The minimum initial deuteron energy required to achieve fusion of the deuterium-tritium fusion reaction ¹₂H + 1₃H → ²₄He + ⁰₁n with the tritium nucleus at rest is 17.58MeV
<h3>How is the minimum initial deuteron energy calculated in a D-T fusion reaction?</h3>
The reaction is:
¹₂H + 1₃H → ²₄He + ⁰₁n
Q Value = (Mass of ¹₂H + Mass of 1₃H - Mass of ²₄He - Mass of n) × 931 MeV
= (2.014102+3.016049-4.002603-1.00867) ×931 MeV
= 17.58MeV
<h3>What is a deuterium-tritium fusion reaction?</h3>
Nuclear fusion reaction is a process in which the reaction takes place between light elements to form heavier elements. When the interacting nuclei belong to lower atomic numbers, there is a substantial amount of energy produced. Example, Hydrogen and its isotopes (deuterium-tritium)
To learn more about deuterium-tritium fusion reaction, refer
brainly.com/question/9054784
#SPJ4