Boat tie bipole
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| Boat tie bipole | |||||||||
| View static image | |||||||||
| Pattern type | Oscillator | ||||||||
|---|---|---|---|---|---|---|---|---|---|
| Oscillator type | Muttering moat | ||||||||
| Family | Barberpole | ||||||||
| Number of cells | 13 | ||||||||
| Bounding box | 8 × 8 | ||||||||
| Frequency class | 33.0 | ||||||||
| Period | 2 | ||||||||
| Mod | 1 | ||||||||
| Heat | 4 | ||||||||
| Volatility | 0.27 | ||||||||
| Strict volatility | 0.27 | ||||||||
| Rotor type | Pole 2 | ||||||||
| Discovered by | Unknown | ||||||||
| Year of discovery | Unknown | ||||||||
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Boat tie bipole is a period-2 oscillator.
As its name implies, it involves a boat having been tied to a bipole.
Commonness
It is the 50th most common oscillator on Adam P. Goucher's Catagolue.
It is much less common than Boat tie quadpole, because it has a common predecessor, while boat tie bipole can only occur by chance.
Glider synthesis
All strict still lifes with a population of 21 or fewer cells, all oscillators with 16 or fewer cells, and all spaceships with 31 or fewer cells are known to be glider-constructible. A glider synthesis of this object can be found in the infobox to the right.
See also
External links
- 13P2.1 at Heinrich Koenig's Game of Life Object Catalogs
Categories:
- Patterns
- Patterns with Catagolue frequency class 33
- Natural periodic objects
- Oscillators with 13 cells
- Periodic objects with minimum population 13
- Patterns with 13 cells
- Patterns that can be constructed with 5 gliders
- Oscillators
- Barberpole variants
- Muttering moats
- Oscillators with period 2
- Oscillators with mod 1
- Oscillators with heat 4
- Oscillators with volatility 0.27
- Oscillators with strict volatility 0.27
- Oscillators with rotor Pole 2
- Flipping oscillators