The volume charge density as a function of distance X from one face inside a unit cube is varying as shown in the figure. Then the total flux (in S.I. units) through the cube if `(rho_(0)=8.85xx10^(-12)C//m^(3))` is :

The volume charge density as a function of distance X from one face inside a unit cube is varying as shown in the figure. Find the total flux (in S.I. units) through the cube ("If "rho_(0)=8.85xx10^(-12) C//m^(3)) .

An infinite, uniformly charged sheet with surface charge density sigma cuts through a spherical Gaussian surfance of radius R at a distance X from its center, as shown in the figure. The electric flux Phi through the Gaussian surfce is .

Two infinite line charges each having uniform charges density lamdba .pass through the mid points of two pairs of opposite faces of a cube of edge L as shown in figure .The modulue of the total electric flux due to the both the line charges through the face

A point charge of +12 muC is at a distance 6 cm vertically above the centre of a square of side 12 cm as shown in figure. The magnitude of the electric flux through the square will be _______ xx10^3Nm^(2)//C .

A point charge of 4.427 mu C is at the centre of a cube Gaussian surface 9.0 cm on the edge. Find the net electric flux through the surface. ( epsilon_0=8.854xx10^(-12)C^2 N^(-1) m^(-2) )

A Force F acting on an object varies with distance x as shown in the figure. The work done by the force in moving the object from x = 0 to x = 8m is

The surface density of charge on the surface of a charged conductor in the air is 26.5 muCm^(-2) . The the outward force per unit area of the charged conductor is (epsilon_0=8.85xx10^-12C^2N^-1m^-2)