Electrons are accelerated to an energy of 10 MeV in a linear accelerator, andthen injected into a synchrotron of radius 15 m, from which they are acceler-ated with an energy of 5 GeV. The energy gain per revolution is 1keV(a) Calculate the initial frequency of the RF source. Will it be necessary tochange this frequency?(b) How many turns will the electron make?(c) Calculate the time between injection and extraction of the electrons(d) What distance do the electrons travel within the synchrotron?

Answered: Image /qna-images/answer/ed04ff67-e238-49d4-8ce0-c242a32d9dd9.jpg

Electrons are accelerated to an energy of 10 MeV in then injected into a synchrotron of radius 15 m, from ated with an energy of 5 GeV. The energy gain per re (a) Calculate the initial frequency of the RF source change this frequency? (b) How many turns will the electron make?

Electrons are accelerated to an energy of 10 MeV in then injected into a synchrotron of radius 15 m, from ated with an energy of 5 GeV. The energy gain per re (a) Calculate the initial frequency of the RF source change this frequency? (b) How many turns will the electron make?

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Question

Electrons are accelerated to an energy of 10 MeV in a linear accelerator, and
then injected into a synchrotron of radius 15 m, from which they are acceler-
ated with an energy of 5 GeV. The energy gain per revolution is 1keV
(a) Calculate the initial frequency of the RF source. Will it be necessary to
change this frequency?
(b) How many turns will the electron make?
(c) Calculate the time between injection and extraction of the electrons
(d) What distance do the electrons travel within the synchrotron?

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