Electric field is given by `vec(E) = (8hat(i)+4hat(j)+3hat(k))NC^(-1)`. Electric flux through Y-Z plane X-Z plane are in ratio

If the electric field is given by vec(E) = 8 hat(i) + 4 hat(j) + 3 hat(k) NC^(-1) , calculate the electric flux through a surface of area 100 m^(2) lying in X-Y plane.

If the electric field is given by (6 hat(i) + 4 hat(j) + 4 hat(k)) , calculate the electric flux through a surface of area 20 units lying in Y-Z plane.

If the electric field is given by 3 hat(i) + 2 hat(j) + 6 hat(k) . Find the electric flux through a surface area 20 unit lying in xy plane

An electric field is given by (6 hat i 5 hat j 3 hat k) N/C. The electric flux through a surface area 30 hat i m^2 lying in YZ-plane (in SI unit) is :

If the electric field given by (5hat(i)+4hat(j)+9hat(k)) , then the electric flux through a surface of area 20 unit lying in the yz - plane will be

An electric field is given by vec(E )=(yhat(i)+hat(j))NC^(-1) . Find the work done (in j) by the electric field in moving a 1 C charge form vecr_(A)=(2 hat(i)+2 hat(j))m to vecr_(B)=(4 hat(i)+hat(j))m .

A surface element vec(ds) = 5 hat(i) is placed in an electric field vec(E) = 4 hat(i) + 4 hat(j) + 4 hat(k) . What is the electric flux emanting from the surface ?

Find the potential difference between points A and B in an electric field vec(E ) = (2hat(i) + 3hat(j) + 4hat(k)) NC^(-1) where vec(r_(A)) = (hat(i) -2hat(j) + hat(k))m and vec(r_(B)) = (2hat(i) + hat(j) - 2hat(k))m

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