randomaccount43543@lemmy.world to xkcd@lemmy.worldEnglish · 1 year agoxkcd #2893: Sphere Tastinessimgs.xkcd.comimagemessage-square56fedilinkarrow-up11.01Karrow-down19file-text
arrow-up1996arrow-down1imagexkcd #2893: Sphere Tastinessimgs.xkcd.comrandomaccount43543@lemmy.world to xkcd@lemmy.worldEnglish · 1 year agomessage-square56fedilinkfile-text
https://xkcd.com/2893/ Alt text: Baseballs do present a challenge to this theory, but I’m convinced we just haven’t found the right seasoning.
minus-square_NoName_@lemmy.mllinkfedilinkEnglisharrow-up19·1 year agoBy this logic, beachballs are okay-tasting. I argue that the real equation would be some form of y= 1/x
minus-squareviking@infosec.publinkfedilinkEnglisharrow-up6·1 year agoBased on volume, a baseball would still be in between a grape and a melon, so y=1/x doesn’t work either. I’d go for a density based equation rather than volume.
minus-square_NoName_@lemmy.mllinkfedilinkEnglisharrow-up8·1 year agoAstute point. Single-point blackholes must be delicous
minus-squareKilling_Spark@feddit.delinkfedilinkEnglisharrow-up4·1 year agoYou’ll never want to taste anything else, that’s for sure
minus-squareitslilith@lemmy.blahaj.zonelinkfedilinkEnglisharrow-up1·1 year agoAssuming taste is also logarithmic, it actually is y=1/x
By this logic, beachballs are okay-tasting.
I argue that the real equation would be some form of y= 1/x
Based on volume, a baseball would still be in between a grape and a melon, so y=1/x doesn’t work either.
I’d go for a density based equation rather than volume.
Astute point. Single-point blackholes must be delicous
You’ll never want to taste anything else, that’s for sure
Assuming taste is also logarithmic, it actually is y=1/x