An `alpha`- particle is moving field of `(4hati - hatj)` tesla with a velocity of `(6 xx 10^(5) hati) ms^(-1)`. What will be the magnetic force acting on the particle?

An alpha -particle is moving in a magnetic field of (3hati+2hatj) tesla with a velocity of (5xx10^5hati)ms^-1 . What will be the magnetic force acting on the particle?

An a particle is moving in a magnetic field of (3 hat(i) + 2 hat (j)) tesla with a velocity of 5xx10^(5) hat (i) m/s. The magnetic force acting on the particle will be-

An alpha particle is moving with a velocity of (7 xx 10^(5) hat I m//s) in a magnetic field of (5 hat I + 9 hat j) T. Find the magnetic force acting on the particle.

An alpha particle is moving with a velocity of (7 xx 10^(5) hat i m//s) in a magnetic field of (5 hat i + 9 hat j ) . T . Find the magnetic force acting on the particle.

A charged particle moves in a uniform magnetic field B=(2hati-3hatj) T

A force (hati-2hatj+3hatk) acts on a particle of positive vector (3hati+2hatj+hatk) . Calculat the torque acting on the particle.

A particle moving with a velocity of ( 4hati-hatj ) mis strikes a fixed smooth wall and finally moves with a velocity of ( 3hati + 2hatj ) m/s. The coefficient of restitution between the wall and the particle in the collision will be

If an alpha- particle moving with velocity 'v' enters perpendicular to a magnetic field then the magnetic force acting on it will be-

A Particle move from the point (2.0 hati + 4.0 hatj)m , at t 0 , with an initial velocity (5.0 hati + 4.0hati)ms^(-1) . It is acted upon by a constant force which prouduces a constant acceleration (4.0hati + 4.0 hatj) ms^(-2) . What is the distance of the particle from the origin at time 2 s?

A force (hati-2hatj+3hatk) acts on a particle lying at origin. What is the torque acting on the particle.