what is the third step of the hydrogen fusion process?\no $_1^1$h + $_1^1$h → $_1^2$h + e⁺ + v + energy\no…

what is the third step of the hydrogen fusion process?\no $_1^1$h + $_1^1$h → $_1^2$h + e⁺ + v + energy\no $_2^3$he + $_2^3$he → $_2^4$he + 2($_1^1$h) + energy\no $_1^2$h + $_1^1$h → $_2^3$he + energy\no 6($_1^1$h) + 2($_ - 1^0$e) → $_2^4$he + 2($_1^1$h) + energy + 2v

what is the third step of the hydrogen fusion process?\no $_1^1$h + $_1^1$h → $_1^2$h + e⁺ + v + energy\no $_2^3$he + $_2^3$he → $_2^4$he + 2($_1^1$h) + energy\no $_1^2$h + $_1^1$h → $_2^3$he + energy\no 6($_1^1$h) + 2($_ - 1^0$e) → $_2^4$he + 2($_1^1$h) + energy + 2v

Answer

Brief Explanations:

The hydrogen - fusion process in stars (proton - proton chain) has multiple steps. The first step is two hydrogen - 1 nuclei fusing to form deuterium ($^2_1H$), a positron ($e^+$), and a neutrino ($\nu$). The second step is deuterium fusing with another hydrogen - 1 nucleus to form helium - 3 ($^3_2He$). The third step is two helium - 3 nuclei fusing to form helium - 4 ($^4_2He$) and two hydrogen - 1 nuclei.

Answer:

$^3_2He + ^3_2He\rightarrow^4_2He + 2(^1_1H)+ \text{energy}$