deuterium is an isotope of hydrogen. the nucleus of a deuterium atom consists of one proton and one neutron…

deuterium is an isotope of hydrogen. the nucleus of a deuterium atom consists of one proton and one neutron. when two deuterium nuclei fuse, helium - 3 is formed, and a neutron is emitted. which equation illustrates this process?\n$2h_2 + o_2\\rightarrow2h_2o$\n$2_{1}^{2}h\\rightarrow_{1}^{3}h+_{1}^{1}h$\n$2_{1}^{1}h\\rightarrow_{1}^{2}h+_{1}^{0}e$\n$2_{1}^{2}h\\rightarrow_{2}^{3}he+_{0}^{1}n$

deuterium is an isotope of hydrogen. the nucleus of a deuterium atom consists of one proton and one neutron. when two deuterium nuclei fuse, helium - 3 is formed, and a neutron is emitted. which equation illustrates this process?\n$2h_2 + o_2\\rightarrow2h_2o$\n$2_{1}^{2}h\\rightarrow_{1}^{3}h+_{1}^{1}h$\n$2_{1}^{1}h\\rightarrow_{1}^{2}h+_{1}^{0}e$\n$2_{1}^{2}h\\rightarrow_{2}^{3}he+_{0}^{1}n$

Answer

Brief Explanations:

Deuterium is ${1}^{2}H$. Two deuterium nuclei fuse to form helium - 3 (${2}^{3}He$) and emit a neutron ($_{0}^{1}n$). The correct nuclear - fusion equation should represent this mass - number and atomic - number conservation.

Answer:

$2_{1}^{2}H\rightarrow_{2}^{3}He + _{0}^{1}n$