In a nuclear reactor, neutrons released by nuclear fission must be slowed down before they can...

A neutron in a nuclear reactor makes an elastic head-on collision with the nucleus of a...

A neutron in a nuclear reactor makes an elastic head-on collision with the nucleus of a lead atom initially at rest. (a) What fraction of the neutron's kinetic energy is transferred to the lead nucleus? (The mass of the lead nucleus is about 207 times the mass of the neutron.) (b) If the initial kinetic energy of the neutron is 1.80 10-13 J, find its final kinetic energy and the kinetic energy of the lead nucleus after the collision. neutron...

. Suppose that neutrons are born with a kinetic energy 1 MeV from nuclear fission. Find...

. Suppose that neutrons are born with a kinetic energy 1 MeV from nuclear fission. Find the probability that a neutron will downscatter to a kinetic energy of 0.025 eV (after several collisions) with the following isotopes, having respective capture probabilities p(gamma) per collision: (a) A=1, Hydrogen with p(gamma)= 1×10−3, (b) A=2, Hydrogen with p(gamma)= 2×10−5, (c) A=12, Carbon with p(gamma)= 5×10−5, (d)A=23, Na with p(gamma)= 8×10−3. Use the results to discuss which of these isotopes are most effective at...

a) A nuclear reactor produces fast neutrons (with energy ∼ 1MeV) which are then slowed down...

a) A nuclear reactor produces fast neutrons (with energy ∼ 1MeV) which are then slowed down to thermal neutrons (with energy of order E ∼ 0.025eV, comparable to their thermal energy at room temperature). In research reactors, both types of neutrons could be selected to exit through a port and used in scattering experiments to study crystals. Crystal lattice spacing is usually a few angstrom and to get information about the crystal in a scattering experiment the radiation wavelength should...

QUESTION 1 Calculate the k-factor, to 2 decimal places, for a reactor in which: 3% of...

QUESTION 1 Calculate the k-factor, to 2 decimal places, for a reactor in which: 3% of the neutrons are fast neutrons which produce a fission in the fuel, 5% of the fast neutrons escape from the reactor, 3% of the slow neutrons escape from the reactor, 29.8% of the neutrons are absorbed in the moderator before becoming thermal, 31.8% of the thermal neutrons get absorbed into the moderator and other material, Each original thermal neutron produces, on average, 2.08 fissions...

1. In a particular nuclear fission process a Uranium-235 nucleus captures a neutron and then splits...

1. In a particular nuclear fission process a Uranium-235 nucleus captures a neutron and then splits into a Lead-212 nucleus and another daughter nucleus as well as releasing 4 free neutrons. What is the other daughter nucleus that is produced in this fission reaction? a. Neon-20 b. Neon-19 c. Neon-18 d. Neon-21 e. Neon-22 2. Look up the atomic mass for Uranium-235, Lead-212, and the correct Neon isotope and then calculate the mass per nucleon for each one. Which nucleus...