The magnetic field applied in a cyclotron is 3.5 T. What will be the frequency of electric field that must be applied between the does in order to accelerate protons ?

The magnetic flux density applied in a cyclotron is 3*5T . What will be the frequency of electric field that must be applied between the dees in order (a) to accelerate protons (b) alpha -particles? mass of proton 1*67xx10^(-27)kg .

The magnetic flux density applied in a cyclotron is 3*5T . What will be the frequency of electric field that must be applied between the dees in order (a) to accelerate protons (b) alpha -particles? mass of proton 1*67xx10^(-27)kg .

Find the freqency of electric field to be applied between the does of a cylotron to accelerate charged particles by it.

The cyclotron frequency of a cyclotron is 10 MHz. What will be the effective magnetic field to accelerate proton?

The electric field used in a cyclotron to accelerate charged particles is

In a cyclotron , the applied electric field

The radius of dees in a cyclotron is 1.9 m and the magnetic field applied on the cyclotron is 0.8 T. Calculate the energy gained by an emergent proton in cyclotron in keV. Mass of proton is 1.67 xx 10^(-27) kg.