A cyclotron with dee radius 50.7 cm is operated at an oscillator frequency of 11.8 MHz to accelerate protons. (a) What magnitude B of magnetic field is required to achieve resonance? (b) At that field magnitude, what is the kinetic energy of a proton emerging from the cyclotron? Suppose, instead, that B =1.54 T. (c) What oscillator frequency is required to achieve resonance now? (d) At that frequency, what is the kinetic energy of an emerging proton? (a) Number i Units (b) Number i Units (c) Number i Units
A cyclotron with dee radius 50.7 cm is operated at an oscillator frequency of 11.8 MHz to accelerate protons. (a) What magnitude B of magnetic field is required to achieve resonance? (b) At that field magnitude, what is the kinetic energy of a proton emerging from the cyclotron? Suppose, instead, that B =1.54 T. (c) What oscillator frequency is required to achieve resonance now? (d) At that frequency, what is the kinetic energy of an emerging proton? (a) Number i Units (b) Number i Units (c) Number i Units
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Author:Robert L. Boylestad
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Transcribed Image Text:A cyclotron with dee radius 50.7 cm is operated at an oscillator frequency of 11.8 MHz to accelerate protons. (a) What magnitude B
of magnetic field is required to achieve resonance? (b) At that field magnitude, what is the kinetic energy of a proton emerging from
the cyclotron? Suppose, instead, that B = 1.54 T. (c) What oscillator frequency is required to achieve resonance now? (d) At that
frequency, what is the kinetic energy of an emerging proton?
(a) Number
i
Units
(b) Number
i
Units
(c) Number
Units
(d) Number
i
Units
>
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