particle from a distance x from an origin, changes according to the formula U=(Asqrtx)/(x+B) where A and B are constant so the dimension of AB=……

A particle of mass m is located in a region where its potential energy [U(x)] depends on the position x as potential Energy [U(x)]=(1)/(x^2)-(b)/(x) here a and b are positive constants… (i) Write dimensional formula of a and b (ii) If the time perios of oscillation which is calculated from above formula is stated by a student as T=4piasqrt((ma)/(b^2)) , Check whether his answer is dimensionally correct.

A particle moves on x-axis such that its KE varies as a relation KE= 3t^(2) then the average kinetic energy of a particle in 0 to 2 sec is given by :

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 position of a particle at time t is given by the relation x(t)=(v_(0)/alpha)(1-e^(-alphat)) where v_(0) is a constant and alpha gt 0 . Find the dimensions of v_(0) and alpha

The potential energy of a particle varies with distance x from a fixed origin as U = (A sqrt(x))/( x^(2) + B) , where A and B are dimensional constants , then find the dimensional formula for AB .

The potential energt of a particle of mass 0.1 kg, moving along the x-axis, is given by U=5x(x-4)J , where x is in meter. It can be concluded that

The coordinate of a particle moving in a plane are given by x(t) = a cos (pt) and y(t) = b sin (pt) where a,b (lt a) and P are positive constants of appropriate dimensions . Then