An alternate electric field of frequency...

An alternate electric field of frequency v, is applied across the dees `(radius=R)` of a cyclotron that is being used to accelerate protons `("mass"=m)`. The operating magnetic field (b) used in the cyclotron and the kinetic energy (K) of the proton beam, produced by it, are given by

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An alternating electric field, of frequency v, is applied across the dees (radius=R) of a cyclotron that is being used to accelerate protons (mass=m) the operating magnetic field (B) used in the cyclotron and the kinetic energy (K) of the proton beam, produced by it, are given by:

An alternating electric field, of frequency v, is applied across the dees (radius =R) ofa cyclotron that is being used to accelerati protons (mass =m). The operating magnetic field (B) used in the cyclotron and the kinetic energy (K) of the proton beam, produced by it, are given by

An alternating electric field of frequency f is applied across the radius R of a cyclotron to accelerate protons ( mass m ). The operating magnetic field B used and K.E. of the proton beam produced by it are respectively (e = charge on proton)

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

A cycolotron's oscillator frequency is 10 MHz and the operating magnetic 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

An alternate electric field of frequency v, is applied across the dees `(radius=R)` of a cyclotron that is being used to accelerate protons `("mass"=m)`. The operating magnetic field (b) used in the cyclotron and the kinetic energy (K) of the proton beam, produced by it, are given by

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