Q: What is a repeating pattern of figures that covers a plane without gaps or overlaps?

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They cover a plane area without gaps or overlaps.

It is a regular tessellation.

That is 'tessellation'

Tessellation is repeating a pattern over and over and filling an area with no overlaps and no gaps. Some shapes can't do this, because they don't fit with themselves without leaving big gaps between the parts.

It is a pattern in which the tessera - individual tiles - need to be placed so as to cover a plane without gaps or overlaps.

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They cover a plane area without gaps or overlaps.

No spaces or overlaps exist between it's pieces.

It is a regular tessellation.

That is 'tessellation'

Tessellation is repeating a pattern over and over and filling an area with no overlaps and no gaps. Some shapes can't do this, because they don't fit with themselves without leaving big gaps between the parts.

It is a pattern in which the tessera - individual tiles - need to be placed so as to cover a plane without gaps or overlaps.

tesselation

Decimal numbers that never end but that end up having a repeating pattern are called recurring decimals or repeating decimals.Examples would be 1/3 = 0.33333333...or 452/555 = 0.8144144144144144... (where 144 is the repeating pattern).Reaching that repeating pattern is known as becoming periodic. Only rational numbers will have a repeating pattern. (The repeating pattern may be 00000, as in 4/2 = 2.00000... .)If a decimal number continues forever without having a repeating pattern, then it is a irrational number. One example of a number that continues forever without repeating would be Ï€ (pi) which continues infinitely without repeating.Pi is also referred to as a transcendental number.

No, it is using multiple copies of a shape, usually polygons, so as to cover a plane without gaps or overlaps.

No, it is not true that you cannot tessellate a six-sided polygon by itself. Hexagons are a type of polygon that can tessellate, which means they can be arranged in a repeating pattern to completely cover a plane without any gaps or overlaps.

the answer is yes

If you write it in decimal, it will continue indefinitely, without a regular repeating pattern.