A charge of` 2.0 muC` moves with a speed of `2.0 X10^6 m s^(-1)` along the positive x-axis. A magnetic field `vecB` of strength `(0.20 vecJ +0.40veck) T` exists in space. Find the magnetic force acting on the charge

A positive charge of 1.5 mu C is moving with a speed of 2 xx 10^(-6) ms^(-1) along the postive X-axis. A magnetic field, vec(B) = (0.2 hat(j) + 0.4 hat(k)) tesla acts in space. Find the magnetic force acting on the charge.

A negative charge of magnitude 2 muC is moving with a speed of 3 xx 10^(6) m//s along the positive Y-axis . A magnetic field vecB = (0.5hati - 0.4 hatk) T acts in the space. What is the magnitude and direction of force on the given charge ?

A charge of 4.0 muC is moving with a velocity of 4.0 times 10^6ms^(–1) along the positive y-axis under a magnetic field vec B of strength (2 hat k) T. The force acting on the charge is x hat i N . The value of x is __.

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 charged particle of charge 2*0muC moving along x-axis with a speed of 3xx10^6ms^-1 enters a magnetic field, vecB=(0*3hatj+0*4hatk) tesla acting in a specific. What is the magnitude of magnetic force on the charged particle?

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.