The magnetic field in a certain region is given by `B = (4.0veci -1.8 veck) xx 10^-3 T`. How much flux passes through a `5.0 cm^2` area loop in this region if the loop lies flat on the xy-plane?

The magnetic field in a certain region is given by B = (4.0veci -1.8 veck) xx 10^-3 T . How much flu passes through a 5.0 cm^2 area loop in this region if the loop lies flat on the xy-plane?

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 × 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.

Magnetic field in a region is given by B=B_0xhatk . Two loops each of side a is placed in the magnetic region in the xy-plane with one of its sides on x-axis. If F_1 is the force on loop 1 and d F_2 be the force on loop 2, then

The magnetic field in a region is given by vec(B)=B_(0)(1+(x)/(a))hat(k) . A square loop of edge length 'd' is placed with its edge along X-axis and Y-axis. The loop is moved with a constant velocity vec(V)=V_(0)hat(i) . The emf induced in the loop is

The magnetic flux across a loop of resistance 10Omega is given by phi=5t^(2)-4t+1Wb . How much current is induced in the loop after 0.2 s?

Electrons taveling at a velocity of 2.4xx10^(6) ms^(-1) enter a region of crossed electric and magnetic fields as shoen in Fig. If the electric field is 3.0xx10^(6) Vm and the flux density of the magnetic field is 1.5 T, the electrons upon entering the region of the crossed fields will

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

The magnetic field B due to a current- carrying circular loop of radius 12cm at its center is 0.50 xx (10^-4) T . Find the magnetic field due to this loop at a point on the axis at a distance of 5.0 cm from the centre.

The magnetic field B due to a current- carrying circular loop of radius 12cm at its center is 0.50 xx (10^-4) T . Find the magnetic field due to this loop at a point on the axis at a distance of 5.0 cm from the centre.