• Nawor3565@lemmy.blahaj.zone
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      1 year ago

      Well, yes, as far as our theories go. But we also “knew” that light was a wave that traveled through the luminiferous aether, which permiated all of space… Until we tested that theory with the Michelson-Morely experiment, and it turned out our theories were completely wrong and physics as we knew it was completely upended.

      Point being, it’s important to actually test our theories instead of assuming they’re completely correct just because most of their predictions are accurate.

      • 1bluepixel@lemmy.world
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        1 year ago

        Science advances by testing the limit cases. You do it and you do it until one day you get an unexpected result. That result, and the subsequent understanding of why it happens, is what leads to Nobel Prizes.

      • shalafi@lemmy.world
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        1 year ago

        Aether was a fudge and pretty sure Einstein knew it. Forgot the exact history, but it was made up from whole cloth to make the math work out.

        • Nawor3565@lemmy.blahaj.zone
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          1 year ago

          Well yeah. The concensus at the time was that light is a wave, and waves need a medium to travel through, so they just made up some stuff that must be everywhere and called it the aether. The null result of the interferometer experiment is part of what led to the discovery that light is a particle that acts like a wave, and so doesn’t need a medium.

        • Omega_Haxors@lemmy.ml
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          1 year ago

          Dark energy is a fudge in a similar way. Eventually we’ll know what it actually is and no longer need it, kinda like alchemy was to chemistry.

    • 1bluepixel@lemmy.world
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      1 year ago

      I’m pretty sure every physicist in existence knows that. It’s just a simple principle that’s really hard to test, so actually testing it is pretty cool. Like dropping a steel ball and a feather on the Moon.

      • HyonoKo@lemmy.ml
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        1 year ago

        Those are pretty expensive experiments. Are you sure they do them just because they are cool?

        • fiat_lux@kbin.social
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          1 year ago

          It is possible to do something cool and something that furthers science at the same time. Deep down, doing cool stuff is probably why most research scientists exist. Because it isn’t for the mad stacks of cash, I can promise you that.

          Let the science people do their pew-pew-pew thing with the fancy toys and pretend they’re in Star Trek. At least they’re enjoying themselves while helping the rest of us out!

        • TheOneCurly@lemmy.theonecurly.page
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          1 year ago

          It’s also an excellent proof of concept for how to test with antimatter. Anyone who designs a test using anti hydrogen will look back at their methodology.

        • Omega_Haxors@lemmy.ml
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          1 year ago

          It makes me sad that dudebro science has become so prevalent that people forget the main reason we do this stuff. Saying you’re into science to discover things and not to blow shit up is like saying you go to a monster truck derby to watch people drive and not run over cars.

    • i_love_FFT@lemmy.ml
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      1 year ago

      It has a positive mass, and in every other way it acts just like normal matter going backwards in time (cpt inversion).

      If, despite its positive mass, it was pushed back by gravity, then it would have given even more weight to the theory that antimatter is just matter moving backwards.

      Since gravity is such a wonky interaction, I’m not even sure this result disproves the time-reversal theory entirely!

      • ryannathans@aussie.zone
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        1 year ago

        Why would inverting charge make particles go backwards in time? Electrons have opposite charge to protons and they don’t seem to. Positrons have the opposite charge to electrons and as far as I know they don’t go backwards?

        I think you’re misinterpreting cpt reversal symmetry, which is if you mirrored the universe in terms of charge, time and parity it would essentially evolve the same