Mass-energy equivalence — formula?
E=mc^2
Nuclear binding — role?
Keeps nucleons together in nucleus.
Mass defect — definition?
Difference between nucleon sum and nucleus mass.
Deuterium nucleus — composition?
One proton and one neutron.
Alpha decay — energy release?
Energy from mass change via E=Δm c^2.
Nuclear fusion — process?
Light nuclei combine into heavier nucleus.
Chain reaction — key factor?
Number of neutrons triggering further fissions.
Mass defect — calculation?
Δm = m_particles - m_nucleus.
Deuterium binding energy — calculation?
Convert Δm into energy using E=Δm c^2.
Fission reaction — example?
U-235 absorbs neutron, splits into smaller nuclei.
Fusion reaction — example?
H-2 + H-3 → He-4 + neutron.
Chain reaction — control?
Regulated by neutron moderation and multiplication factor.
Teste tes connaissances avec un QCM de 12 questions sur Nuclear Energy Principles and Reactions.
1. What does mass-energy equivalence state about mass and energy?
2. If 1.00 kg of mass is converted to energy, which expression gives the energy released using the rounded speed of light?
Révisez le cours complet dans la fiche de révision de Nuclear Energy Principles and Reactions.
Voir la fiche →Importe ton cours et l'IA génère des flashcards en 30 secondes.
Générateur de flashcards