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Two protons and two neutrons are released as a result of this reaction.

[tex]\[
{}_{86}^{222} \text{Rn} \rightarrow {}_{84}^{218} \text{Po} + ?
\][/tex]

Which particle is released?

A. one alpha particle
B. two beta particles
C. one alpha and one beta particle
D. one high-energy photon

Sagot :

GinnyAnsweridn
Let's analyze the given nuclear reaction:

[tex]\[ _{86}^{222}Rn \rightarrow _{84}^{218}Po + ? \][/tex]

Here, Radon-222 is decaying into Polonium-218. We need to determine the nature of the particle released in this process.

1. Atomic Number Change:
- Initial atomic number of Radon (Rn): 86
- Final atomic number of Polonium (Po): 84
- Change in atomic number: [tex]\( 86 - 84 = 2 \)[/tex]

2. Mass Number Change:
- Initial mass number of Radon (Rn): 222
- Final mass number of Polonium (Po): 218
- Change in mass number: [tex]\( 222 - 218 = 4 \)[/tex]

The change in atomic number indicates the loss of 2 protons, and the change in mass number indicates the loss of 4 nucleons (protons + neutrons).

An alpha particle ([tex]\( \alpha \)[/tex] particle) consists of:
- 2 protons
- 2 neutrons

Therefore, one alpha particle has:
- Atomic number = 2
- Mass number = 4

Given the changes in atomic and mass numbers in this reaction (2 protons and 4 nucleons), this corresponds exactly to an alpha particle.

Thus, the particle released in this reaction is:

One alpha particle.

In conclusion, the correct choice is:
- One alpha particle
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