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(C) The radioactive decay process is analyzed step-by-step:$1$. ${ }_{84}^{218} A \xrightarrow{\alpha} { }_{82}^{214} A_1$ (Alpha decay: mass number d

Vedclass · Accepted Answer

$210$ and $80$

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(C) The radioactive decay process is analyzed step-by-step:$1$. ${ }_{84}^{218} A \xrightarrow{\alpha} { }_{82}^{214} A_1$ (Alpha decay: mass number decreases by $4$,atomic number decreases by $2$)$2$. ${ }_{82}^{214} A_1 \xrightarrow{\beta^{-}} { }_{83}^{214} A_2$ (Beta-minus decay: mass number remains same,atomic number increases by $1$)$3$. ${ }_{83}^{214} A_2 \xrightarrow{\gamma} { }_{83}^{214} A_3$ (Gamma decay: no change in mass or atomic number)$4$. ${ }_{83}^{214} A_3 \xrightarrow{\alpha} { }_{81}^{210} A_4$ (Alpha decay: mass number decreases by $4$,atomic number decreases by $2$)$5$. ${ }_{81}^{210} A_4 \xrightarrow{\beta^{+}} { }_{80}^{210} A_5$ (Beta-plus decay: mass number remains same,atomic number decreases by $1$)$6$. ${ }_{80}^{210} A_5 \xrightarrow{\gamma} { }_{80}^{210} A_6$ (Gamma decay: no change in mass or atomic number)Thus,the final nucleus $A_6$ has a mass number of $210$ and an atomic number of $80$.

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