A current of 10A is established in a long wire along the positive z-axis. Find the magnetic field `(vec B) at the point (1m , 0 , 0).

Equal currents are flowing in three infinitely long wires along positive x,y and z -directions. The magnetic field at a point (0,0-a) would be ( i= current in each wire)

Same current i is flowing in the three infinitely long wires along positive x-,y- and z-directions. The magnetic filed at a point (0,0,-a) would be

Two long, straight wires, each carrying a current of 5A, are placed along the x and y axes respectively. The currents point along the positive directions of the axes. Find the magnetic fields at the points (a) (1m, 1m), (b) (-1m, 1m), (c) (-1m, -1m) and (d) (1m, -1m).

A current of 10.0 nA is established in a circular loop of radius 5.0 cm. find the magnetic dipole moment of the current loop. : The magnetic dipole moment is vec mu= veciA .

(a). Find the magnetic field B at point O (centre) of (i). ABCD, which is a square of side l. (ii). ABC, which is an equilateral triangle of side l. (b) Twelve uniform wires of equal length l and each of resistance r are connected to form a skelton cube. A battary of emf E is connected between two diagonally opposite corners of the cube. The magnetic induction at the centreof the cube is ......... (c) An infinately long straight wire is placed at the origin along the z-axis. The current I flows along the positive z-axis. Find the unit vecotrs showing the direction of magnetic field at the four points: P(a,0), Q(0,b), R(a,0) and S(0,-b)

A 3*0cm wire carrying a current of 10A is placed inside a solenoid perpendicular to its axis. The magnetic field inside the solenoid is given to be 0*27T . What is the magnetic force on the wire?

An 8 cm long wire carrying a current of 10 A is placed inside a solenoid perpendicular to its axis. If the magnetic field inside the solenoid is 0.3 T, then magnetic force on the wire is

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

Figure shows two parallel wires separated by a distance of 4.0 cm and carrying equal currents of 10A along opposite directions. Find the magnitude of the magnetic field B at the points A_1, A_2, A_3 and A_4.

A particle of mass m and having a positive charge q is projected from origin with speed v_(0) along the positive X-axis in a magnetic field B = -B_(0)hatK , where B_(0) is a positive constant. If the particle passes through (0,y,0), then y is equal to