Nuclear Physics a) if we have a radioactive source between alpha particles with energy T =...

In a nuclear experiment a proton with kinetic energy 4.0 MeV moves in a circular path...

In a nuclear experiment a proton with kinetic energy 4.0 MeV moves in a circular path in a uniform magnetic field. If the magnetic field is B = 1.6 T what is the radius of the orbit? What energy must an alpha particle (q = +2e, m = 4.0 u) and a deuteron (q = +e, m = 2.0 u) have if they are to circulate in the same orbit? Energy of the alpha? (MeV) Energy of the deuteron?

In a nuclear experiment a proton with kinetic energy 1.5 MeV moves in a circular path...

In a nuclear experiment a proton with kinetic energy 1.5 MeV moves in a circular path in a uniform magnetic field. If the magnetic field is B = 0.7 T what is the radius of the orbit? What energy must an alpha particle (q = +2e, m = 4.0 u) and a deuteron (q = +e, m = 2.0 u) have if they are to circulate in the same orbit? Energy of the alpha? (MeV) Energy of the deuteron?

1.)what is the frequency of the microwave whose wavelength is 1.60 cm? 2.) Alpha particles of...

1.)what is the frequency of the microwave whose wavelength is 1.60 cm? 2.) Alpha particles of charge q=+2e and mass m=6.6x10^-27 are emitted from a radioactive source at a speed of 1.6x10^10 m/s. What magnetic field strength would be required to bend them into a circular path of radius r=0.25?

In electron spin resonance (ESR) and nuclear magnetic resonance (NMR), the energy levels of electrons or...

In electron spin resonance (ESR) and nuclear magnetic resonance (NMR), the energy levels of electrons or protons, respectively, are split with a magnetic field (otherwise known as the Zeeman effect). Electrons or protons with spin in the same direction as the magnetic field have lower energies than electrons or protons with spins aligned opposite to the field. The energy difference between these levels depends on the strength of the field, so ESR and NMR can be used to measure, very...

Scientists study a radioactive source that produces a stream of positively-charged particles moving with different speeds...

Scientists study a radioactive source that produces a stream of positively-charged particles moving with different speeds along the x-axis. The stream enters a box with a uniform magnetic field B = 0.1 T directed along the z-axis and a uniform electric field E of unknown strength and direction. Scientists observe that the particles that move with the speed of 2 m/s are not deflected in the box at all. A. Find the direction and the strength of the electric field...

Each alpha particle in a beam of alpha particles has a kinetic energy of 5.0 MeV....

Each alpha particle in a beam of alpha particles has a kinetic energy of 5.0 MeV. Through what potential difference would you have to accelerate these alpha particles in order that they would have enough energy so that if one is fired head-on at a gold nucleus it could reach a point 1.0x10^-14 m from the center of the nucleus? I know that the answer is delta V = 9e6 Volts I am struggling to get past KEi = 5.0...

What are the main advantages of nuclear fission relative to nuclear fusion as an energy source?...

What are the main advantages of nuclear fission relative to nuclear fusion as an energy source? What are the drawbacks? A.Drawbacks of fission include disposal of radioactive waste and issues of safety. B. Nuclear fission have no risk to the environment, that is the reason why it is wide spread. C. Nuclear fission does not require high temperatures or holding materials long enough for nuclei to react. D. Nuclear fission does require high temperatures or holding materials long enough for...

What will be the maximum energy that these particles from problem 6 in the maximum radius...

What will be the maximum energy that these particles from problem 6 in the maximum radius (0.75 m2) in electron volts could obtain? Q6. Suppose you are a researcher at the European Organization for Nuclear Research (CERN) which asks you to investigate the frequency of oscillation to accelerate deuterons. If the cyclotron used has a radius of 75 cm and the magnetic field established by the magnets is 1.5 T. What must this frequency of oscillation be to accelerate them?

What will be the maximum energy that these particles from problem 6 in the maximum radius...

What will be the maximum energy that these particles from problem 6 in the maximum radius (0.75 m2) in electron volts could obtain? Problem 6 : Suppose you are a researcher at the European Organization for Nuclear Research (CERN) which asks you to investigate the frequency of oscillation to accelerate deuterons. If the cyclotron used has a radius of 75 cm and the magnetic field established by the magnets is 1.5 T. What must this frequency of oscillation be to...

A system, at temperature T, has particles that can be in three different states: s=-1, 0,...

A system, at temperature T, has particles that can be in three different states: s=-1, 0, 1. The energy of the particle is given by: E_s = -μ*B*s , where μ is a constant and B is an applied magnetic field. (a) Find the expected energy value for a system of 3 particles. (b) Generalize part (a) for a system of N particles