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Now we all know that Photons take's approx 100,000 years to escape the Sun.
Does that mean that after Fusion commenced ..... the Sun did not shine for 100,000 years ?
Sun rhymes with 'bum' lol chortle..snigger...guffaw !!
Always the interesting questions, and this one is eggseptional! Wait, that's the "why did the chicken cross the road" question. Sorry. This one has deep ramifications.Quote from: neilep on 31/01/2025 20:26:37Now we all know that Photons take's approx 100,000 years to escape the Sun.And neutrinos thus generated take about 2.5 seconds to do the same thing.The average quanta of energy released in some random internal action takes a thousand centuries, yes. The photon lasts a teeny fraction of a second and is absorbed by something, at which point it is no more. That thing abserbing it is also hot so a new one is generated (maybe a different frequency, who knows?). This random brownian motion doesn't allow fast travel, so yea, heat generated from within takes all that time to escape, just like it does on Earth. Convection probably has more to do with it than does radiation.QuoteDoes that mean that after Fusion commenced ..... the Sun did not shine for 100,000 years ?That's the interesting question. The sun was not as big and was not so defined back when fusion commenced. It was already hot just from all that mass falling into that gravity well, so it already shone at that point, but a dull infra-red radiation of heat, not proper fusion light. That light did just suddenly blink on, so there's no clear beginning of it and no clear point where special kind of light began to hit the surface.But yes, fusion light was not there until there was fusion, and that significantly heated up the core of this forming star, and that threshold occurred at say time X, and at a low level. How long after time X did the external spectra of the star change? It didn't just blink on like a light bulb, so it's really hard to measure.I imagine that the specific energy of that process (which presumes a nonsense idea that energy has identity) was already taking a better part of that 100000 years to get to whereever light was free to escape without immediately being reabsorbed. But I also imagine that some of that new heat propagated up much faster (by chance and by change of dynamics) so that the external appearance of the star became visibly different within a few days to years (and not centuries) of fusion starting. I mean, a supernova starting at a stellar core is such a change in dynamics, a far more severe one in a start that has far further to go to get to the surface. That change takes around what, 4 hours? to get to the surface (as evidenced by neutrinos from the explosion getting to Earth 4 hours ahead of the light).The question is more about the time to 'blink on' than it is about how long it took the energy of a specific reaction to reach the surface back in those days, so I am going with the days/years figure and not the thousand centuries.QuoteSun rhymes with 'bum' lol chortle..snigger...guffaw !!No it doesn't, any more than do the lines "Glory streams from heaven afar; Heavenly hosts sing haleluyar" (OK, but that was a rhyme stolen from "Blazing saddles").
Quote from: neilep on 31/01/2025 20:26:37Sun rhymes with 'bum' lol chortle..snigger...guffaw !!Oh no it don't, Mary Poppins. Norf of the river it's the old currant bun, dontcherknow. You mutton or summink?
Let's ask an AI ?"Yes, "sun" and "bum" have a similar ending sound but do not technically rhyme because their vowel sounds are different. "Sun" has the "uh" (/ʌ/) sound, while "bum" has the "uh" (/ʌ/) sound as well, but the consonant sounds leading into the vowel are different."