Electric field in a region is given by `vec(E)=-4xhat(i)+6yhat(j)`. The charge enclosed in the cube of side `1 m` oriented as shown in the diagram is given by `alpha in_(0)`. Find the value of `alpha`.

Electric field in a region is given by vec( E) = - 4xhat(i) + 6yhat(j) . Then find the charge enclosed in the cube of side 1m oriented as shown in the diagram

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 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.

Electric field in a region is given by E=(2hati+3hatj-4hatk)V//m . Find the potential difference between points (0, 0, 0) and (1,2,3) in this region.

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 .

For given vec(E)=2x hat(i)+3yhat(j) , find the potential at (x, y) if V at origin is 5 volts.

An electric field given by vec(E) = 4hat(i) - (20 y^(2) + 2) hat(j) pierces a Gussian cube of side 1 m placed at origin such that its three sides represents x,y and z axes. The net charge enclosed within the cube is x xx 10^(-10)C , where is _____. (take in_(0) = 8.85 xx 10^(-12) N^(-1)m^(-2)C^(2) )

The gravitational field in a region is given by vec(E) = (4hat(i) + 3hat(j)) N//Kg . The gravitational potential at the points (3m, 0) and (0, 4m). If the potential at the origin is taken to be zero.

The electric field in a region of space is given by, vec(E ) = E_(0) hat(i) + 2 E_(0) hat(j) where E_(0)= 100N//C . The flux of this field through a circular surface of radius 0.02m parallel to the Y-Z plane is nearly.

In the given electric field vecE=[(d+x)hati+E_(0)hatj]N//Ca hypothetical closed surface is taken as shown in figure. The total charge enclosed within the closed surface is Kepsilon_(0) . Then, find the value of k . ( a=2m , b=3m and c=2m )