The electric field in a region of space is given by `E = (5 hat(i) + 2hat(j))N//C`. The electric flux due to this field through an area `2m^(2)` lying in the YZ plane, in S.I. unit is :-

The electric field in a region of space is given by E=5hati+2hatjN//C . The flux of E due ot this field through an area 1m^2 lying in the y-z plane, in SI units is

Electric field in a region of space is given by vec E=ayhat i+axhat j then

The electric field in a region of space is given by, E=5veci+2vecj N//C The electric flux through an area 2m^(2) lying in the YZ plane in SI unit is

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 :

The electric field in a certain region of space is (5 hat(i) + 4 hat(j) - hat(k)) xx 10^(5) N//C . Calculate electric flux due to this field over an area of (2 hat(i) - hat(j)) xx 10^(-2) m^(2) .

The electric field in a certain region of space is ( 5 hat(i) 4 hat(j) - 4 hat(k)) xx 10^(5) [ N //C] . Calculate electric flux due to this field over an area of ( 2 hat(i) - hat(j)) xx 10^(-2) [ m^(2)]

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.

Electric field function in a region of space is given as → E = y i + x j. The shape of equipotential surface is

The electric field in a region of space is given bar(E)=E_(0)hat i+2E_(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: