Submitted by SpiritedSort672 t3_z2f16n in singularity
Stulam0g t1_ixixuo6 wrote
Reply to comment by HongoMushroomMan in Lex Fridman's father is pro-immortality by SpiritedSort672
Maybe, but even a billion billion years is nothing in the face of the eternity of non existence. Not trying to dunk on you or anything btw, very much in agreement with you, I'm tryin to dodge that fate for as long as possible lmao
HongoMushroomMan t1_ixiz5ne wrote
Lol no I get it. It's something important to remember that forever basically can't exist. Heat death and such. However, I suppose if one could reposition oneself to a different universe on a different timescale you could postpone it more or less forever by always moving to a new universe. Probably in the next 20 years amirite?
SpiritedSort672 OP t1_ixj278r wrote
>It's something important to remember that forever basically can't exist. Heat death and such.
Even if the heat death of the universe has a solution, which it may have (who knows?), living forever is by definition impossible, since it's never forever.
Stulam0g t1_ixjv1t2 wrote
Hopefully less. Honestly I'll take tech that can change me into a person that's chill with facing an eternity of nothing. Take what I can get. Who knows tho, when we're smashing neutron stars together in a couple years, maybe we can break something the right way around.
Original_Ad_1103 t1_ixkhifu wrote
Heat death? As we get a better understanding of the universe, each new step takes more and more resources. 150 years ago a single physicist or astronomer could on their own still make a world-changing discovery. Now, most major research is done by large groups working together. In the case of particle physics, the research involves literally the largest machines any humans have ever built. And the discoveries are getting smaller. Once one has the basic idea of evolution and DNA, and how RNA functions, in some sense what remains in biology, while quite interesting, just aren't as large or as amazing questions, even if their answers may have a lot of important applications and will continue to help us understand life. And one sees some of this issue also in where practical engineering has gone with science also- between 1885 and 1910 you have the first practical cars, the first radio and the first airplanes. People often like to say were in the midst of a technological revolution, but the turn of that century was far closer to that. Now, while we still have game-changing technologies, they aren't coming as fast. We may be moving into a long plateau.
We absolutely cannot decrease the entropy of a closed system. It's (almost) physically impossible. But it doesn't seem implausible that future engineers might be able to build machines that are efficient enough to approximate processes with zero net entropy increase. Perhaps they could get close enough for all intents and purposes? That's science. Heat death of the universe is what matches the data we have at this moment the best. We might get new data tomorrow.
TheHamsterSandwich t1_ixxicpp wrote
We either conquer heat death or leave the universe for a new one. Those huge swaths of time will give us a viable solution, if we even assume heat death is the ultimate fate of the universe.
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