Problem: When large radioactive nuclei are bombarded by high-energy particles, they can split apart, a process known as nuclear fission. In this process, the nucleus releases high-energy particles that can further cause other heavy nuclei to split, resulting in a chain reaction. Nuclear fusion happens when two lighter nuclei join together to form a single heavier nucleus. Both fission and fusion produce tremendous amounts of energy that can be used to generate power.Which of the following nuclei is likely to release energy when undergoing nuclear fusion?A. 5626Fe(iron-56)B. 23592U(uranium-235)C. 23994Pu (plutonium-239)D. 21H (deuterium)

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Nuclear fusion happens when two lighter nuclei join together to form a single heavier nucleus.


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Problem Details

When large radioactive nuclei are bombarded by high-energy particles, they can split apart, a process known as nuclear fission. In this process, the nucleus releases high-energy particles that can further cause other heavy nuclei to split, resulting in a chain reaction. Nuclear fusion happens when two lighter nuclei join together to form a single heavier nucleus. Both fission and fusion produce tremendous amounts of energy that can be used to generate power.

Which of the following nuclei is likely to release energy when undergoing nuclear fusion?

A. 5626Fe(iron-56)
B. 23592U(uranium-235)
C. 23994Pu (plutonium-239)
D. 21H (deuterium)

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