@[email protected]M to Science [email protected]English • 7 days agocookie combsmander.xyzimagemessage-square69fedilinkarrow-up1920
arrow-up1920imagecookie combsmander.xyz@[email protected]M to Science [email protected]English • 7 days agomessage-square69fedilink
minus-square@[email protected]linkfedilinkEnglish16•7 days agoThis only happened because they laid them in rows of 5-4-5-4.
minus-squareEpheralinkfedilinkEnglish24•7 days agoYeah, it happens when you pack the circles as densely as possible. If you place them in a grid, they will expand to a grid.
minus-square@[email protected]linkfedilinkEnglish6•7 days agoI think that depends on the fiction between each item / cell, and the plane. I think soap bubbles for example will always form hexagons.
minus-square@[email protected]linkfedilinkEnglish10•7 days agoBubbles can move freely once created, so they have more freedom than cookies that are stick in place. Thus, bubbles will look for optimal volume to boundary ratio with less constraints
minus-square@[email protected]linkfedilinkEnglish2•6 days agoYes :) since the topic was coming back in another thread, I felt more explanation was nice
This only happened because they laid them in rows of 5-4-5-4.
Yeah, it happens when you pack the circles as densely as possible. If you place them in a grid, they will expand to a grid.
I think that depends on the fiction between each item / cell, and the plane.
I think soap bubbles for example will always form hexagons.
Bubbles can move freely once created, so they have more freedom than cookies that are stick in place. Thus, bubbles will look for optimal volume to boundary ratio with less constraints
Thats what i said?
deleted by creator
Yes :) since the topic was coming back in another thread, I felt more explanation was nice