Answered: 228Th undergoes alpha decay to become…

228Th undergoes alpha decay to become 224Ra. If the Q value of the reaction is 5.52 MeV, calculate the kinetic energy of the alpha particle released.

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Question

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228Th undergoes alpha decay to become 224Ra. If the Q value of the reaction is 5.52 MeV, calculate the kinetic energy of the alpha
particle released.

Expert Solution

Concept and Principle:

When an unstable nucleus undergoes alpha decay they release a helium nucleus or alpha particle. This kind of decay is called alpha decay.

The following reaction takes place in alpha decay.

${}_{Z}^{A}X_{N} \to {}_{Z - 2}^{A - 4}{X'}_{N - 2} + {}_{2}^{4}{He}_{2}$

Here X and X' represent different nuclei.

The kinetic energy of the alpha particle released is given by,

$K_{α} = (\frac{A - 4}{A}) Q$

Here A is the atomic number of the parent nucleus and Q is the energy released in the reaction.

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