Fusion reactions in the Sun
Videonummer 11931455
| Animation of the proton-proton chain reaction that powers the Sun by converting hydrogen to helium. In the Sun's core, it is hot and dense enough that protons (red) can collide and fuse, forming a diproton. One proton then undergoes beta decay, turning into a neutron (yellow) and emitting a positron (orange star) and a neutrino (pink), forming a deuterium nucleus (hydrogen-2). Another proton then fuses with this, forming helium-3 and emitting a gamma ray (yellow wave). When this helium-3 collides with another helium-3, two protons are emitted and a helium-4 nucleus is formed. This nuclear fusion releases the energy that powers the Sun. In more massive stars, a catalytic cycle called the CNO cycle dominates. See clip K003/7243 for that process. | |
| Lizenzart: | Lizenzpflichtig |
| Credit: | Science Photo Library / Equinox Graphics |
| Modell-Rechte: | nicht erforderlich |
| Eigentums-Rechte: | nicht erforderlich |
| Länge: | 32 Sekunden |
| Seitenverhältnis: | 16:9 |
| Restrictions: | - |
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Keywords
- Astronomie,
- astronomisch,
- Astrophysik,
- astrophysikalisch,
- Atom,
- Atome,
- Atomkern,
- beta-Zerfall,
- Bildung,
- Bildungs-,
- Dicht,
- Energie,
- Formation,
- heiß,
- Hitze,
- Ion,
- Ionen,
- Kern,
- Kerne,
- Leistung,
- nuklear,
- Partikel,
- Photon,
- Proton,
- Prozess,
- Raum,
- Reaktion,
- Solar,
- Sonne,
- sonnenähnlich,
- stellar,
- Strahlung,
- Wasserstoff,
- Welle