consider the three equations below.\n$_{7}^{14}n + _{1}^{1}h\\longrightarrow_{8}^{15}o$\n$_{2}^{4}he +…

consider the three equations below.\n$_{7}^{14}n + _{1}^{1}h\\longrightarrow_{8}^{15}o$\n$_{2}^{4}he + _{2}^{4}he\\longrightarrow_{4}^{8}be$\n$_{14}^{28}si + _{2}^{74}he\\longrightarrow_{28}^{56}ni$\nwhich statement do these reactions best support?\nbeta decay occurs only in certain atoms.\nalpha decay occurs only in certain atoms.\nchain reactions play important roles in the process of nuclear fission.\nnuclear fusion plays an important role in making elements that are heavier than helium.

consider the three equations below.\n$_{7}^{14}n + _{1}^{1}h\\longrightarrow_{8}^{15}o$\n$_{2}^{4}he + _{2}^{4}he\\longrightarrow_{4}^{8}be$\n$_{14}^{28}si + _{2}^{74}he\\longrightarrow_{28}^{56}ni$\nwhich statement do these reactions best support?\nbeta decay occurs only in certain atoms.\nalpha decay occurs only in certain atoms.\nchain reactions play important roles in the process of nuclear fission.\nnuclear fusion plays an important role in making elements that are heavier than helium.

Answer

Brief Explanations:

The given equations show lighter - nuclei combining to form heavier nuclei, which is nuclear fusion. Nuclear fusion is responsible for creating elements heavier than helium in stars. The equations do not involve beta decay (emission of electrons or positrons), alpha decay (emission of helium - 4 nuclei), or chain reactions in nuclear fission.

Answer:

Nuclear fusion plays an important role in making elements that are heavier than helium.