k Sun internal structure Sun internal structure, computer artwork. The central region of the Sun is the core yellowwhite, where hydrogen nuclei are fused together to form helium, with the release of enormous amounts of energy. It is this nuclear fission that powers the Sun. Surrounding the core is the radiative zone orangeyellow tangles, where energy in the form of photons is emitted by nuclei and then reabsorbed almost immediately by nearby nuclei. The density of this layer decreases as it cools further from the core, until it is cool and rarefied enough for convection to take effect, in the convective zone dark orange. Here hot plasma rises to the visible surface photosphere, bright yellow and cools dark dots before sinking back to the inner layers. The Sun is around 1.39 million kilometres in diameter. Stock Photo - Afloimages
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Sun internal structure Sun internal structure, computer artwork. The central region of the Sun is the core yellow white , where hydrogen nuclei are fused together to form helium, with the release of enormous amounts of energy. It is this nuclear fission that powers the Sun. Surrounding the core is the radiative zone orange yellow tangles , where energy in the form of photons is emitted by nuclei and then reabsorbed almost immediately by nearby nuclei. The density of this layer decreases as it cools further from the core, until it is cool and rarefied enough for convection to take effect, in the convective zone dark orange . Here hot plasma rises to the visible surface photosphere, bright yellow and cools dark dots before sinking back to the inner layers. The Sun is around 1.39 million kilometres in diameter.
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Sun internal structure

Sun internal structure, computer artwork. The central region of the Sun is the core (yellow/white), where hydrogen nuclei are fused together to form helium, with the release of enormous amounts of energy. It is this nuclear fission that powers the Sun. Surrounding the core is the radiative zone (orange/yellow tangles), where energy in the form of photons is emitted by nuclei and then reabsorbed almost immediately by nearby nuclei. The density of this layer decreases as it cools further from the core, until it is cool and rarefied enough for convection to take effect, in the convective zone (dark orange). Here hot plasma rises to the visible surface (photosphere, bright yellow) and cools (dark dots) before sinking back to the inner layers. The Sun is around 1.39 million kilometres in diameter.

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