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?

Related questions

Q: An optimal condition for the analysis of a radioelectric link is given with the use of the factor K…

A: The usual effect of the declining pressure of the atmosphere with height (vertical pressure…

Q: The cyclotron has a resonance chamber in the form of a D-shape with a radius of 62 cm, and it…

A: Resonance Chamber Radius (r) = 62 cm = 0.62 mMagnetic Flux Density (B) = 1.3 TeslaCharge of an…

Q: QUESTION 1 of If we know that dt 0. and that f(0) is 13 volts, T is 1.92 seconds, then at what time…

A: Ques:

Q: (a) Van Allen belts ( capture cosmic rays / are due to Earth’s magnetic field / are colorful ). (b)…

A: . Van Allen belts is a zone of energetic charged particle which are held by Earth and these…

Q: The Tethered Satellite discussed in this module is producing 5.00kV and a current of 10.0A flows.…

Q: 20 Volts, 4 Farads, 30 Ohms V(t) was shown Question1 Find the charging current when time = 2 time…

A: Given : V=20V, R=30Ω, C=4F 1) The charging current at t=2τ is : I=I0e-tτ=VRe-2ττI=2030×e-2I=0.1A

Q: Formulate a hypothesis to describe what this constant of proportionality, call it C, must depend on.

Q: A particle whose mass is 8.0(10)-26 kg, with a charge of 1.6(10)-19C moves at 4.0(10)5 m/s is…

A: The force due to centripetal acceleration of the particle is, F=mv2r The force due to magnetic field…

Q: V₁ V₂ For the dual oscilloscope displays shown in the figure with H¸ of 100 µs/div and V, of 2 V/div…

A: Since you have posted a question with multiple sub-parts, we will solve the first three sub parts…

Q: The electric field between Ewo parallel plates connected co a 45V battery is 1900V/m How far apart…

A: Given: Electric field, E=1900 V/m Voltage=45 V

Q: It is shown in more advanced courses that the charged particles in circular orbits radiate…

Q: b) Calculate the carrier frequency if the required intermediate frequency (IF) in a superheterodyne…

A: The carrier frequency, fc, intermediate frequency,fIF , and local oscillator frequency, fLO are…

Q: (known values: e = 1.602 E-19 C, m= 9.11E-31 kg) e/m(theoretical)= 1.759*1011 Use the data…

A: Given:- e = 1.602 x 10-19 C, m= 9.11 x 10-31 kg) e/m(theoretical)= 1.759 x 1011 Find:- Find a way…

Q: In one experiment, a proton with a kinetic energy of 1 MeV orbits on a circular path in a…

A: 0.5 MeV

Q: If B is the uniform magnetic field and the potential A=1/2 (B xr), calculate div A.

A: I have written the given things

Q: Find the radius of curvature (in m) of the path of a 0.220 MeV proton moving perpendicularly to the…

A: Given, 1 MeV = 1.6×10-13 J energy of proton, E = 0.220 MeV = 0.220× 1.6×10-13 J Magnetic field, B =…

Q: In a particular betatron, the magnetic induction at the orbit is 0.4 Wb/m2 and its frequency is 60…

Q: Given a current (I; 5.0 A) carrying loop of radius (r; 5 cm) placed across the external magnetic…

A: Given data The current in the loop is: I = 5 A The radius of the loop is: r = 5 cm = 0.05 m The…

Q: E18R.2 Suppose an electron is moving at a speed of 0.001c in a magnetic field that keeps it in a…

A: Given: Radius, R1=20cm Radius, R2=10cm speed of electron ,v1=0.001c speed…

Q: A synchrocyclotron accelerates protor and ps = 30°. To find (a) the radius of the orbit at…

Q: Find the radius of curvature (in m) of the path of a 0.285 MeV proton moving perpendicularly to the…

Q: (1) Find the velocity of a beam of electrons (i.e., +x-direction) that goes undeflected thru…

Q: n an experiment similar to Thompson's experiment, deflecting plates 7.0cm in length with an electric…

A: Given: Length,L=7cm=7×10-2mElectric Field,E=1×104V/mMagnetic Field,B=8×10-4TAngle,θ=300 A magnetic…

Q: A beam of electrons travelling with speed 1.2 × 107ms-1 in an evacuated tube is made to move in a…

A: Given that: v=1.2×107 ms-1B=1.4 mT=1.4×10-3 TRelectron=0.048 mEproton=500 GeV=500×109…

Q: Consider a region where the following electric and magnetic fields are present: Ē = 20a, + 40ay -…

A: Given data: The electric field is, The magnetic field is, The electron velocity is, v=5 Mm/s in…

Q: What is the physical length of a Hertz dipole resonant at 100 MHz?

A: frequency is 100 MHz light speed = frequency x wavelength wavelength= lightspeed/ frequency…

Q: An op-amp with a slew rate of 9.57 V/us is driven by a 137 kHz sine wave. What is the maximum output…

Q: A proton makes 100 revs in a cyclotron and emerges at a radius of 50 cm with an energy of 10 MeV.…

Q: Using magnetic confinement, one particle is restrained to levitate over another. What is this…

A: In this question we have to find the separation when the particles are two electrons. Please give…

Q: Find the frequency of revolution of an electron with an energy of 100 eV in a uniform magnetic field…

A: Given Magnetic field B = 64 × 10-3 Tesla Mass of electron m = 9.1 ×10 -31 kg Charge on electron e…

Q: ... which have been ray's Fx. 12: Cathode accelerated by a potential difference of 1000 volt enter…

A: In this question, let us find the em ratio and speed of the electrons v, when they cathode rays are…

Q: Assume there are 5.0 × 1013 protons at 1.0 TeV stored in the 1.0-km-radius ring of the Tevatron. (a)…

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?

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step by step

Solved in 2 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

GET THE APP

About FAQ Academic Integrity Sitemap Document Sitemap

Contact Bartleby Contact Research (Essays)High School Textbooks Literature Guides Concept Explainers by Subject Essay Help Mobile App

GET THE APP

Privacy

Your CA Privacy Rights

Your NV Privacy Rights

Cookie Policy

About Ads

Manage My Data

bartleby, a Learneo, Inc. business