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):

Due to a charge inside the cube, the electric field is: E_(x) = 600x, E_(y) = 0, E_(z) = 0. The charge inside the cube is nearly -

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

The electric field componets due to a charge inside the cube of side 0.1m are E_(x) = alpha x, where alpha = 500 (N//C) m^(-1) , E_(y) = 0, E_(z) = 0 . Calculate the flux through the cube and the charge inside the cube.

If a uniform electric field in existing inside a cube, then the net charge enclosed inside the cube is ___

A cube of arranged such that its length ,breadth ,height are along X,Y,Z directions one of its corners is situated at the origin Length of each side of the cube is 25cm .The components of electric field are E_(x)=400sqrt(2)N//C E_(y)=0 and E_(z)=0 respectively.Flux coming out of the cube at one end will be

(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

A cube is placed inside an electric field, vec E = 150 y^2 hatj . The side of the cube is 0.5 m and is placed in the field as shown in the given figure. The charge inside the cube is :

A cube is placed inside an electric field, vec E = 150 y^2 hatj . The side of the cube is 0.5 m and is placed in the field as shown in the given figure. The charge inside the cube is :