An electron moving with a velocity `v` along the positive `x`-axis approaches a circular current carrying loop as shown in the fig. the magnitude of magnetic force on electron at this instant is

A current - carrying loop is shown in the figure. The magnitude of the magnetic field produced at a point O is

A circular loop of radius 20 cm carries a current of 10 A. An electron crosses the plane of the loop with a speed of ( 2.0 xx (10^6) m s^-1). The direction of motion makes an angle of 30^@ with the axis of the circle and passes through its centre. Find the magnitude of the magnetic force on the electron at the instant it crosses the plane.

An electron is projected with uniform velocity along the axis of a current carrying long solenoid. Which of the following is true?

An electron is projected with uniform velocity along the axis of a current carrying long solenoid. Which of the following is true?

An electron is projected with uniform velocity along the axis of a current carrying long solenoid. Which of the following is true?

A proton is projected with a uniform velocity 'v' along the axis of a current carrying solenoid, then

An equilateral triangular loop is kept near to a current carrying long wire as shown fig. under the action of magnetic force alone, the loop

If an electron is moving with velocity v produces a magnetic field vecB , then

An electron moves along the line AB with constant velocity V which lies in the same plane as a circular loop of conducting wire , as shown in the figure . What will be the direction of current induced in the loop ?

An electron having a charged e moves with a velcoity v in postive x direction. A magnetic field acts on it in positive y direction. The force on the electron acts in (where outward direction is taken as positive z-axis)