A cyclotron oscillator frequency is `10MHz`. What should be the operating magnetic field for accelerating protons? If the radius of its dees is `60cm`, what is the kinetic energy of the proton beam produced by the acceleration in `MeV`?
`(e=1*6xx10^(-19)C, m_p=1*67xx10^(-27)kg, 1MeV=1*6xx10^(-13)J)`

A cyclotron's oscillator frequency is 10MHz . What should be the operating magnetic field fro accelerating protons? If the radius of its dees is 60cm , what is the kinetic energy (in MeV ) of the proton beam produced by the acceleration? (e-1.60xx10^-19C,m_p=1.67xx10^-27kg, 1MeV=1.6xx10^-13J)

A cyclotron's oscillator frequency is 10 MHz . The operating magnetic field for accelerating protons is

A cyclotron oscillator frequency is 10MHz . What should be the operating magnetic field for accelerating alpha -particle? If the radius of the dees is 50cm , what is the kinetic energy in MeV of the alpha -particle beam produced by the accelerator? (e=1*6xx10^(-19)C, m_alpha=4*0028 a.m.u., 1a.m.u.=1*66xx10^(-27)kg)

A cyclotron's oscillator frequency is 10MHz . What should be the operating magnetic field for accelerating alpha -particles ? If the radius of the dees is 60cm , what is the kinetic energy of the alpha -particle beam produced by the accelerator? Given, charge of an electron is 1*6xx10^(-19)C , mass of each nucleon is 1*67xx10^(-27)kg .

If the cyclotron oscillator frequency is 16 MHz, then what should be the operating magnetic field for accelerating the proton of mass 1.67 xx 10^(-27) kg ?

The oscillating frequency of a cyclotron is 10 MHz . If the radius of its Dees is 0.5 m , the kinetic energy of a proton which is accelerated by the cyclotron is

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 .

A neutron break into proton and electron. Calculate the energy produced in this reactions in MeV. ( m_e=9.1xx10^(-31)kg, m_p=1.6725xx10^(-27) kg , m_n=1.6747xx10^(-27) kg ) :-