A aquare of side L meters lies in the xy-plane in a region, where the magnetic field is given by `B=B_0(2hati+3hatj+4hatk)` T, where `B_0` is constant. The magnitude of flux passing through the square is

A square of side L meters lies in the x-y plane in a region, where the magnetic field is given by B = B_(0) (2 hati + 3 hat j + 4 hatk) T, where B_(0) is constant. The magnitude of flux passing through the square is

A square of side L meters lies in the x-y plane in a region, where the magnetic field is give by B = B_(0) (2 hati + 3 hat j + 4 hatk) T, where B_(0) is constant. The magnitude of flux passing through the square is

A square of side x m lies in the x-y plane in a region, when the magntic field is given by vecB=B_(0)(3hati+4hatj+5hatk) T, where B_(0) is constant. The magnitude of flux passing through the square is

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 square of side 'a' is lying in xy plane such that two of its sides are lying on the axis. If an electric field vec(E)=E_(0)xhat(k) is applied on the square. The flux passing through the square is :

A circular loop of radius R carrying current I is kept in XZ plane. A uniform and constant magnetic field vecB=(B_(0)hati+2B_(0)hatj+3B_(0)hatk) exists in the region ( B_(0)- a positive constant). Then the magnitude of the torque acting on the loop will be

In a region of space, the electric field is given by vecE = 8hati + 4hatj + 3hatk . The electric flux through a surface of area 100 units in the xy plane is

A wire of length a'a carries a current I along the y-axis.A magnetic field exists given by B=B_(0)(3hati+2hatj+hatk)T Calculate magnetic force in vector from and its magnitude