Due to a charge inside a cube the electric field is `E_(x)=600 x^(1//2), E_(y)=0, E_(z)=0`. The charge inside the cube is (approximately):

A cube of side a is placed such that the nearest face , which is parallel to the yz plane , is at a distance a from the origin . The electric field components are E_(x) = alpha x ^(1//2) , E_(y) = E_(z) = 0 . The charge within the cube is

A cube of side a is placed such that the nearest face , which is parallel to the yz plane , is at a distance a from the origin . The electric field components are E_(x) = alpha x ^(1//2) , E_(y) = E_(z) = 0 . The flux phi_(E) through the cube is

A cube is arranged such that its length, breadth and height are along X, Y and Z directions, One of its corners is situated a the origin. Length of each side of the cube is 25cm. The components of electric field are E_(x) = 400 sqrt2 N//C, E_(y) = 0 and E_(z)= 0 respectively. Find the flux coming out of the cube at one end.

(a) Define electric flux. Write its SI units. (b) The electric field components due to a charge inside the cube of side 0.1 m are as shown : E_(x)=alpha x, where alpha=500N//C-m E_(y)=0, E_(z)=0 . Calculate (i) the flux through the cube, and (ii) the charge inside the cube.

(a) Define electric flux. Write its SI units. (b) The electric field components due to a charge inside the cube of side 0.1 m are as shown : E_(x)=alpha x, where alpha=500N//C-m E_(y)=0, E_(z)=0 . Calculate (i) the flux through the cube, and (ii) the charge inside the cube.

The electric components in the figure are E_(x)=alphax^(1//2) ,E_(y)=0,E_(z)=0 where alpha=800N//m^(2) if a=0.1m is the side of cube then the charge with in the cube is

The electric field components in the figure below are E_(x) = 800 x^(2) N //C ,E_(y)= E_(z) = 0 . Calculate (1) The flux throught he cube and (2) The charge withing the cube Assume that a =0.1 m

Using Gauss’s law, derive expression for intensity of electric field at any point near the infinitely long straight uniformly charged wire. The electric field components in the following figure are E_(x) = alphax, E_(y) = 0, E_(z) = 0, " in which " alpha = 400 N//C m. Calculate (i) the electric flux through the cube, and (ii) the charge within the cube assume that a = 0.1m.

A cube of side l has one corner at the origin of coordinates and extends along the positive x-,y- and z-axes. Suppose that the electric field in this region is given by vec E = (a+by)hatj . Determine the charge inside the cube (a and b are some constants).

The figure shows the electric lines of force emerging from a charged body. If the electric fields at A and E_(A) and E_(B) respectively and if the the distance between A anf B is r, then