A wire of iength `I` carries a current along the x-axis. A magnetic field `B=B_0(hatj+hatk)` exists in the space. Find the magnitude of the magnetic force acting on the wire.

A wire of length L carries a current i along the x-axis. A magnetic field B=B_0(hati+hatj+hatk) exists in the space. Find the magnitude of the magnetic force acting on the wire.

A wire of length l metre carries a current I ampere along the Y-axis. A magnetic field, vecB=B_0(hati+hatj+hatk) tesla exists in space. Find the magnitude of the force on the wire.

A wire of length l carries a current I along the x-asis. A magnetic field exists which is given as vecB=B_0(veci+vecj+veck) T. find the magnitude of the magnetic force acting on the wire.

A wire of length l carries a current I along the x-asis. A magnetic field exists which is given as vecB=B_0(veci+vecj+veck) T. find the magnitude of the magnetic force acting on the wire.

A wire of length l carries a current I along the x-asis. A magnetic field exists which is given as vecB=B_0(veci+vecj+veck) T. find the magnitude of the magnetic force acting on the wire.

A wire of length l carries a current I along the Y direction and magnetic field is given by vecB = beta/sqrt3 (hat I + hatj + hatk) T . The magnitude of Lorentz force acting on the wire 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

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