A cyclotron has an oscillatory frequency of `10MHz` and a dee radius of `60cm`. Calculate the magnetic field required to accelerate the deutrons of mass `3*3xx10^(-27)kg` and charge `1*6xx10^(-19)C`. Find the energy of deutrons emerging from the cyclotron.

A cyclotron has an oscillator frequency 12MHz and a dee of radius 50cm . Calculate the magnetic induction needed to accelerate deuterons of mass 3.3 xx 10^(-27)kg and charge 1.6xx10^(-19)C

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 ?

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 ?

A cyclotron is operated at an oscillator frequency of 12 MHz and has a dee radius R 50 cm. What is the magnitude of the magnetic field needed for a proton to be accelerated in the cyclotron?

A cyclotron is operated at an oscillator frequency of 12 MHz and has a dee radius R 50 cm. What is the magnitude of the magnetic field needed for a proton to be accelerated in the cyclotron?

A cyclotron is operated at an oscillator frequency of 12 MHz and has a dee radius R 50 cm. What is the magnitude of the magnetic field needed for a proton to be accelerated in the cyclotron?

A cyclotron has oscillatory frequency of 3 xx 10^(7) Hz and a dee radius of 60 cm. A deuteron is accelerated in the given cyclotron. Find the magnitude of magnetic field used to accelerate the deuteron. Also, calculate the energy possessed by the deutron after coming out from the cyclotron (in MeV). Take, mass of deutron = 3.34 xx 10^(-27) kg