## am/h/s to nm/h² converter

am/h/sattometre per hour per secondnm/h²nanometre per hour squaredAcceleration

##### Free Converter

am/h/s
nm/h²

Formular
[Value of nm/h²] = [Value of am/h/s] / 277777.77777498
[Value of am/h/s] = [Value of nm/h²] * 277777.77777498

##### am/h/s(attometre per hour per second)

An attometer per hour per second (am/h/s) is a derived unit for acceleration, which measures the change in speed or velocity over time. In this unit, attometer (10^-18 meters) is the unit of distance, hour is the unit of time, and second is another unit of time.

In an am/h/s, acceleration is expressed as the change in velocity (attometers per hour) that occurs for each second of time elapsed. This unit is, therefore, essentially expressing the change in velocity (displacement/time) over a period of time.

One am/h/s means that the object's velocity is changing at a rate of one attometer per hour for every second of time that passes. This is a very small acceleration since an attometer is an extremely tiny unit of measurement (1 attometer = 10^-18 meters). It is typically used to express extremely small accelerations in scientific and engineering applications.

##### nm/h²(nanometre per hour squared)

In the field of acceleration, "nanometre per hour squared" (nm/h²) is a unit that measures the rate of change in an object's velocity in terms of distance covered (nanometer) per unit of time (hour) squared. Essentially, it represents the measurement of acceleration on an extremely small scale.

To break it down:
- A nanometre (nm) is 1 billionth of a meter (1 nm = 10^-9 meters), which is a very small distance unit often used for measuring atomic and molecular scales.
- An hour (h) is a unit of time, equal to 3600 seconds.

When we say "nanometre per hour squared," it means that the velocity of an object is increasing or decreasing by a certain number of nanometres every hour, and this rate of change is constant over time. This unit is not commonly used in everyday applications. However, it can be helpful for quantifying various atomic, molecular, or microscopic processes where traditional units like meters per second squared (m/s²) are too large.

am/h/s nm/h²
13.600000E-6
27.200000E-6
31.080000E-5
41.440000E-5
51.800000E-5
62.160000E-5
72.520000E-5
82.880000E-5
93.240000E-5
103.600000E-5
207.200000E-5
259.000000E-5
501.800000E-4
1003.600000E-4
2007.200000E-4
2509.000000E-4
5001.800000E-3
10003.600000E-3
20007.200000E-3
25009.000000E-3
50001.800000E-2
100003.600000E-2
nm/h² am/h/s
12.777778E+5
25.555556E+5
38.333333E+5
41.111111E+6
51.388889E+6
61.666667E+6
71.944444E+6
82.222222E+6
92.500000E+6
102.777778E+6
205.555556E+6
256.944444E+6
501.388889E+7
1002.777778E+7
2005.555556E+7
2506.944444E+7
5001.388889E+8
10002.777778E+8
20005.555556E+8
25006.944444E+8
50001.388889E+9
100002.777778E+9