Statement : I A charged particle moves perpendicular to a magnetic field. Its kinetic energy remains constant, but momentum changes.
Statement II : A magnetic force acts on the charged particle.

The path of a charged particle whose motion is perpendicular to a uniform magnetic field is

The velocity of a charged particle moving in a magnetic field perpendicular to it is

If the angle between the direction of motion of a charged particle and the direction of a magnetic field vec(B) is ____ then the magnetic force acting on the charged particle will be maximum. [Fill in the blank]

A charged particle moving in a straight line perpendicular to a uniform magnetic field enters the field. What will be its path in the field?

Write down the equation of Lorentz force acting on a moving charged particle.

Write down the equation of Lorentz force acting on a moving charged particle.

Does a stationary charge experience any force in a magnetic field ?

Statement : I The velocity of ejection of a charged particle, being accelerated in a cyclotron remains constant irrespective of the applied magnetic field. Statement : II In a cyclotron the charged particle is accelerated only due to the applied electric field because magnetic force is a no-work force.

A charged particle enters a uniform magnetic field perpendicularly and experiences a force F. if the kintetic energy of the particle is doubled, then what will be the force on that particles ?

Statement I: When a body moves uniformly in a circular its momentum goes on changing but its kinetic energy remains constant. Statement II: vecp =vec(mv), KE =1/2 mv^2 . In circular motion vecv changes, v^2 does not change.