4. A cyclotron for accelerating protons has a magnetic field strength of 1.4 T and a...
A cyclotron for accelerating protons has a magnetic field of 0.2 T and a radius of 1.6 m. The frequency of the cyclotron is?
A cyclotron uses a magnetic field of 0.575 T to accelerate protons. It has a maximum radius of 0.600 m. (proton mass 1.673x10-27 kg, proton charge 1.602x10-19 C) a. Derive an expression for the frequency of the alternating voltage on the dees of the cyclotron. b. What is the frequency of the voltage? c. What is the maximum kinetic energy of the protons as they emerge from the instrument? d. What is the equivalent accelerating voltage?
A cyclotron, designed to accelerate protons, has a magnetic field of 0.450 T magnitude in a region of radius 1.20 m. What are the values of (a) the frequency of the cyclotron, (b) the maximum speed acquired by the protons, (c) the acceleration experienced by the protons and (d) the magnetic force exerted on the protons?
Tutorial Exercise A cyclotron designed to accelerate protons has a magnetic field of magnitude 0.575 T over a region of radius 1.30 m. (a) What is the cyclotron frequency? (b) What is the maximum speed acquired by the protons? Part 1 of 4 - Conceptualize Cyclotrons can be used to produce radioactive substances used in diagnosis and treatment. We expect the angular frequency to be on the order of millions of radians per second. We expect the maximum speed of...
A cyclotron designed to accelerate proton has a magnetic field of magnitude 0.450 T over a region of radius 1.02 m. What are (a) the cyclotron frequency and (b) the maximum speed acquired by the protons?
(10) A proton in cyclotron motion moves in a circle in a magnetic field of strength T. Find the wavelength of the electromagnetic waves produced at the cyclotron frequency. [10 pts]
(10) A proton in cyclotron motion moves in a circle in a magnetic field of strength T. Find the wavelength of the electromagnetic waves produced at the cyclotron frequency. [10 pts]
(1) Cyclotron radiation Free electrons and protons will gyrate, or circle, around magnetic field lines at a frequency fgy equal to JEyrO2T m where B is the magnetic field. q is the charge of the particle, and m is the mass of the particle. Jgyro is call the gyro frequency, and is also called the cyclotron frequency. As we discussed in class, charges which change their velocity will create electromagnetic waves If they change their velocity in a repeating pattern...
Find the angular velocity of an electron in cyclotron emission if the magnetic field strength is 2300 T.
A cyclotron accelerates protons in the magnetic field between the circular pole faces of an electromagnet. The diameter of the pole faces is 1.500 m. The protons have kinetic energy eV when they reach the out accelerator a. Calculate the magnetic field required. Assume it is uniform between the pole faces. Look up any necessary data; be sure to specify any values you use. b. Calculate the cyclotron frequency (v, not w) of the protons in this machine.