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The chessboard was well balanced on the mid horizontal by some fulcrum. Black and white pieces were carefully placed on such board for equilibrium. Because the wooden pieces weights vary, their perpendicular distance to fulcrum (center of 2x2cm squares to mid horizontal line) produce some torques or moments that are counter balanced within the system. That is $ΣM=0$ (leveled or non-tilting) where all moment is M = weight x distance and considered negative on one side and positive on the other side of fulcrum. The measured weights are:

King=10g. Queen=8g. Rook=5g. Bishop=4g. Knight=4g. Pawn=2g.

The pieces are to be moved by regular chess rules (ignore checks, capturing is not allowed). White makes a move first then black moves to counter balance the position. This continues until all Black and White pieces have crossed the mid-board horizontal line.

What is the least number of moves?

  • 1
    $\begingroup$ Excel is quite helpful ..say on [J1] =sum(A1:H1)*7, [J2] =sum(A2:H2)*5... [J8] =sum(A8:H8)*-7 with total on [J9] = sum(J1:J8), now you can move the colored piece values in your A1:H8 grid $\endgroup$
    – TSLF
    Apr 3, 2020 at 16:28

3 Answers 3


TL;DR: The minimum number of moves is


Let's start by finding the allowed move pairs:

Obviously, a bishop's move can be matched by an equal and opposite bishop's move, and so on. There are also some "special couples" where black and white can move different pieces. Given the weights

King=10g. Queen=8g. Rook=5g. Bishop=4g. Knight=4g. Pawn=2g.

we can go through every possible integer weight and see if you can make that weight by adding up pieces of one kind. (Although not more than the maximum vertical move of that piece type). This gives us the following equal weight combinations:

4: ♘ = ♝ = ♙♙
8: ♕ = ♗♗ = ♞♞
10: ♔ = ♜♜
16: ♛♛ = ♗♗♗♗
20: ♖♖♖♖ = ♝♝♝♝♝
24: ♛♛♛ = ♗♗♗♗♗♗
32: ♛♛♛♛ = ♗♗♗♗♗♗♗♗
40: ♕♕♕♕♕ = ♜♜♜♜♜♜♜♜

Of course, we can only move one piece at a time, so we'll just interpret the number of pieces as the vertical distance moved, and we have found all the balance-preserving move pairs.

Then, let's put some limits on the optimal solution.

  • If every piece just took the minimum number of moves to reach the other side, moving on top and through other pieces, we'd need 8 white moves and 7 black moves.
  • Because black needs two one-square pawn moves, white must make a useless pawn move to match it up
  • Because white has to make 9 moves, black will need as many moves to balance the board.

So the optimum cannot be better than 9 moves. The above analysis also tells us that black can basically waste two moves without affecting the result.

Let's see if we can't get there. Start by clearing up some space. (Sorry about the notation, Lichess won't let me ignore checks)

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1. Be6 Nf3
2. Rd8 Bh2

Then, juggle the kings and the rook:

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3. Kc4 Rb3
4. Kb5 Kb4

Next, do the queens, and very importantly, the double pawn move (otherwise the white pawn would end up blocking the white knight).

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5. Qa7 Qe3
6. d4 Bg1 (we can afford to waste a black move)

and finally, do the pawns and the final white knight (and the balancing black move):

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7. d5 c5
8. d6 c4
9. Nd5 Ne1 (Omit black's last move if final balancing is not necessary)

And there we have it: an optimal solution with an otherwise unnecessary black move as the final balancing step.

  • 1
    $\begingroup$ :o( This is precisely the solution I just found. $\endgroup$ Apr 4, 2020 at 0:22

Here's my solution to the problem, which takes

nineteen plies (twenty if the position must be balanced at the end).
1. Be6 Nf3
2. Qa6 Bg3
3. Ka4 Kc4
4. Rd8 Rb8
5. Nd5 Qb5
6. Ne7 Qb4
7. Ka5 Kb3
8. d3 c5
9. d4 c4
10. d5 (c3)

There probably is a shorter solution, but I haven't found it yet.

  • 1
    $\begingroup$ Isn't move 2 changing the balance ? Your white move changes the balance by -24 and your black move changes it by +20. Same for move 9 apparently. $\endgroup$ Apr 3, 2020 at 22:17
  • 1
    $\begingroup$ @classicalMpk queen's move from +8 to -24 (-32) is balanced by bishop's move from -12 to +20 (+32) $\endgroup$ Apr 3, 2020 at 22:44
  • $\begingroup$ But isn't A6 -16 instead of -24? The queen changes its balance from +8 to -16 (so -24) while the bishop goes from -12 to +8 (only +20). I think move 9 has the same issue, and maybe other moves too. $\endgroup$ Apr 3, 2020 at 22:49
  • $\begingroup$ @classicalMpk The row multipliers are 1, 3, 5, and 7. The queen moves from +8 to -24, and the bishop moves from -20 to +12. $\endgroup$ Apr 3, 2020 at 23:21
  • $\begingroup$ Oh, I assumed the multipliers were 1,2,3,4. I didn't understand "center of 2x2cm to mid horizontal line" and I mistook it for "distance to mid horizontal line". Now it makes more sense. The puzzle was also interesting with 1,2,3,4 because of the pawn placement. $\endgroup$ Apr 3, 2020 at 23:56

My best attempt :

10 moves

Here it is :

1.Be6 (12) Nf3 (12)
2.Rd7 (20) Kd4 (20)
3.Kb4 (10) Ke3 (10)
4.Ka5 (20) Rb2 (20)
5.d4  (4)  Bd6 (4)
6.d5  (4)  Be5 (4)
7.d6  (2)  c5  (2)
8.Nd5 (12) Bg3 (12)
9.Qc6 (24) Qb4 (24)
10.Bf7 (4)  c4  (4)
The difficulty appears to be the fact that we must play d6 to allow black to play c5.
With that in mind, the theoritical minimum is 9 moves
I believe its not possible to do less than 9, so we still have room for improvement. I'll work on this tomorrow.
Nice puzzle.


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