A current carrying conductor of mass m, ...

A current carrying conductor of mass `m`, length `1 ` carrying a current `i` hangs by two identical springs each of stiffness `k`. For an outward magnetic field `B` find the deformation of the springs. Put `m=50gm.g=10m//s^(2),l=1//2m,i=1A` and `B=1T` and `k=50N//m`

Similar Questions

Explore conceptually related problems

A current carrying conductor of mass m, length I carrying a current i hangs by two identical springs each of stiffness k. For an outward magnetic field B find the deformation of the springs. Put m=50 gm,. g=10m//s^(2),l=1/2m,i=1A and B=1 T and k=50 N/m

A straight conductor of length l m carrying a current 1A is bent in the form of a semicircle. The magnetic field (in tesla) at the centre of the semicircle is-

A straight conductor of length l m carrying a current I A is bent in the form of a semicirle. The magnetic field (in tesla) at the centre of the semicircle is

A conductor of length 1m and carrying current of 1A is placed parallel to the magnetic field of 1 gauss .The magnetic force acting on the conductor is: ?

A conductor of length 1m and carrying current of 1A is placed at an angle 45^@ to the magnetic field of 1 oersted. The force acting on the conductor is

" The length of current carrying conductor is "1.6m" and carries a current "2A" .Then the momentum of electrons in that conductor is "

A conductor (rod) of mass m, length l carrying a current i is subjected to a magnetic field of induction B. If the coefficients of friction between the conducting rod and rail is mu, find the value of I if the rod starts sliding.

A current carrying conductor of mass `m`, length `1 ` carrying a current `i` hangs by two identical springs each of stiffness `k`. For an outward magnetic field `B` find the deformation of the springs. Put `m=50gm.g=10m//s^(2),l=1//2m,i=1A` and `B=1T` and `k=50N//m`

Similar Questions

Recommended Questions