Let’s check in on the decadent, completely inedible, yet perfectly wearable shoes from The Shoe Bakery (previously featured here). The Orlando, Florida-based company is run by Chris Campbell, who loves both shoes and sweets so much that he decided to combine them in the form of outrageously tantalizing ice cream, cake and donut-themed footwear.
If you’ve got a specific dessert and shoe combination in mind, Campbell happily accepts custom orders. Each mouthwatering pair of Shoe Bakery shoes takes about 3-6 weeks to design, create and ship. Prices range from $200 to $400 US, which should provide you with all the more incentive to refrain from trying to eat them.
Visit The Shoe Bakery’s website to check out more of their enticingly iced footwear.
[via Design Taxi]
TAKE ALL MY MONEY
I have no idea what to say to him about it but this morning was awkward
Every time I think I’m done with the sprouse bros they pull me back in
One is never done with the Sprouse boys
This legitimately upsets me.
… Y’see, now, y’see, I’m looking at this, thinking, squares fit together better than circles, so, say, if you wanted a box of donuts, a full box, you could probably fit more square donuts in than circle donuts if the circumference of the circle touched the each of the corners of the square donut.
So you might end up with more donuts.
But then I also think… Does the square or round donut have a greater donut volume? Is the number of donuts better than the entire donut mass as a whole?
A round donut with radius R1 occupies the same space as a square donut with side 2R1. If the center circle of a round donut has a radius R2 and the hole of a square donut has a side 2R2, then the area of a round donut is πR12 - πr22. The area of a square donut would be then 4R12 - 4R22. This doesn’t say much, but in general and throwing numbers, a full box of square donuts has more donut per donut than a full box of round donuts.
The interesting thing is knowing exactly how much more donut per donut we have. Assuming first a small center hole (R2 = R1/4) and replacing in the proper expressions, we have a 27,6% more donut in the square one (Round: 15πR12/16 ≃ 2,94R12, square: 15R12/4 = 3,75R12). Now, assuming a large center hole (R2 = 3R1/4) we have a 27,7% more donut in the square one (Round: 7πR12/16 ≃ 1,37R12, square: 7R12/4 = 1,75R12). This tells us that, approximately, we’ll have a 27% bigger donut if it’s square than if it’s round.
tl;dr: Square donuts have a 27% more donut per donut in the same space as a round one.
god i love this site
can’t argue with science. Heretofore, I want my donuts square.
more donut per donut
The leg hurt when it rains
BEST TOOTHLESS mcksdmclsdm