suppose a hydrogen - 2 nuclide transforms into a helium - 3 nuclide by absorbing a proton. complete the…

suppose a hydrogen - 2 nuclide transforms into a helium - 3 nuclide by absorbing a proton. complete the nuclear chemical equation below so that it describes this nuclear reaction.\n square\rightarrow_{2}^{3}\text{he}

suppose a hydrogen - 2 nuclide transforms into a helium - 3 nuclide by absorbing a proton. complete the nuclear chemical equation below so that it describes this nuclear reaction.\n square\rightarrow_{2}^{3}\text{he}

Answer

Explanation:

Step1: Write the symbol for hydrogen - 2

Hydrogen - 2 (deuterium) has atomic number 1 and mass number 2, symbolized as ${1}^{2}H$. A proton has atomic number 1 and mass number 1, symbolized as ${1}^{1}p$ or $_{1}^{1}H$.

Step2: Set up the nuclear - reaction equation

The general form of a nuclear reaction is $\text{reactants}\rightarrow\text{products}$. We know the product is ${2}^{3}He$. The reactants are ${1}^{2}H$ and ${1}^{1}H$. The nuclear - reaction equation is ${1}^{2}H+{1}^{1}H\rightarrow{2}^{3}He$.

Answer:

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