QuestionMay 5, 2025

Radium-223 (_(88)^223Ra) undergoes gamma decay to produce what daughter isotope and decay particle? a (}_{88)^223Ra+gamma b (}_{88)^222Ra+gamma C (}_{86)^220Rn+gamma d (}_{86)^222Rn+gamma

$Radium-223 (_(88)^223Ra) undergoes gamma decay to produce what daughter isotope and decay particle? a (}_{88)^223Ra+gamma b (}_{88)^222Ra+gamma C (}_{86)^220Rn+gamma d (}_{86)^222Rn+gamma$

Solution
3.3(232 votes)

Answer

a) {}_{88}^{223}Ra+\gamma Explanation 1. Understand gamma decay Gamma decay does not change the atomic number or mass number of the isotope. It only releases energy in the form of a gamma photon (\gamma). 2. Identify the daughter isotope Since neither the atomic number nor the mass number changes, the daughter isotope remains {}_{88}^{223}Ra. 3. Identify the decay particle The decay particle is a gamma photon (\gamma).

Explanation

1. Understand gamma decay Gamma decay does not change the atomic number or mass number of the isotope. It only releases energy in the form of a gamma photon ($\gamma$). 2. Identify the daughter isotope Since neither the atomic number nor the mass number changes, the daughter isotope remains ${}_{88}^{223}Ra$. 3. Identify the decay particle The decay particle is a gamma photon ($\gamma$).

155

Click to rate:

Radium-223 (_(88)^223Ra) undergoes gamma decay to produce what daughter isotope and decay particle? a (}_{88)^223Ra+gamma b (}_{88)^222Ra+gamma C (}_{86)^220Rn+gamma d (}_{86)^222Rn+gamma

Solution3.3(232 votes)

Answer

Explanation

Similar Questions

Solution
3.3(232 votes)