The field potebtial in a certain region of space depends only on the x coordinate as `varphi=-ax^(3)+b`, where a and b are constants. Find the distribution of the space charge `rho(x)`.

The field potentail in a certain region of space depends only on the x coordinate as varphi = -ax^(2) + b , where a and b are constants. Find the distribution of the space charge rho (x) .

A partical of mass m is located in a unidimensionnal potential field where potentical energy of the partical depends on the coordinates x as U (x) = (A)/(x^(2)) - (B)/(x) where A and B are positive constant. Find the time period of small oscillation that the partical perform about equilibrium possition.

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) .

The potential in the electric field varies as V = -a x^2 + b with respect to x - coordinate, where a and b are constants. Find the charge density rho (x) in a space.

A particle of mass m is present in a region where the potential energy of the particle depends on the x-coordinate according to the expression U=(a)/(x^2)-(b)/(x) , where a and b are positive constant. The particle will perform.

A partical of mass m is located in a unidimensionnal potential field where potentical energy of the partical depends on the coordinates x as: U (x) = U_(0) (1 - cos Ax), U_(0) and A constants. Find the period of small oscillation that the partical performs about the equilibrium position.

The value of int_-3^3(a x^5+b x^3+c x+k)dx , where a, b, c and k are constants, depends only on

The potential of the field inside a charged sphere depends upon the distance from its centre to the point under consideration in the following way: V=ar^n+b , where a and b are constants If the charge is uniformly distributed within the sphere, then the value of n is

A function has the form f(x)=ax+b, where a and b are constants. If f(2)=1" and "f(-3)=11 , the function is defined by

The intensity of an electric field depends only on the coordinates x and y as follows, E = (a(xhati +y hatj))/(x^(2)+y^(2)) where, a is constant and hati and hatj are the unit vectors of the x and y axes. Find the charges within a sphere of radius R with the centre at the origin.