1. The total energy yield for each of the following nuclear reactions was taken from the notes of a nuclear scientist. There was some uncertainty in the tabulated values and you have been asked to calculate the energy yield for each reaction. Verify the energy yield for each reaction: D+ 3 He => 4He + p + 18.3 MeV D+T => 4He + n + 17.6 MeV n+Li = 4He + T + 4.8 MeV D+D => T + p + 4 MeV D+D => 3 He + n + 3.3 MeV p+Li => 4He + 3 He + 4 MeV p+11B => 34 He + 8.7 MeV where D and T are the hydrogen isotopes (Deuterium ²H₁ and Tritium ³H₁), ʼn stands for neutron and p is for proton.
1. The total energy yield for each of the following nuclear reactions was taken from the notes of a nuclear scientist. There was some uncertainty in the tabulated values and you have been asked to calculate the energy yield for each reaction. Verify the energy yield for each reaction: D+ 3 He => 4He + p + 18.3 MeV D+T => 4He + n + 17.6 MeV n+Li = 4He + T + 4.8 MeV D+D => T + p + 4 MeV D+D => 3 He + n + 3.3 MeV p+Li => 4He + 3 He + 4 MeV p+11B => 34 He + 8.7 MeV where D and T are the hydrogen isotopes (Deuterium ²H₁ and Tritium ³H₁), ʼn stands for neutron and p is for proton.
Introductory Chemistry: A Foundation
9th Edition
ISBN:9781337399425
Author:Steven S. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Donald J. DeCoste
Chapter19: Radioactivity And Nuclear Energy
Section: Chapter Questions
Problem 107CP
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Transcribed Image Text:1. The total energy yield for each of the following nuclear reactions was taken from the notes
of a nuclear scientist. There was some uncertainty in the tabulated values and you have
been asked to calculate the energy yield for each reaction. Verify the energy yield for each
reaction:
D+ 3 He =>
4He
+ p
+
18.3 MeV
D+T =>
4He
+ n
+
17.6 MeV
n+Li =
4He
+ T
+
4.8 MeV
D+D =>
T
+ p
+
4 MeV
D+D =>
3 He
+ n
+
3.3 MeV
p+Li =>
4He
+ 3 He +
4 MeV
p+11B =>
34 He
+
8.7 MeV
where D and T are the hydrogen isotopes (Deuterium ²H₁ and Tritium ³H₁), ʼn stands for
neutron and p is for proton.
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