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05:55
@JerryCoffin Yes, that means the sun and its planets are of the same age. It's not only the metals, but all elements on the periodic table. Current prevailing theory is that all other elements are formed by fusion process using hydrogen. So it's like hydrogen -> helium -> lithium so on and so forth.
It is possibly that the core of the sun is not made of hydrogen.
 
2 hours later…
nwp
nwp
08:19
@TelKitty It can't be. Even if it was, you immediately get some hydrogen fusing to helium and now you have a growing helium core. Also every other non-hydrogen atom probably ends up in the core.
 
5 hours later…
13:03
@nwp Why can't it be true, take earth for example, it has air on the outer surface, followed by water and land, higher density matters seem to be closer to the core than lower density matters
 
3 hours later…
nwp
nwp
16:16
@TelKitty "It can't be" referred to "core is made of hydrogen".
Hence the following text about a star made of hydrogen immediately creating a helium core.
16:45
@TelKitty There's more to it than that. Fusion by itself only creates elements up to and including iron. Fusing larger atoms than that is endothermic. The usual theory is that a nova happens when a star starts to fuse iron, which absorbs enough heat at the core to reduce pressure temporarily. Then gravity kicks in and the star collapses, increasing pressure to the point of causing an explosion.
For a while the theory was that really heavy elements were mostly created when neutron stars collided. And from what we've seen recently, those collisions do create heavy elements--but there aren't nearly enough of them happening to account for the amount of heavy elements we see, so there's probably some other mechanism leading to heavier elements as well (but right now, I don't think anybody has a good idea of what that may be).
The other theory would be that neutron star collisions used to be much more common than they are now. But that also leads directly to the question of "why would that be?" (for which, again, nobody seems to have any sort of answer).
@nwp Yup--and unless the mass is extremely large, it's hard to get fusion started unless you have some heavier elements to start with.
 
1 hour later…
17:52

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