Supergiant star's core goes supernova, artwork. When a supergiant star (10-70 solar masses) uses up the hydrogen at its core, the nuclear fusion proce
Supergiant star's core goes supernova, artwork. When a supergiant star (10-70 solar masses) uses up the hydrogen at its core, the nuclear fusion processes start to produce successively heavier elements that form shells of 'ash' that accumulate at the centre of the star. These shells are shown at left, labelled by their chemical symbols (H - hydrogen; He - helium; C - carbon; Ne - neon; O - oxygen; Si - silicon; and Fe - iron). The nuclear fusion reactions to produce iron, unlike the other reactions, do not produce enough energy to prevent the core collapsing (arrows). A rebounding shock wave blows off the star's outer layers (right) at thousands of kilometres per second, distributing the heavy elements to form planets and life. A supernova may briefly outshine an entire galaxy.
Size: 3850px × 2031px
Photo credit: © MARK GARLICK/SCIENCE PHOTO LIBRARY / Alamy / Afripics
License: Licensed
Model Released: No
Keywords: artwork, ash, astronomical, astronomy, astrophysical, astrophysics, carbon, chemical, chemicals, chemistry, collapse, collapsing, computer, core, diagram, elements, exploding, explosion, fusion, heavy, helium, hydrogen, illustration, iron, layer, layers, neon, nuclear, oxygen, red, shell, shells, silicon, space, star, stardust, stellar, supergiant, supernova, universe
