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 aircraft is moving with a velocity of 300ms^(-1) . If all the forces acting on it are balanced, then

If a particle of charge q is moving with a velocity v in a direction opposite to the magnetic field B, then the force acting on the particle is.

A stationary body of mass 3 kg explodes into three equal pieces. Two of the pieces fly off in two mutually perpendicular directions, one with a velocity of 3hati ms^(1) and the other with a velocity of 4hatj ms^(-1) . - If the explosion occurs in 10^(–4) s , the average force acting on the third piece in newton is

A charged particle is moved along a magnetic field line. The magnetic force on the particle is

A charged particle moves with velocity of 3 xx 10^6 m//s at right angle to a uniform field of magnetic field 0.005 T. Find the value of the charge on the particle if it experience a force of 2 xx 10^-2 N .

A proton enters a magnetic field of flux density 2.0 weber/m^2 with a velocity of 2 xx 10^7ms^1 at an angle of 30^@ with the field,the force on the proton will be

A force of (5hati+6hatj) N makes a body to move on a rough surface with a velocity of (4hatj-2hatk) m/s. What is the power?

The magnetic field of an EM wave travelling along X-axis is vecB = 4 xx 10^-4 sin (wt - kx) vecK in tesla, Calculate the peak value of electric force acting on a particle of charge 5 muc travelling with a velocity of 5 xx 10^5 m/sec along the y axis.

When a particle carrying a charge of 200 mu C moves at an angle 30^(@) to a uniform magnetic field of induction 5 xx 10^(-5) Wb//m^(2) with a speed of 2 xx 10^(5) m//s . The force acting on the particle is

A charged particle moves with a velocity 3 xx 10^6 m//s at right angles to a uniform magnetic field of induction 0.005T. Find the magnitude of the charge if the particle experience a force of 2 xx 10^-2N .