The electric field in a region is given by `vecE=3/5 E_0veci+4/5E_0vecj` with `E_0=2.0 xx 10^3 N C^(-1)`. Find the flux of this field through a recatngular surface of area `0.2m^2` parallel to the y-z plane.

The electric field in a region is given by E = 3/5 E_0hati +4/5E_0j with E_0 = 2.0 x 10^3 N//C . Find the flux of this field through a rectangular surface of area 0.2 m^2 parallel to the y-z plane.

The electric field in a region is given by E = 3/5 E_0hati +4/5E_0j with E_0 = 2.0 × 10^3 N//C . Find the flux of this field through a rectangular surface of area 0.2 m^2 parallel to the y-z plane.

The electric field in a region is given by vecE=(2)/(5) E_(0)hati+(3)/(5)E_(0)hatj with E_(0)=4.0xx10^(3)(N)/(C ). The flux of this field through a rectangular surface area 0.4m^(2) parallel to the Y-Z plane is _________ Nm^(2)C^(-1) .

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.

The electric field in a region is given vecE=((3)/(5)E_(0) hati+(4)/(5)E_(0) hatj)(N)/(C) . The ratio of flux of reported field through the rectangular surface of area 0.2 m^(2) (parallel to y - z plane) to that of the surface of area 0.3m^(2) (parallel to x-z plane) is a:b where a= ____ [ Here hati, hatj and hatk are unit vectors along x,y and z-axes respectively ]

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:

Consider a uniform electric field E = 3 xx 10^(3) hat(i)N C^(-1) . What is te flux of this field through a square of 10 cm on a side whose plane is parallel to the yz plane ?