##### Free Converter

Formular

[Value of Mm/s²] = [Value of aGal] / 1.0E+26

[Value of aGal] = [Value of Mm/s²] * 1.0E+26

##### aGal(attogal)

An attogal (aGal) is a unit of acceleration, mainly used in geophysics and geodesy, to measure the gravitational field strength. It is derived from gal (Galileo), a non-SI unit initially introduced to express Earth's gravitational acceleration.

1 gal (Galileo) is equivalent to 1 centimeter per second squared (1 cm/s²). Attogal is a smaller unit in the Galileo system and is defined as one-quintillionth (10^(-18)) of the gal. So,

1 aGal (attogal) = 10^(-18) gal = 10^(-18) cm/s²

This extremely small unit of acceleration is used to represent variations in the Earth's gravitational field, as well as in precise measurements of gravity and related phenomena such as tidal forces or Earth's crust movements.

##### Mm/s²(megametre per second squared)

The unit Mm/s² (megametre per second squared) is a unit of acceleration in the field of physics. Acceleration is the rate of change of velocity of an object with respect to time, and it is a vector quantity. In this unit, a megametre (Mm) is a unit of distance equivalent to 1,000,000 meters (or 1 million meters), and a second (s) is a unit of time.

Mm/s² means that an object is accelerating at a rate of one megametre (1 million meters) per second, per second. This means that with each successive second, the object's velocity changes by 1 million meters per second. This unit represents very large accelerations and is not commonly encountered in everyday situations but might be used in specific scientific contexts, such as in astrophysics or space exploration.

##### mm/s²(millimetre per second squared)

The unit mm/s² (millimetre per second squared) is a unit of acceleration in the International System of Units (SI). Acceleration is a measure of how fast an object's velocity changes over time. In the context of acceleration, 1 mm/s² means that the velocity of an object is increasing (or decreasing) by 1 millimetre per second with each passing second.

For example, if an object has an acceleration of 2 mm/s², its velocity will increase by 2 millimetres per second every second. After 1 second, its velocity would have increased by 2 mm/s; after 2 seconds, its velocity would have increased by 4 mm/s, and so on. This unit is commonly used in various fields such as physics, engineering, and transportation to quantify changes in the velocity of objects.

##### aGal and Mm/s² Conversion Mapping Table

aGal | Mm/s² |
---|---|

1 | 1.000000E-26 |

2 | 2.000000E-26 |

3 | 3.000000E-26 |

4 | 4.000000E-26 |

5 | 5.000000E-26 |

6 | 6.000000E-26 |

7 | 7.000000E-26 |

8 | 8.000000E-26 |

9 | 9.000000E-26 |

10 | 1.000000E-25 |

20 | 2.000000E-25 |

25 | 2.500000E-25 |

50 | 5.000000E-25 |

100 | 1.000000E-24 |

200 | 2.000000E-24 |

250 | 2.500000E-24 |

500 | 5.000000E-24 |

1000 | 1.000000E-23 |

2000 | 2.000000E-23 |

2500 | 2.500000E-23 |

5000 | 5.000000E-23 |

10000 | 1.000000E-22 |

Mm/s² | aGal |
---|---|

1 | 1.000000E+26 |

2 | 2.000000E+26 |

3 | 3.000000E+26 |

4 | 4.000000E+26 |

5 | 5.000000E+26 |

6 | 6.000000E+26 |

7 | 7.000000E+26 |

8 | 8.000000E+26 |

9 | 9.000000E+26 |

10 | 1.000000E+27 |

20 | 2.000000E+27 |

25 | 2.500000E+27 |

50 | 5.000000E+27 |

100 | 1.000000E+28 |

200 | 2.000000E+28 |

250 | 2.500000E+28 |

500 | 5.000000E+28 |

1000 | 1.000000E+29 |

2000 | 2.000000E+29 |

2500 | 2.500000E+29 |

5000 | 5.000000E+29 |

10000 | 1.000000E+30 |