A 10 g bullet having a charge of `4.00 muC` is fired at a speed of `270 ms^(-1)` in a horizontal direction. A vertical magnetic field of `500 muT` exists in the space. Find the deflection of the bullet due to the magnetic field as it travels thrugh 100m. make appropriate approximations.

A charged particle having mass m and charge q is acceleration by a potential difference V, it files through a uniform tranverse magnetic field b.The field occupies a region of space d.Find the time interval for which it remains inside the magnetic field (i) An alpha particle is acceleration by a potential difference of 10^(4) V. Find the change in tis direction of motiom if it enters normally in a region of thicknees 0.1 , having transverse magnetic induction of 0.1T(m_(aplha)=6.4xx10^(-27)kg) (ii) a 10 g bullet having a charge of 4muC is fired at a speed 270ms^(-1) in a horizontal direction,A vertical magnetic field as it travels through 100 m .Make appropriate approximations

A charged particle having mass m and charge q is acceleration by a potential difference V, it files through a uniform tranverse magnetic field b.The field occupies a region of space d.Find the time interval for which it remains inside the magnetic field (i) An alpha particle is acceleration by a potential difference of 10^(4) V. Find the change in tis direction of motiom if it enters normally in a region of thicknees 0.1 , having transverse magnetic induction of 0.1T(m_(aplha)=6.4xx10^(-27)kg) (ii) a 10 g bullet having a charge of 4muC is fired at a speed 270ms^(-1) in a horizontal direction,A vertical magnetic field as it travels through 100 m .Make appropriate approximations

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 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 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 bar magnet having a magnetic moment of 1.0 xx 10^4 J T^(-1) is free to rotate in a horizontal plane. A horizontal magnetic field B = 4 xx 10^(-5) T exists in the space. Find the work done in rotating the magnet slowly from a direction parallel to the field to a direction 60^@ from the field.

A bar magnet having a magnetic moment of 1.0 xx 10^4 J T^(-1) is free to rotate in a horizontal plane. A horizontal magnetic field B = 4 xx 10^(-5) T exists in the space. Find the work done in rotating the magnet slowly from a direction parallel to the field to a direction 60^@ from the field.

A bar magnet having a magnetic moment of 1.0 xx 10^4 J T^(-1) is free to rotate in a horizontal plane. A horizontal magnetic field B = 4 xx 10^(-5) T exists in the space. Find the work done in rotating the magnet slowly from a direction parallel to the field to a direction 60^@ from the field.