A proton beam is being accelerated by a cyclotron. Each of the dees has a radius of 1.2 m, and a magnetic field of `0.2 Wb.m^(-2)` is applied normal to them. What is
the frequency of the alternating emf applied across the dees,

A proton beam is being accelerated by a cyclotron. Each of the dees has a radius of 1.2 m, and a magnetic field of 0.2 Wb.m^(-2) is applied normal to them. What is the energy attained, in million eV, by each proton? Given, charge of proton =1.6xx10^(-19)C , its mass =1.67xx10^(-27)kg,1eV=1.6xx10^(-19)J

A cyclotron has dees of radius 47 cm and uses a maximum magnetic field of 1.77 T:- To what frequency should the oscillator be set of deuterons are to be accelerated?

A cyclotron is being used to accelerate positive ions mass is 6.7xx10^(-27)kg and charge is 3.2xx10^(-19)C has a magnetic field of pi/2T . What must be the value of frequency of the applied alternating electric field to be used in it?

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?

In a cyclotron, magnetic field of 1.4Wb/m^2 is used. To accelerate protons, how rapidly should the electric field between the Dees be reversed?

Deuterons are accelerated in a cyclotron that has dees of radius 50 cm and an oscillator frequency 10 MHz:- What is the maximum velocity of the deuterons emerging from the cyclotron?

A cyclotron.s oscillator frequency is 10 MHz and the operating magnetic field is 0.66 T. If the radius of its dees is 60 cm, then the kinetic energy of the proton beam produced by the accelerator is

Deuterons are accelerated in a cyclotron that has dees of radius 50 cm and an oscillator frequency 10 MHz:- What is the magnetic field induction needed to accelerate the deuterons?