No, but it DID come from an exploding supernova star! Every atom heavier than lithium has been created in the cores of stars. And if it isn't still in the star, then the star must have exploded to release it.
From the outer layers emitted by a supernova.outer layer of a supernova.
Gases, materials, and elements that come from the Periodic Table.
Well a supernova is the explosions or death of a star, so the Vela supernova is probably the supernova of the star vela!
No, a supernova is an explosion of a star. What left of a supernova are celestial bodies.
No, but it DID come from an exploding supernova star! Every atom heavier than lithium has been created in the cores of stars. And if it isn't still in the star, then the star must have exploded to release it.
From the outer layers emitted by a supernova.outer layer of a supernova.
A supernova comes to existence when a white dwarf drains the matter from any companion star up to a point in wich it cannot carry anymore, and then it will first implode, and afterwards it will explode, a supernova.
Black holes came from old big stars that went supernova as it dies. Supernova causes the star to collapse into a black hole
All elements heavier than hydrogen, including carbon, were produced by fusion in the centre of stars, which then exploded (supernova), and the debris was part of the Earth's formation.
Every element heavier than iron was created in a supernova explosion. Gold, Platinum, and Palladium were elements created by supernova explosions.
Gases, materials, and elements that come from the Periodic Table.
Well a supernova is the explosions or death of a star, so the Vela supernova is probably the supernova of the star vela!
No, a supernova is an explosion of a star. What left of a supernova are celestial bodies.
the oxygen and carbon come from the Carbon Dioxide in the Dark Reactions of Photosynthesis. This didnt help
carbon carbon carbon
A supernova *is* the explosion. A super nova is caused by one of a few stellar events: A) Sudden collapse of a star, which causes massive carbon fusion. B) The gradual accumulation of material by an already collapsed star until the mass is enough to compress the core of the star and start fusion of the element carbon (normal stars fuse hydrogen)