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A cyclotron with dee radius 50.3 cm is operated at an oscillator frequency of 12.4 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 = 1.81 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 Units (b) Number Units (c) Number Units (d) Number Units

A cyclotron with dee radius 50.3 cm is operated at an oscillator frequency of 12.4 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 = 1.81 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 Units (b) Number Units (c) Number Units (d) Number Units

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A cyclotron with dee radius 50.3 cm is operated at an oscillator frequency of 12.4 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 =1.81 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 (b) Number (c) Number (d) Number i i
Units
Units Units
Units

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