Red dwarves are failed stars that never attained the mass necessary to become a full-on star. Jupiter actually isn’t far off from this status.
On a related note, red dwarves will probably be some of the last sources of light in the universe, and live for trillions of years due to how slowly they burn fuel, so… suck it, Shapiro?
You might be thinking of brown dwarfs. Red dwarfs are fully qualified stars which sustain nuclear fusion in their cores. Brown dwarfs do not, though still emit radiation by other various means.
Jupiter is also somewhat close, in astronomical terms, to being a brown dwarf. It is not even remotely near being a red dwarf.
Your last point is correct though. Red dwarfs last much, much longer than all other stars due to being fully convective which allows them to consume all their fuel uniformly.
Jupiter’s quite a long way off from being a red dwarf it would need to be in any 10 times the mass be a red dwarf.
Jupiter is somewhat close to being a brown dwarf which is a star that failed to even become a failed star and is merely hot and glowy but not plasma. Jupiter’s atmosphere is just gaseous though perhaps really deep down at the core it achieves brown dwarf level status but we don’t consider it to count because it’s not the whole planet.
Red dwarfs are not failed stars. They are the lowest mass objects capable of nuclear fusion. Brown dwarfs are failed stars. Brown dwarfs officially start at 13 Jupiter masses, & have a maximum mass of 75 Jupiter’s. Beyond that mass, fusion starts & the object is officially a star.
Red dwarfs are not failed stars. They are the lowest mass objects capable of nuclear fusion.
Brown dwarfs are capable of fusion of deuterium at an extremely low power output. Their inability to conduct more substantial fusion involving hydrogen-1 is what sets them apart from red dwarfs.
Well failed star is an erroneous term it just means any star that is not bright enough and hot enough that any world around it could sustain life (at least carbon-based as we know it to be).
Any world close enough to have liquid water would be so close as to be irradiated beyond anything we consider to be survivable and probably tidily locked to boot.
It’s still a star in the real sense of the term just quite dim and cool.
No, it means that it failed to become a star by initiating stellar fusion reactions. This isn’t some science fiction term. Red dwarfs are stars, and brown dwarfs are not.
It’s fine, he’s the kind of person that goes “yeah, you might’ve won $500m in the lottery, but it’s only $300m after taxes” because that’s fucken chump change or smth
Yea it sucks the energy is only renewable until the sun explodes. Oh well, back to coal.
Not enough mass to go supernova; the sun is expected to become a red dwarf.
White dwarf
Red dwarves are failed stars that never attained the mass necessary to become a full-on star. Jupiter actually isn’t far off from this status.
On a related note, red dwarves will probably be some of the last sources of light in the universe, and live for trillions of years due to how slowly they burn fuel, so… suck it, Shapiro?
You might be thinking of brown dwarfs. Red dwarfs are fully qualified stars which sustain nuclear fusion in their cores. Brown dwarfs do not, though still emit radiation by other various means.
Jupiter is also somewhat close, in astronomical terms, to being a brown dwarf. It is not even remotely near being a red dwarf.
Your last point is correct though. Red dwarfs last much, much longer than all other stars due to being fully convective which allows them to consume all their fuel uniformly.
“Small improvements cannot instantly solve the whole problem. Therefore, improvements are meaningless.”
- The condensed ideology of conservatives
I mean, I’ve had braces for a whole day and my teeth are still crooked, so dentistry is a sham!!1 /s
Jupiter’s quite a long way off from being a red dwarf it would need to be in any 10 times the mass be a red dwarf.
Jupiter is somewhat close to being a brown dwarf which is a star that failed to even become a failed star and is merely hot and glowy but not plasma. Jupiter’s atmosphere is just gaseous though perhaps really deep down at the core it achieves brown dwarf level status but we don’t consider it to count because it’s not the whole planet.
Red dwarfs are not failed stars. They are the lowest mass objects capable of nuclear fusion. Brown dwarfs are failed stars. Brown dwarfs officially start at 13 Jupiter masses, & have a maximum mass of 75 Jupiter’s. Beyond that mass, fusion starts & the object is officially a star.
Brown dwarfs are capable of fusion of deuterium at an extremely low power output. Their inability to conduct more substantial fusion involving hydrogen-1 is what sets them apart from red dwarfs.
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Well failed star is an erroneous term it just means any star that is not bright enough and hot enough that any world around it could sustain life (at least carbon-based as we know it to be).
Any world close enough to have liquid water would be so close as to be irradiated beyond anything we consider to be survivable and probably tidily locked to boot.
It’s still a star in the real sense of the term just quite dim and cool.
No, it means that it failed to become a star by initiating stellar fusion reactions. This isn’t some science fiction term. Red dwarfs are stars, and brown dwarfs are not.
That human being will usually open his mouth to stick his foot in.
It’s fine, he’s the kind of person that goes “yeah, you might’ve won $500m in the lottery, but it’s only $300m after taxes” because that’s fucken chump change or smth
Even after taxes, there still is a huge pile of cash left.
I can’t imagine how I would spend €300m. And I have some pretty wild ideas for it.
Hear me out: space program.
It’s not enough for a space program. That takes billions, and probably government assistance (at least on the technical research side).
Listen listen, those are minor details, I just need you to code it
Nah. Not really.
Fun, fun, fun.
Sun, sun, sun.