In a region of space the electric field in the `x`-direction and proportional to `x`i.e., `vec(E )=E_(0)xhat(i)`. Consider an imaginary cubical volume of edge a with its parallel to the axes of coordinates. The charge inside this volume will be

In a region of space the electric field in the x -direction and proportional to x i.e., vec(E )=E_(0)xhat(i) . Consider an imaginary cubical volume of edge a with its sides parallel to the axes of coordinates. The charge inside this volume will be

In a region of space, the electric field is the x direction and is given as vec(E ) = E_(0)x hat(i) . Consider an imaginary cubical volume of edge a, with its edges parallel to axes of coordinates. The charge inside this volume is :

The electric fields in a region is given by vec(E)=E_(0)(x)/(L)hat(i) ,Find the charge contained inside a cubical volume bounded by the surface x=0,x=L,y=0,y=L,z=0,z=L .

In a uniform electric field E if we consider an imaginary cubical closed surface of side a, then find the net flux through the cube ?

In a uniform electric field E if we consider an imaginary cubical closed surface of side a, then find the net flux through the cube ?

The electric field in a certain region is given by vec(E) = ((K)/(x^(3)))vec(i) . The dimensions of K are -

The electric field in a region is given by vec(E)=E_(0)x hat(i) . The charge contained inside a cubical volume bounded by the surface x=0, x=2m, y=0, y=2m, z=0 and z=2m is n epsi_(0)E_(0) . Find the va,ue of n.