A small cyclotron of maximum radius 0.5 m accelerates protons in a 1.7 T magnetic field. Calculate the kinetic energy (maximum) of protons when they leave the cyclotron.

A flywheel of mass 4 kg has radius of gyration 0.4 m. Calculate the kinetic energy of rotation when it makes 5 r.p.s

Maximum kinetic energy of the positive iron in the Cyclotron is

In a cyclotron protons are to be accelerated. Radius of the D is 60 cm and its oscillator frequency is 10 Mhz. What will be the kinetic energy of the accelerated proton? Proton mass = 1.67 xx 10^-27 kg , e = 1.6 xx 10^-19C lev = 1.6 xx 10^-19 J

The cyclotron frequency of an electron rotating in a magnetic field of 1 T is approximately equal to

A cyclotron has dees of radius 47 cm and uses a maximum magnetic field of 1.77 T:- What is the maximum energy of deuteron in Mev that can be obtained?

What are the factors on which the maximum kinetic energy acquired by the particle in the cyclotron depends?

A cyclotron in which flux density is 1.4 T is employed to accelerate protons. How rapidly should the field between the dees be reversed if mass of protoon be taken as 1.6 xx 10^(-27) kg ?

A cyclotron is to accelerate protons to a kinetic energy of 5 Me V. If the strength of the magnetic field in the cyclotron is 2 T. Find (i) the frequency needed for the applied voltage (ii) radius of the cyclotron

Derive an expression for the maximum kinetic energy gained by the positively charged particle in a cyclotron.