##### Free Converter

Formular

[Value of am/s²] = [Value of Em/h/s] * 2.7777777778E+32

[Value of Em/h/s] = [Value of am/s²] / 2.7777777778E+32

##### Em/h/s(exametre per hour per second)

An exametre per hour per second (Em/h/s) is a measure of acceleration, which represents the rate of change in velocity of an object over time.

In this measurement unit:

1. Exametre (Em) represents a distance of 10^18 meters. It is a very large unit of length, often used to describe astronomical distances.

2. Hour (h) is a unit of time that corresponds to 60 minutes or 3,600 seconds.

When we see exametre per hour per second (Em/h/s), it means that an object is accelerating by a certain number of exameters for every hour, and this acceleration rate is maintained over the course of one second.

To better understand this, imagine an object that is accelerating by 1 Em/h/s - this means that its speed would increase by 1 Em/h over the course of one second. In other words, the object would gain a velocity of 1 exametre/hour every second it accelerates at this rate.

Note, however, that Em/h/s is not a commonly used unit of measurement in the field of acceleration, as it involves an unusually large unit of distance (Em) and a non-standard unit of time (hour). Acceleration is typically measured in meters per second squared (m/s²), which provides a more intuitive and easier-to-visualize description of an object's acceleration.

##### am/s²(attometre per second squared)

In the field of Acceleration, unit am/s² (attometer per second squared) is a derived unit of acceleration in the International System of Units (SI). An attometer is a very small unit of length, equivalent to 10^-18 meters (one quintillionth of a meter), and acceleration, as it's usually measured, is the rate at which an object changes its velocity over time.

So, when we express acceleration in unit am/s², it means that an object is accelerating at a rate of 1 attometer per second squared, which means its velocity is changing by 1 attometer per second for each second that passes. In other words, the object's velocity increases by 1 attometer per second every second, and this unit is used to quantify very small changes in acceleration, which can be related to nano or microscopic phenomena.

##### Em/h/s and am/s² Conversion Mapping Table

Em/h/s | am/s² |
---|---|

1 | 2.777778E+32 |

2 | 5.555556E+32 |

3 | 8.333333E+32 |

4 | 1.111111E+33 |

5 | 1.388889E+33 |

6 | 1.666667E+33 |

7 | 1.944444E+33 |

8 | 2.222222E+33 |

9 | 2.500000E+33 |

10 | 2.777778E+33 |

20 | 5.555556E+33 |

25 | 6.944444E+33 |

50 | 1.388889E+34 |

100 | 2.777778E+34 |

200 | 5.555556E+34 |

250 | 6.944444E+34 |

500 | 1.388889E+35 |

1000 | 2.777778E+35 |

2000 | 5.555556E+35 |

2500 | 6.944444E+35 |

5000 | 1.388889E+36 |

10000 | 2.777778E+36 |

am/s² | Em/h/s |
---|---|

1 | 3.600000E-33 |

2 | 7.200000E-33 |

3 | 1.080000E-32 |

4 | 1.440000E-32 |

5 | 1.800000E-32 |

6 | 2.160000E-32 |

7 | 2.520000E-32 |

8 | 2.880000E-32 |

9 | 3.240000E-32 |

10 | 3.600000E-32 |

20 | 7.200000E-32 |

25 | 9.000000E-32 |

50 | 1.800000E-31 |

100 | 3.600000E-31 |

200 | 7.200000E-31 |

250 | 9.000000E-31 |

500 | 1.800000E-30 |

1000 | 3.600000E-30 |

2000 | 7.200000E-30 |

2500 | 9.000000E-30 |

5000 | 1.800000E-29 |

10000 | 3.600000E-29 |