Divide each figure into a grid of triangles. This shows that the square on the left occupies 2/4 of its triangle, while the square on the right occupies 4/9 of its triangle. So the square on the left is about 12.5 percent larger.

(Duane Detemple and Sonia Harold, “A Round-Up of Square Problems,” Mathematics Magazine 69:1 [February 1996], 15-27.)

(a) 1. c1=R Rxg5 2. Rc3 Bc2#
(b) 1. b5 Bc3+ 2. Kc5 Ba5#
(c) 1. b3 Rb4 2. f6 Bf7#
(d) 1. g2 Bf4+ 2. Kf2 Bh2#

(From John M. Rice, An A.B.C. of Chess Problems, 1970.)

Each gnome will pass unless he sees that both of his companions are wearing hats of the same color. In that case he will guess the opposite color. This produces a win in six of the eight possible arrangements of hats.

(Ezra Brown and James Tanton, “A Dozen Hat Problems,” Math Horizons 16:4 [April 2009], 22-25.)

If the white king just circles the pawn, all Black’s moves are forced:

1. Kf1 Kd2 2. Kf2 Kd1 3. Ke3 Ke1 4. Rc1#

With the quiet 1. Qa1! White threatens to push his pawn, giving mate. Black can stop this only with 1. … c4, and then the queen can mate from a5.

From A Collection of Two Hundred Chess Problems, 1866.

1. Ra2! wins.

By withdrawing the rook along the second rank, White keeps the black queen pinned, so she must follow it along that rank. (Black has no other options — his only other legal move, 1. … h3, loses to 2. Nf3#.) No matter which square she chooses, 2. Bb8 is mate.

Note that White must withdraw the rook all the way to the a-file in order for this to work. If it stops at any other square on the second rank, then the queen can capture it and find herself free to block (or capture) the checking bishop, escaping mate in two.

From Cumming’s Souvenir Chess Board, 1886.