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The fusion of two nitrogen nuclei in a plasma state would result in the formation of a heavier nucleus. Specifically, the fusion of two nitrogen-14 (14N) nuclei can lead to the formation of an oxygen-17 (17O) nucleus, along with the release of particles and energy.

The fusion reaction between two nitrogen nuclei can be represented as follows:

14N + 14N → 17O + 1H

In this reaction, one of the protons (1H) in one of the nitrogen nuclei acts as a bridge to facilitate the fusion process and create a more massive nucleus, oxygen-17. Additionally, energy in the form of gamma rays is released during this fusion process.

It's worth noting that the fusion reaction involving nitrogen nuclei is not as common or energetically favorable as other fusion reactions, such as those involving hydrogen isotopes (e.g., deuterium and tritium). Nitrogen fusion generally requires much higher temperatures and pressures to occur, making it less practical for energy production compared to other fusion reactions.

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