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 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 ?

How many protons weight 5kg? The mass of a proton is 1.67xx10^(-27)kg .

Protons are accelerated in a cyclotron using a magnetic field of 1.3 T. Calculate the frequency with which the electric field between the dees should be reversed.

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.

Calculate the accelerating potential that must be imparted to a photon to give it an effective wavelength of 0.005 nm (mass of proton =1.67xx10^(-27)kg )

Magnetic field applied on a cyclotron is 0*7T and radius of its dees is 1*8m . What will be the energy of the emergent protons in MeV ? Mass of proton =1*67xx10^-27kg .

In a cyclotron, a magnetic filed of 3.5 Wb//m^(2) is used to accelerate protons. What should be the time interval in which the electric field between the dees should be reversed? [Mass of the proton =1.67 xx 10^(-27) kg , charge on the proton =1.6 xx 10^(-19) C]

Find (a) the total number and (b) the total mass of protons in 34 mg of NH_(3) at S.T.P. (Assume the mass of proton =1.6726xx10^(-27)kg )

(a) Draw a schematic sketch of a cyclotron. Explain clearly the role of crossed electric and magnetic field in accelerating the charge. Hence , derive the expression for the kinetic energy aquired by the particles. (b) An alpha - particle and proton are released from the center of the cyclotron and made to accelerate. (i) Can both be accelerated at the same cyclotron frequency? Give resons to justify your answer. (ii) when they are accelerated in turn, which of the two will have higher velocity at the exit slit of the dees?

Find the number of revolutions made by a proton in a cyclotron to attain one fourth of speed of light, if the maximum value of accelerating potential provided by the oscillator is 40 kV ? Take mass of the proton = 1.67 xx 10^(-27) kg .