A metallic block carrying current I is ...

A metallic block carrying current `I` is subjected to a uniform magnetic induction `vec(B) as shown in Figure . The moving charges experience a force ` vec(F) given by ….. Which results in the lowering of the potential of the face ……. Assume the speed of the carries to be `v` .

Similar Questions

Explore conceptually related problems

the force on current carrying wire placed in uniform magnetic field B as shown in figure is

A rectangular coil of sides l and b carrying a current I is subjected to a uniform magnetic field vec B acting perpendicular to its plane. Obtain the expression for the torque acting on it.

PQ is a uniform rod of length l and mass m carrying current i and is suspended in uniform magnetic field of induction vec(B) acting inward as shown in figure. The tension in each string is

When a current carrying coil is suspended in. uniform magnetic induction B, the magnitude of torque acting on it is given by

A rod CD of length b carrying a current I_(2) is placed in a magentic field due to a thin long wire AB carrying current I_(1) as shown in figure. Then find the net force experience by the wire

A wire PQRST carrying current I = 5A is placed in uniform magnetic field B = 2T as shown in figure If the length of part QR = 4 cm and SR = 6 cm then the magnetic force on SR edge of the wire is :-

When a conductor of length l carrying a current I is placed in a magnetic field of induction B at an angle theta with respect to vec(B) , the force experienced by it is

A particle carrying a charge moves perpendicular to a uniform magnetic field of induction B with a momentum p then the radius of the circular path is

A metallic block carrying current `I` is subjected to a uniform magnetic induction `vec(B) as shown in Figure . The moving charges experience a force ` vec(F) given by ….. Which results in the lowering of the potential of the face ……. Assume the speed of the carries to be `v` .

Similar Questions

Recommended Questions