Scaled Two-Pentomino Balanced Rectangles

Introduction

A pentomino is a figure made of five squares joined edge to edge. There are 12 such figures, not distinguishing reflections and rotations. They were first enumerated and studied by Solomon Golomb.

It has long been known that only four pentominoes can tile rectangles:

For other rectangles that these pentominoes tile, see Mike Reid's Rectifiable Polyomino Page.

On Balanced Two-Pentomino Rectangles I study the problem of tiling some rectangle with two pentominoes, using the same areas of each. Here I study the same problem, using the pentominoes in various sizes. If you find a better solution than one of mine, or solve an unsolved case, please write!

Bryce Herdt sent some improved solutions.

Nomenclature

I use Solomon W. Golomb's original names for the pentominoes:

Table

This table shows the smallest total number of scaled pentominoes known to be able to tile a rectangle in equal areas.

	F	I	L	N	P	T	U	V	W	X	Y	Z
F	*	17	4	×	8	×	12	4	×	×	8	×
I	17	*	4	11	4	10	10	9	15	23	8	13
L	4	4	*	4	4	8	4	4	4	31	8	13
N	×	11	4	*	4	24	4	4	×	×	8	×
P	8	4	4	4	*	9	4	6	8	26	4	9
T	×	10	8	24	9	*	56	7	50	×	4	×
U	12	10	4	4	4	56	*	30	×	51	12	×
V	4	9	4	4	6	7	30	*	72	×	9	4
W	×	15	4	×	8	50	×	72	*	×	14	×
X	×	23	31	×	26	×	51	×	×	*	20	×
Y	8	8	8	8	4	4	12	9	14	20	*	8
Z	×	13	13	×	9	×	×	4	×	×	8	*

Solutions

So far as I know, these solutions have minimal tiles. They are not necessarily uniquely minimal.

4 Tiles

6 Tiles

7 Tiles

8 Tiles

9 Tiles

10 Tiles

11 Tiles

12 Tiles

13 Tiles

14 Tiles

15 Tiles

17 Tiles

20 Tiles

23 Tiles

24 Tiles

26 Tiles

30 Tiles

31 Tiles

50 Tiles

51 Tiles

56 Tiles

72 Tiles

Last revised 2021-05-19.

Back to Polyform Tiling < Polyform Curiosities

Col. George Sicherman [ HOME | MAIL ]

	F	I	L	N	P	T	U	V	W	X	Y	Z
F	*	17	4	×	8	×	12	4	×	×	8	×
I	17	*	4	11	4	10	10	9	15	23	8	13
L	4	4	*	4	4	8	4	4	4	31	8	13
N	×	11	4	*	4	24	4	4	×	×	8	×
P	8	4	4	4	*	9	4	6	8	26	4	9
T	×	10	8	24	9	*	56	7	50	×	4	×
U	12	10	4	4	4	56	*	30	×	51	12	×
V	4	9	4	4	6	7	30	*	72	×	9	4
W	×	15	4	×	8	50	×	72	*	×	14	×
X	×	23	31	×	26	×	51	×	×	*	20	×
Y	8	8	8	8	4	4	12	9	14	20	*	8
Z	×	13	13	×	9	×	×	4	×	×	8	*

	F	I	L	N	P	T	U	V	W	X	Y	Z
F	*	17	4	×	8	×	12	4	×	×	8	×
I	17	*	4	11	4	10	10	9	15	23	8	13
L	4	4	*	4	4	8	4	4	4	31	8	13
N	×	11	4	*	4	24	4	4	×	×	8	×
P	8	4	4	4	*	9	4	6	8	26	4	9
T	×	10	8	24	9	*	56	7	50	×	4	×
U	12	10	4	4	4	56	*	30	×	51	12	×
V	4	9	4	4	6	7	30	*	72	×	9	4
W	×	15	4	×	8	50	×	72	*	×	14	×
X	×	23	31	×	26	×	51	×	×	*	20	×
Y	8	8	8	8	4	4	12	9	14	20	*	8
Z	×	13	13	×	9	×	×	4	×	×	8	*

	F	I	L	N	P	T	U	V	W	X	Y	Z
F	*	17	4	×	8	×	12	4	×	×	8	×
I	17	*	4	11	4	10	10	9	15	23	8	13
L	4	4	*	4	4	8	4	4	4	31	8	13
N	×	11	4	*	4	24	4	4	×	×	8	×
P	8	4	4	4	*	9	4	6	8	26	4	9
T	×	10	8	24	9	*	56	7	50	×	4	×
U	12	10	4	4	4	56	*	30	×	51	12	×
V	4	9	4	4	6	7	30	*	72	×	9	4
W	×	15	4	×	8	50	×	72	*	×	14	×
X	×	23	31	×	26	×	51	×	×	*	20	×
Y	8	8	8	8	4	4	12	9	14	20	*	8
Z	×	13	13	×	9	×	×	4	×	×	8	*