## fm/h² to am/s² converter

fm/h²femtometre per hour squaredam/s²attometre per second squaredAcceleration

##### Free Converter

fm/h²
am/s²

Formular
[Value of am/s²] = [Value of fm/h²] / 12960
[Value of fm/h²] = [Value of am/s²] * 12960

##### fm/h²(femtometre per hour squared)

A unit of acceleration, like femtometer per hour squared (fm/h²), describes the rate at which the velocity of an object changes over time. Acceleration is typically measured in units like meters per second squared (m/s²) or feet per second squared (ft/s²).

Femtometer per hour squared (fm/h²) is an alternative and less common unit of acceleration. A femtometer (fm) is a very small unit of length, equal to 1x10^-15 meters (one quadrillionth of a meter). When the acceleration is measured in femtometers per hour squared, it means that for each hour that passes, the velocity of the object changes by a certain number of femtometers per second.

This unit is used in specific scientific contexts (often in particle physics or nanotechnology), where the distances involved are incredibly small, and the timescales involved are long compared to particle interactions. However, in most everyday situations, the more common units for acceleration like meters per second squared (m/s²) or feet per second squared (ft/s²) are used instead.

##### 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.

fm/h² am/s²
17.716049E-5
21.543210E-4
32.314815E-4
43.086420E-4
53.858025E-4
64.629630E-4
75.401235E-4
86.172840E-4
96.944444E-4
107.716049E-4
201.543210E-3
251.929012E-3
503.858025E-3
1007.716049E-3
2001.543210E-2
2501.929012E-2
5003.858025E-2
10007.716049E-2
20001.543210E-1
25001.929012E-1
50003.858025E-1
100007.716049E-1
am/s² fm/h²
112,960
225,920
338,880
451,840
564,800
677,760
790,720
8103,680
9116,640
10129,600
20259,200
25324,000
50648,000
1001.296000E+6
2002.592000E+6
2503.240000E+6
5006.480000E+6
10001.296000E+7
20002.592000E+7
25003.240000E+7
50006.480000E+7
100001.296000E+8