find the energies needed to remove a neutron from He then to remove a proton and...

Calculate the enrgy required in (MeV) to remove one neutron from Oxygen and the energy required...

Calculate the enrgy required in (MeV) to remove one neutron from Oxygen and the energy required to remove one proton fro the same atom of oxygen. given that given tha (A=16 and Z=8).

It was once thought that a neutron was made up of an electron and a proton...

It was once thought that a neutron was made up of an electron and a proton held together by Coulomb attraction. Assume the neutron radius is 10^-15m. (a) According to the uncertainty principle, find ∆p for such an electron. (b) The lowest average momentum such an electron could have would be 1/2 ∆p. What would be the corresponding energy? (c) What is the electrostatic potential energy of an electron 10^-13cm from a proton? (d) For the calculation in (b) and...

Calculate the minimum energy required to remove a neutron from the 43Ca nucleus. MeV

Calculate the minimum energy required to remove a neutron from the 43Ca nucleus. MeV

The fusion of deuterium (one proton + one neutron) with tritium (one proton + two neutrons)...

The fusion of deuterium (one proton + one neutron) with tritium (one proton + two neutrons) to form a Helium nucleus (two protons + two neutrons) and one spare neutron releases about 17 MeV of energy. ( 1 eV = 1.6 x 10-19 Joules). Given that the Sun produces about 380 x 1026 Watts of luminous energy, what is the total mass of deuterium and tritium that must be fusing each second to provide this energy output? If we could...

(b) A way to measure neutron energy is to have neutron elastically scatter off a He-3...

(b) A way to measure neutron energy is to have neutron elastically scatter off a He-3 nucleus. This helium isotope has 2 protons and 1 neutron in its nucleus. Find the fraction of the original energy of the incident neutron that was given to the helium nucleus.

A proton in a certain particle accelerator has a kinetic energy that is equal to its...

A proton in a certain particle accelerator has a kinetic energy that is equal to its rest energy. (a) What is the total energy of the proton as measured by a physicist working with the accelerator? (b) What is the momentum of the proton as measured by this physicist? (c) This proton collides with an antiproton with the same total energy travelling in the opposite direction. What happens? (d) Two particles result from the collision described in (c). What are:...

In two-photon ionization spectroscopy, the combined energies carried by two different photons are used to remove...

In two-photon ionization spectroscopy, the combined energies carried by two different photons are used to remove an electron from an atom or molecule. In such an experiment a aluminum atom in the gas phase is to be ionized by two different light beams, one of which has wavelength 395 nm. What is the maximum wavelength for the second beam that will cause two-photon ionization? Hint: The ionization energy of aluminum is 577.6 kJ/mol nm?

In two-photon ionization spectroscopy, the combined energies carried by two different photons are used to remove...

In two-photon ionization spectroscopy, the combined energies carried by two different photons are used to remove an electron from an atom or molecule. In such an experiment a copper atom in the gas phase is to be ionized by two different light beams, one of which has wavelength 327 nm. What is the maximum wavelength for the second beam that will cause two-photon ionization? Please answer in nanometers Hint: The ionization energy of copper is 745.4 kJ/mol please

The total energy of a proton is three times its rest energy. Find the momentum of...

The total energy of a proton is three times its rest energy. Find the momentum of the proton in MeV/c units.

Q: (i) Neutron wavelength: Calculate the wavelength of thermal neutrons at (a) room temperature and (b)...

Q: (i) Neutron wavelength: Calculate the wavelength of thermal neutrons at (a) room temperature and (b) cooled to 4 K (liquid He temperature). How do these compare with 400 keV electrons and to typical Brehmmstrahlung radiation from an x-ray tube (ii) Thermal velocities, de Broglie wavelength: A thermal neutron has a kinetic energy of 3/2 kT, where T is room temperature, 300 K. i.e. these neutrons are in thermal equilibrium with their surroundings. (a) Calculate the thermal velocity of such...