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.

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 .

The electric field in a region is given by E = (E_0x)/lhati . Find the charge contained inside a cubical 1 volume bounded by the surfaces x=0, x=a, y=0, yh=, z=0 and z=a. Take E_0=5xx10^3N//C l=2cm and a=1m.

The electric field in a region is given by vecE=E_0x/iota veci . Find the charge contained inside a cubical volume bounded by the curfaced x=0, x=alpha, y=0, y=alpha, z=0 and z= alpha . Take E_0= 5 xx 10^3 N C^(-1) , iota= 2cm and alpha=1 cm .

The electric field in a region is given by vec (E ) = (E_(0))/(a) x hat(i) . Find the electric flux passing through a cubical volume bounded by the surfaces x = 0 , x = a , y = 0 , y = a , z = 0 and z = a .

The electric field in a region is given by E=alphaxhati . Here alpha is a constant of proper dimensions. Find a. the total flux passing throug a cube bounded by the surface x=l, x=2l, y=0, y=l, z=0, z=l . b. the charge contained inside in above cube.

The electric field in a region is radially outward with magnitude E = 2r. The charge contained in a sphere of radius a = 2m centerd at the origin is 4x piepsi_(0) . Find the value of x.

The area of the figure bounded by y=e^(x-1),y=0,x=0 and x=2 is

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