![]() Nuclear fission has been used in nuclear power plants around the world to generate electricity. ![]() Nuclear engineers master the technology of nuclear fission sufficiently to implement it in reactors for electrical production safely. Implementation TechniquesĬurrently, there are differences regarding the difficulty of implementing both nuclear energy technologies. This process occurs at extremely high temperatures and under high pressure conditions, such as those found in the core of the Sun and in hydrogen bombs.įusion releases an even greater amount of energy than fission, but is more difficult to achieve due to the extreme conditions required. Nuclear fusion, on the other hand, involves the joining of two light nuclei, such as the isotopic hydrogen deuterium and tritium, to form a heavier nucleus. The energy released manifests itself in the form of heat and radiation. This process is initiated by the capture of a neutron that causes the instability of the nucleus and its subsequent rupture. Nuclear fission is the process by which the nucleus of a heavy atom, such as uranium-235 or plutonium-239, splits into two or more smaller nuclei, releasing a large amount of energy. Differences in Nuclear Physicsįrom a nuclear physics point of view, fission and fusion reactions have the following differences: Nuclear Fision In this article, we will explore in depth the differences between fission and fusion from multiple perspectives, including the underlying physics, implementation techniques, their practical applications, and their advantages and disadvantages. Two of the best-known nuclear processes are nuclear fission and fusion. Nuclear energy is a topic that has captured the world's attention due to its ability to generate large amounts of energy from subatomic processes.
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