In a certain cyclotron a proton moves in a circle of radius 0.660 m. The magnitude...
In a certain cyclotron a proton moves in a circle of radius 0.380 m. The magnitude of the magnetic field is 1.80 T. (a) What is the oscillator frequency (in Hz)? (b) What is the kinetic energy (in eV) of the proton?
A cyclotron with dee radius 45.0 cm is operated at an oscillator frequency of 11.0 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? MeV Suppose, Instead, that B = 1.58 T. (c) What oscillator frequency is required to achieve resonance now? MHz (d) At that frequency, what is the kinetic energy of an emerging proton?...
(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]
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?
030 (part 1 of 2) 10.0 points A proton in a cyclotron is moving with a speed of 3.27 x 10 m/s in a circle of radius 0.704 m. 1.67 x 10-27 kg is the mass of the pro- ton, and 1.60218 x 10-19 C is its fundamental charge. What is the magnitude of the force exerted on the proton by the magnetic field of the cyclotron? Answer in units of N. 031 (part 2 of 2) 10.0 points What...
A proton moves in a circle of radius 1.26m in a region where the magnetic field is 90.0mT.Determinr the frequency of the oscillations 2.97 Hz 1.37 MHz 6.54 Hz 1.97 MHz 3.87 MHz Determine the kinetic energy in millions electron volts MeV of the proton 2.97MeV 2.44eV 6.54eV 1.97MeV 0.616MeV
4. A beam of protons moves in a circle of radius 0.3 T magnetic field. (a) What is the speed of each proton? (b) Determine the c frequency of the protons. (c) Determine the magnitude of the centripetal force on each proton. 0.25 m. The beam moves perpendicular to a yclotron
The magnetic poles of a small cyclotron produce a magnetic field with magnitude 0.85 T. The poles have a radius of 0.40 m, which is the maximum radius of the orbits of the accelerated particles. a) What is the maximum energy to which protons (q = 1.60×10 -19C, m = 1.67×10-27 kg) can be accelerated by this cyclotron? Give your answer in electron volts and in joules. b) What is the time for one revolution of a proton orbiting at...
A beam of protons moves in a circle of radius 0.19 m. The protons move perpendicular to a 0.39-T magnetic field. (a) What is the speed of each proton? (b) Determine the magnitude of the centripetal force that acts on each proton.