##### Free Converter

Formular

[Value of PΩ] = [Value of yΩ] / 1.0E+39

[Value of yΩ] = [Value of PΩ] * 1.0E+39

##### yΩ(yoctoohm)

A yoctoohm (yΩ) is an incredibly small unit of electrical resistance. It is derived from the metric system prefix "yocto," which denotes a factor of 10⁻²⁴. In other words, 1 yoctoohm is equal to 1 x 10⁻²⁴ ohms. The ohm (Ω) is the standard unit of measurement for electrical resistance, and it quantifies a material's opposition to the flow of electrical current.

Though it is a valid unit, the yoctoohm is an exceptionally small measurement, and it's not commonly used in practical applications. Due to its extremely low value, yoctoohm is generally encountered only in theoretical contexts, where it can serve to describe electrical resistance at a nearly negligible level.

##### YΩ(yottaohm)

Yottaohm (YΩ) is a unit of measurement denoting Electrical Resistance in the International System of Units (SI). In the field of electrical resistance, it expresses the resistance of a conductor or resistor, which is its opposition to the flow of electric current. The unit is derived from Ohm (Ω), which is the standard SI unit for electrical resistance, named after the German scientist Georg Simon Ohm.

One yottaohm (YΩ) is equal to 1 x 10^24 ohms, which is a very large amount of resistance. This unit is not commonly used in everyday applications, mainly due to its enormous magnitude. It may be referenced in large-scale simulations or certain scientific contexts, where such extreme values of resistance might be encountered or discussed.

##### PΩ(petaohm)

A petaohm (PΩ) is a unit of electrical resistance in the International System of Units (SI). It represents one quadrillion (10^15) ohms, which is a measure of the amount of resistance a material or component provides against the flow of electric current. This unit is used primarily for very large resistances, such as those found in insulators or high-voltage transmission systems.

An ohm (Ω) is the basic unit of electrical resistance, named after Georg Simon Ohm, a German physicist who formulated Ohm's Law. In SI derived units, 1 ohm is equivalent to one volt per ampere (V/A). To represent increasingly larger resistances, engineers and scientists use prefixes like kiloohm (kΩ), megaohm (MΩ), gigaohm (GΩ), and ultimately, petaohm (PΩ).

##### pΩ(picoohm)

In the field of electrical resistance, a picoohm (pΩ) is a unit representing extremely small resistance values. The term "pico" is derived from the Italian word "piccolo," meaning small, and it is a unit prefix in the International System of Units (SI), which denotes a factor of 10^(-12) or 0.000000000001.

A picoohm is equal to 0.000000000001 ohms (1x10^(-12) Ω), where an ohm (Ω) is the standard unit of electrical resistance. Electrical resistance is a property of conductive materials that determines how much they resist the flow of electric current. A smaller resistance value implies that the material allows electricity to pass more easily, while larger values mean it is more resistive.

Picoohm measurements are typically used when dealing with very small resistance values, such as studying the resistance of thin films or nanostructures, superconducting materials, or in specific scientific applications, like in advanced physics research.

##### yΩ and PΩ Conversion Mapping Table

yΩ | PΩ |
---|---|

1 | 1.000000E-39 |

2 | 2.000000E-39 |

3 | 3.000000E-39 |

4 | 4.000000E-39 |

5 | 5.000000E-39 |

6 | 6.000000E-39 |

7 | 7.000000E-39 |

8 | 8.000000E-39 |

9 | 9.000000E-39 |

10 | 1.000000E-38 |

20 | 2.000000E-38 |

25 | 2.500000E-38 |

50 | 5.000000E-38 |

100 | 1.000000E-37 |

200 | 2.000000E-37 |

250 | 2.500000E-37 |

500 | 5.000000E-37 |

1000 | 1.000000E-36 |

2000 | 2.000000E-36 |

2500 | 2.500000E-36 |

5000 | 5.000000E-36 |

10000 | 1.000000E-35 |

PΩ | yΩ |
---|---|

1 | 1.000000E+39 |

2 | 2.000000E+39 |

3 | 3.000000E+39 |

4 | 4.000000E+39 |

5 | 5.000000E+39 |

6 | 6.000000E+39 |

7 | 7.000000E+39 |

8 | 8.000000E+39 |

9 | 9.000000E+39 |

10 | 1.000000E+40 |

20 | 2.000000E+40 |

25 | 2.500000E+40 |

50 | 5.000000E+40 |

100 | 1.000000E+41 |

200 | 2.000000E+41 |

250 | 2.500000E+41 |

500 | 5.000000E+41 |

1000 | 1.000000E+42 |

2000 | 2.000000E+42 |

2500 | 2.500000E+42 |

5000 | 5.000000E+42 |

10000 | 1.000000E+43 |