length units conversion
Amount: 1 ångström (Å) of length (Non-SI)
Equals: 0.10 nanometers (nm) in length
Converting ångström to nanometers value in the length units scale.
TOGGLE : from nanometers into ångströms in the other way around.
CONVERT : between other length measuring units - complete list.
How many nanometers are in 1 ångström? The answer is: 1 Å equals 0.10 nm
0.10 nm is converted to 1 of what?
The nanometers unit number 0.10 nm converts to 1 Å, one ångström. It is the EQUAL length (Non-SI) value of 1 ångström but in the nanometers length unit alternative.
| Å/nm length conversion result | ||||
| From | Symbol | Equals | Result | Symbol |
| 1 | Å | = | 0.10 | nm |
Conversion chart - ångströms to nanometers
1 ångström to nanometers = 0.10 nm
2 ångströms to nanometers = 0.20 nm
3 ångströms to nanometers = 0.30 nm
4 ångströms to nanometers = 0.40 nm
5 ångströms to nanometers = 0.50 nm
6 ångströms to nanometers = 0.60 nm
7 ångströms to nanometers = 0.70 nm
8 ångströms to nanometers = 0.80 nm
9 ångströms to nanometers = 0.90 nm
10 ångströms to nanometers = 1.00 nm
11 ångströms to nanometers = 1.10 nm
12 ångströms to nanometers = 1.20 nm
13 ångströms to nanometers = 1.30 nm
14 ångströms to nanometers = 1.40 nm
15 ångströms to nanometers = 1.50 nm
Category: main menu • length menu • ångströms
Convert length of ångström (Å) and nanometers (nm) units in reverse from nanometers into ångströms.
Length, Distance, Height & Depth units
Distance in the metric sense is a measure between any two A to Z points. Applies to physical lengths, depths, heights or simply farness. Tool with multiple distance, depth and length measurement units.
Converter type: length units
First unit: ångström (Å) is used for measuring length (Non-SI).
Second: nanometer (nm) is unit of length.
QUESTION:
15 Å = ? nm
ANSWER:
15 Å = 1.50 nm
Abbreviation, or prefix, for ångström is:
Å
Abbreviation for nanometer is:
nm
Other applications for this length calculator ...
With the above mentioned two-units calculating service it provides, this length converter proved to be useful also as a teaching tool:
1. in practicing ångströms and nanometers ( Å vs. nm ) measures exchange.
2. for conversion factors between unit pairs.
3. work with length's values and properties.