Stamets@lemmy.world to memes@lemmy.world · 9 days agoI mean... I don't see the problem?lemmy.worldexternal-linkmessage-square47fedilinkarrow-up1498arrow-down19file-text
arrow-up1489arrow-down1external-linkI mean... I don't see the problem?lemmy.worldStamets@lemmy.world to memes@lemmy.world · 9 days agomessage-square47fedilinkfile-text
minus-squareMistic@lemmy.worldlinkfedilinkarrow-up7arrow-down1·edit-28 days agoEqual sides in a triangle are only possible if the corners are equal. So, 60⁰ each. But its height cannot be half of base because of the same Pythagorean theorem (1,5)²+(1,5/2)²=2,8125 sqrt(2,8125) ≈ 1,677, which is half of a diagonal So, we get 4 sides that are 1,5 in a parallelogram, but diagonals are 1,5 and 3,354, as opposed to both being 1,5 as shown on the picture TL;DR: Won’t work because Pythagorean theorem
minus-squarekryptonianCodeMonkey@lemmy.worldlinkfedilinkarrow-up2·8 days agoYes, it is possible with a 3-sided pyramid, i.e. tetrahedron. If we dont look at all 4 points as being on the same plane but 2 opposite corners being offset above or below the other two, this could totally be a tatrahedron.
minus-squareptu@lemm.eelinkfedilinkEnglisharrow-up1·8 days agoSo those two darker green symbols would represent someone shorter or taller. Totally plausible.
minus-squareTheButter_ItSeeps@lemmy.worldlinkfedilinkarrow-up7·8 days agoThey could each be on the vertices of a tetrahedron for all we know…
minus-squarebss03@infosec.publinkfedilinkEnglisharrow-up3·8 days agoWe do know that, with those measurements, they aren’t confined to a single (Euclidean) plane.
minus-squareLovable Sidekick@lemmy.worldlinkfedilinkEnglisharrow-up2·edit-28 days agoExactly! I regret that I have but one upvote to give.
minus-squareMistic@lemmy.worldlinkfedilinkarrow-up2·8 days agoI was thinking of plane surfaces, but if their altitudes are different, I guess it’d be possible.
Equal sides in a triangle are only possible if the corners are equal. So, 60⁰ each.
But its height cannot be half of base because of the same Pythagorean theorem
(1,5)²+(1,5/2)²=2,8125
sqrt(2,8125) ≈ 1,677, which is half of a diagonal
So, we get 4 sides that are 1,5 in a parallelogram, but diagonals are 1,5 and 3,354, as opposed to both being 1,5 as shown on the picture
TL;DR: Won’t work because Pythagorean theorem
Pyramid?
Yes, it is possible with a 3-sided pyramid, i.e. tetrahedron. If we dont look at all 4 points as being on the same plane but 2 opposite corners being offset above or below the other two, this could totally be a tatrahedron.
So those two darker green symbols would represent someone shorter or taller. Totally plausible.
Wdym?
They could each be on the vertices of a tetrahedron for all we know…
We do know that, with those measurements, they aren’t confined to a single (Euclidean) plane.
Exactly! I regret that I have but one upvote to give.
I was thinking of plane surfaces, but if their altitudes are different, I guess it’d be possible.