For the nuclear reaction 14N + a →p + ¹70 which may also be written as 14N(a, p)¹70, determine the following. (Enter your answers in MeV. Assume atomic masses MN-14 = 14.0031 u, MHe-4 = 4.0026 u, MH-1 = 1.0078 u, and Mo-17 = 16.9991 u.) (a) Using classical theory, determine the Coulomb electric potential energy barrier the incident alpha particles must overcome in order to initiate the reaction. MeV (b) Using nuclear theory, determine the threshold kinetic energy the incident alpha particles must have in order to initiate the reaction. MeV
For the nuclear reaction 14N + a →p + ¹70 which may also be written as 14N(a, p)¹70, determine the following. (Enter your answers in MeV. Assume atomic masses MN-14 = 14.0031 u, MHe-4 = 4.0026 u, MH-1 = 1.0078 u, and Mo-17 = 16.9991 u.) (a) Using classical theory, determine the Coulomb electric potential energy barrier the incident alpha particles must overcome in order to initiate the reaction. MeV (b) Using nuclear theory, determine the threshold kinetic energy the incident alpha particles must have in order to initiate the reaction. MeV
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Transcribed Image Text:For the nuclear reaction ¹4N + a →p + ¹70 which may also be written as ¹4N(α, p) ¹70, determine the following. (Enter your answers in MeV. Assume atomic masses MN-14 = 14.0031 u, MHe-4 = 4.0026 u,
MH-1 = 1.0078 u, and Mo-17 = 16.9991 u.)
(a) Using classical theory, determine the Coulomb electric potential energy barrier the incident alpha particles must overcome in order to initiate the reaction.
MeV
(b) Using nuclear theory, determine the threshold kinetic energy the incident alpha particles must have in order to initiate the reaction.
MeV
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