Show that the sum of any three consecutive integers is divisible by \(3\).
In a country far far away, there are only two types of coins: 1 crown and 3 crowns coins. Molly had a bag with only 3 crown coins in it. She used some of these coins to buy herself hat and she got one 1 crown coin back. The next day, all of her friends were jealous of her hat, so she decided to buy identical hats for them. She again only had 3 crown coins in her purse, and she used them to pay for 7 hats. Show that she got a single 1 crown coin back.
Show that numbers \(12n+1\) and \(12n+7\) are relatively prime.
If natural numbers \(a,b\) and \(c\) are lengths of the sides of a right triangle (such that \(a^2+b^2=c^2\)), show that at least one of these numbers is divisible by \(3\).
Tom got a really bad grade from the last test and once he got the test back, he started to tear it up. He is tearing it into little pieces in the following manner: He picks up a piece and tears it into either \(4\) or \(10\) smaller pieces. Can he eventually have exactly 200,000 pieces?
Show that any natural number has the same remainder when divided by \(3\) as the sum of its digits.
Show that \(n^3 + 2n\) is divisible by \(3\) for a natural \(n\).
Prove that if \(a^3- b^3\), for \(a\) and \(b\) natural, is divisible by \(3\), then it is divisible by \(9\).
Anna has \(20\) novels and \(25\) comic books on her shelf. She doesn’t really keep her room very tidy and so she also has a lot of novels and comic books in various places around her room. Each time she reaches for the shelf, she takes two books and puts one back. If she takes two novels or two comic books, she puts a novel back on the shelf. If she takes a novel and a comic book, she places another comic book on the shelf. That way, her shelf sistematically empties. Show that eventually there will be a lone comic book standing on her shelf and all her other books scattered across her room.
A knight in chess moves in an “L” pattern – two squares in one direction and one square in a perpendicular direction. Starting with a knight in the bottom right corner of a regular \(8 \times 8\) chessboard, can you move it some number of times according to the rules in such a way that it visits every square on the chessboard exactly once and ends up in the top left corner?