$\large 10\; \Box\; 10\; \Box\; 10\; \Box\; 10=101$

**Is it possible to fill each square in with an arithmetic operation $(+, -, \times, \div)$ so that this becomes a true equation?**

You'd be surprised how many people forget about the

Bonus question:Replace 101 with another number between 0 and 200 that makes this problem impossible.

Difficult follow-up bonus:How many different numbers is it possible to make with four 10's and three arithmetic operations?

×

Problem Loading...

Note Loading...

Set Loading...