An electron having kinetic energy T is m...

An electron having kinetic energy T is moving in a circular orbit of radius R prependicular to a uniform magnetic field induction `barB` . If kinetic energy is double and magentic field induction is triple, the radius will becomes :

Similar Questions

Explore conceptually related problems

An electron having kinetic energy K is moving i a circular orbit of radius R perpendicular to a uniform magnetic induction. If kinetic energy is douled and magnetic induction tripled, the radius will become

An electron having 182 eV kinetic energy is moving on a circular path in a magnetic field of 10^(-4)T . The speed of the electron is ......

An electron moving in a circular orbit of radius R with frequency f . The magnetic field at the centre of the orbit is

Current I A flowing in a circular coil of radius r. then the magnetic induction at the centre is B. If the current is doubled then the magnetic induction will be

A proton carrying 1 MeV kinetic energy is moving in a circular path of radius R in uniform magnetic field. What should be the energy of an alpha- particle to describe a circle of the same radius in the same field?

A proton carrying 1 MeV kinetic energy is moving in a circular path of radius R in unifrom magentic field. What should be the energy of an alpha- particle to describe a circle of the same radius in the same field?

An electron having kinetic energy T is moving in a circular orbit of radius R prependicular to a uniform magnetic field induction `barB` . If kinetic energy is double and magentic field induction is triple, the radius will becomes :

Similar Questions

Recommended Questions