boem@lemmy.world to science@lemmy.world · 1 year agoAntimatter falls down, not up: CERN experiment confirms theorywww.nature.comexternal-linkmessage-square16fedilinkarrow-up135arrow-down10cross-posted to: news@kbin.socialphysics@mander.xyzscience@lemmy.ml
arrow-up135arrow-down1external-linkAntimatter falls down, not up: CERN experiment confirms theorywww.nature.comboem@lemmy.world to science@lemmy.world · 1 year agomessage-square16fedilinkcross-posted to: news@kbin.socialphysics@mander.xyzscience@lemmy.ml
minus-squarehperrin@lemmy.worldlinkfedilinkarrow-up2arrow-down1·edit-21 year agoWhy would anyone think it would fall up?
minus-squareMatch!!@pawb.sociallinkfedilinkEnglisharrow-up3·1 year agoBecause things exist (the antigravity hypothesis was an attempt to explain why matter and antimatter haven’t annihilated each other)
minus-squarefoyrkopp@lemmy.worldlinkfedilinkarrow-up2·1 year agoBecause one common assumption was that the universe might contain as much antimatter as matter. Which begs the question: Where did it go? We would notice a huge amount of annihilation reactions in the solar system. “Antimatter falls up” (is gravitationally repelled instead of attracted by normal matter) was an easy hypothesis to explain that.
Why would anyone think it would fall up?
Because things exist
(the antigravity hypothesis was an attempt to explain why matter and antimatter haven’t annihilated each other)
Because one common assumption was that the universe might contain as much antimatter as matter.
Which begs the question: Where did it go? We would notice a huge amount of annihilation reactions in the solar system.
“Antimatter falls up” (is gravitationally repelled instead of attracted by normal matter) was an easy hypothesis to explain that.