Question:
Calculate the energy released when three \( \alpha \)-particles combined to form a \( \text{C}^{12} \) nucleus, the mass defect is
Calculate the energy released when three \( \alpha \)-particles combined to form a \( \text{C}^{12} \) nucleus, the mass defect is
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To calculate the energy released during a nuclear reaction, use \( E = \Delta m c^2 \), where \( \Delta m \) is the mass defect.
Updated On: Jan 6, 2026
- \( 0.0063 \, \text{u} \)
- \( 0.0062 \, \text{u} \)
- \( 0.0021 \, \text{u} \)
- \( 0.5 \, \text{u} \)
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The Correct Option is B
Solution and Explanation
The energy released during the formation of a nucleus can be calculated using the equation \( E = \Delta m c^2 \), where \( \Delta m \) is the mass defect. Given the mass defect, we calculate the energy released.
Step 2: Conclusion.
The energy released is calculated to be \( 0.0062 \, \text{u} \), corresponding to option (b).
Step 2: Conclusion.
The energy released is calculated to be \( 0.0062 \, \text{u} \), corresponding to option (b).
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