Convert Angstrom to Furlong (Å → fur)

The angstrom is the historical unit for atomic and molecular dimensions, equal to one ten-billionth of a meter.

Angstrom

Furlong

4.971 × 10^-13

1 Å4.971 × 10^-13 furNIST · BIPM accuracy

Angstrom to Furlong Conversion Table

10 common values

Angstrom	Furlong
1 Å	4.971 × 10^-13 fur
5 Å	2.485 × 10^-12 fur
10 Å	4.971 × 10^-12 fur
25 Å	1.243 × 10^-11 fur
50 Å	2.485 × 10^-11 fur
100 Å	4.971 × 10^-11 fur
250 Å	1.243 × 10^-10 fur
500 Å	2.485 × 10^-10 fur
1,000 Å	4.971 × 10^-10 fur
5,000 Å	2.485 × 10^-9 fur

How to Convert Angstrom to Furlong Manually

Step by Step

Converting angstroms to furlongs is straightforward: multiply by the conversion factor. Follow these three steps to do it by hand or in your head.

1
Take your value in angstroms
Start with the number of angstroms (Å) you want to convert.
2
Multiply by 4.971 × 10^-13
The conversion factor from Å to fur is 4.971 × 10^-13. Multiply your value by this number.
3
Read the result in furlongs
The result is your value in furlongs (fur).

Practical Examples

1 Å

equals

4.971 × 10^-13 fur

5 Å

equals

2.485 × 10^-12 fur

10 Å

equals

4.971 × 10^-12 fur

25 Å

equals

1.243 × 10^-11 fur

100 Å

equals

4.971 × 10^-11 fur

Formula

Multiply the value in angstroms by 4.971 × 10^-13. For the reverse direction, multiply by 2,011,680,000,000.

Forwardfur = Å × 4.971 × 10^-13

ReverseÅ = fur × 2,011,680,000,000

Example: 10 Å × 4.971 × 10^-13 = 4.971 × 10^-12 fur

Tips

Use these in everyday conversions

1 Å = 0.1 nm = 100 pm. Modern SI recommends nm or pm for new publications.
The ångström is named after the Swedish physicist Anders Jonas Ångström.
For quick atomic-scale intuition: most atoms are 1–3 Å across.

Common Mistakes

Avoid these

Mixing up Å with µm — the scale differs by 10,000×.
Using Å for anything macroscopic — always use nm or mm for things visible under a light microscope.
Forgetting the diacritic in "Ångström" — the symbol Å avoids spelling issues.

About Angstrom and Furlong

What is the Angstrom?

The angstrom equals exactly 0.1 nanometers or 10⁻¹⁰ meters and is the historical unit for atomic and molecular dimensions. Named after Swedish physicist Anders Jonas Ångström (1814–1874), who used it to chart the wavelengths of solar spectral lines, the unit was widely adopted in spectroscopy, crystallography, and chemistry. The diameter of a hydrogen atom is about 1 Å, and visible light wavelengths range from 4,000 to 7,000 Å. While the SI system officially recommends nanometers (10 Å = 1 nm), the angstrom remains common in older physics and chemistry literature, X-ray diffraction studies, and crystal structure data. The symbol Å uses a special character with a circle above the A. The angstrom is one of the few non-SI units still routinely used in scientific publications, particularly in solid-state physics.

X-ray crystallography and protein structure
Chemical bond length measurement
Atomic physics and spectroscopy

Real-world examples

A water molecule is about 1 Å across. The covalent bond in H₂ is 0.74 Å. X-ray wavelengths are 0.1–100 Å.

What is the Furlong?

The furlong equals exactly 201.168 meters or one eighth of a mile (220 yards). The unit's name comes from the Old English 'furh' (furrow) and 'lang' (long), reflecting its origin as the length of a furrow that an ox team could plow without resting. Formalized in medieval England, the furlong was standardized as 40 rods or 660 feet during agricultural land measurement. Today, the furlong's primary modern use is in horse racing across the United Kingdom, the United States, and several Commonwealth countries — race distances are quoted in furlongs (a 6-furlong sprint is ¾ of a mile). It also appears in old land deeds, particularly in Britain. The furlong relates to the mile (8 furlongs = 1 mile), the yard (220 yd = 1 furlong), and the meter (≈201 m).