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

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 .

The electric field intensity at all points in space is given by vec(E) = sqrt(3) hat (i) - hat (j) volts/metre. A square frame LMNO of side 1 metre is shown in figure. The point N lies in x-y plane. The initial angle between line ON and x-axis is theta = 60^(@) The work done by electric field in taking a point charge of 1 muC from origin O to point M is -

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 is given by E=ahati+bhatj . Hence as and b are constants. Find the net flux passing through a square area of side I parallel to y-z plane.

The electric field in a region is given by E=ahati+bhatj . Hence as and b are constants. Find the net flux passing through a square area of side I parallel to y-z plane.

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 potential field of an electric field vec(E)=(y hat(i)+x hat(j)) is

The potential field of an electric field vec(E)=(y hat(i)+x hat(j)) is

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) )

A bollow cylindrical box of length 1m and area of cross section 25 cm^(2) is placed in a three dimensional co-ordinate system as shown in Fig, The electric field in the region is given by vec(E) = 50 x hat(i) , where E is in NC^(-1) and x is in meter. Find (i) Net flux through the cylinder (ii) Charge enclosed by the cylinder.