which is the second step of the fusion process?\n○ $_1^1h+_1^1h→_1^2h + e^+ + v+energy$\n○…

which is the second step of the fusion process?\n○ $_1^1h+_1^1h→_1^2h + e^+ + v+energy$\n○ $6(_1^1h)+2(_{-1}^0e)→_2^4he + 2(_1^1h)+energy + 2v$\n○ $_1^2h+_1^1h→_2^3he+energy$\n○ $_2^3he+_2^3he→_2^4he+_1^1h+_1^1h+energy$

which is the second step of the fusion process?\n○ $_1^1h+_1^1h→_1^2h + e^+ + v+energy$\n○ $6(_1^1h)+2(_{-1}^0e)→_2^4he + 2(_1^1h)+energy + 2v$\n○ $_1^2h+_1^1h→_2^3he+energy$\n○ $_2^3he+_2^3he→_2^4he+_1^1h+_1^1h+energy$

Answer

Brief Explanations:

In the proton - proton chain fusion process in stars, the first step is two hydrogen - 1 nuclei fusing to form deuterium. The second step is deuterium fusing with another hydrogen - 1 nucleus to form helium - 3. The reaction $\ce{_{1}^{2}H + {1}^{1}H\rightarrow{2}^{3}He + energy}$ represents this second step.

Answer:

$\ce{_{1}^{2}H + {1}^{1}H\rightarrow{2}^{3}He + energy}$ option