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Angstrom to Link (Gunter's) Converter

Convert angstroms to links with our free online length converter.

Quick Answer

1 Angstrom = 4.970970e-10 links

Formula: Angstrom × conversion factor = Link (Gunter's)

Use the calculator below for instant, accurate conversions.

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All conversion formulas on UnitsConverter.io have been verified against NIST (National Institute of Standards and Technology) guidelines and international SI standards. Our calculations are accurate to 10 decimal places for standard conversions and use arbitrary precision arithmetic for astronomical units.

Last verified: February 2026Reviewed by: Sam Mathew, Software Engineer

Angstrom to Link (Gunter's) Calculator

How to Use the Angstrom to Link (Gunter's) Calculator:

  1. Enter the value you want to convert in the 'From' field (Angstrom).
  2. The converted value in Link (Gunter's) will appear automatically in the 'To' field.
  3. Use the dropdown menus to select different units within the Length category.
  4. Click the swap button (⇌) to reverse the conversion direction.
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How to Convert Angstrom to Link (Gunter's): Step-by-Step Guide

Converting Angstrom to Link (Gunter's) involves multiplying the value by a specific conversion factor, as shown in the formula below.

Formula:

1 Angstrom = 4.9710e-10 links

Example Calculation:

Convert 10 angstroms: 10 × 4.9710e-10 = 4.9710e-9 links

Disclaimer: For Reference Only

These conversion results are provided for informational purposes only. While we strive for accuracy, we make no guarantees regarding the precision of these results, especially for conversions involving extremely large or small numbers which may be subject to the inherent limitations of standard computer floating-point arithmetic.

Not for professional use. Results should be verified before use in any critical application. View our Terms of Service for more information.

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📋 Unit Symbols

Copy Å & li symbols

What is a Angstrom and a Link (Gunter's)?

The Angstrom (symbol Å) is a non-SI unit of length equal to exactly 10⁻¹⁰ meters (one ten-billionth of a meter) or 0.1 nanometers (nm). While not part of the modern International System of Units (SI), it remains widely used in various scientific fields due to its convenient scale for atomic and molecular dimensions.

The Angstrom provides a direct way to express sizes at the sub-nanometer level without resorting to fractions or powers of ten. For example, expressing a carbon-carbon bond as "1.54 Å" is more intuitive than "0.154 nm" or "154 pm" for scientists working at the atomic scale.

Relationship to other units:

  • 1 Angstrom = 0.1 nanometers (nm)
  • 1 Angstrom = 100 picometers (pm)
  • 1 Angstrom = 0.0001 micrometers (μm)
  • 10 Angstroms = 1 nanometer
  • 10 billion Angstroms = 1 meter

Special character note: The proper symbol is Å (capital A with a ring above), not simply "A". This distinguishes it from amperes (A) and other uses of the letter A in scientific notation.

Convert Angstroms to Other Units →

The Link, specifically Gunter's Link (symbol li), is a unit of length historically used in surveying, particularly within the imperial and U.S. customary systems. It is defined as exactly 1/100th of a Gunter's chain.

One Gunter's link is equivalent to:

  • 0.01 Gunter's chains
  • 7.92 inches (in)
  • 0.66 feet (ft) (exactly 2/3 of a foot)
  • 0.22 yards (yd)
  • 0.04 rods (also called poles or perches)
  • 0.201168 meters (m) (exactly)
  • 20.1168 centimeters (cm)

A Gunter's chain itself measures 66 feet, 22 yards, 4 rods, or 20.1168 meters.

Note: The Angstrom is part of the imperial/US customary system, primarily used in the US, UK, and Canada for everyday measurements. The Link (Gunter's) belongs to the imperial/US customary system.

History of the Angstrom and Link (Gunter's)

The Angstrom unit is named after the Swedish physicist Anders Jonas Ångström (1814–1874), one of the founders of the science of spectroscopy. Ångström made groundbreaking contributions to understanding electromagnetic radiation and atomic emission spectra.

In 1868, Ångström published a chart of the solar spectrum, expressing the wavelengths of electromagnetic radiation in sunlight as multiples of 10⁻¹⁰ meters. This scale proved extraordinarily convenient for expressing:

  • Atomic radii (typically 0.5-3 Å)
  • Chemical bond lengths (typically 1-2 Å)
  • Wavelengths of X-rays (1-10 Å)
  • Crystal lattice spacings (2-10 Å)

The Angstrom quickly became the standard unit in crystallography, chemistry, and atomic physics throughout the early 20th century. X-ray crystallography, developed by Max von Laue, William Henry Bragg, and William Lawrence Bragg in the 1910s, relied heavily on Angstrom measurements for determining crystal structures.

When the International System of Units (SI) was established in 1960, the Angstrom was officially deprecated in favor of:

  • Nanometer (nm) = 10⁻⁹ m (preferred for 0.1-100 nm scales)
  • Picometer (pm) = 10⁻¹² m (preferred for atomic-scale measurements)

Despite this official change, the Angstrom persists robustly in scientific literature for several reasons:

  • Historical data: Decades of crystallography and spectroscopy literature use Angstroms
  • Convenient scale: Atomic dimensions typically fall in the 0.5-5 Å range—easy to work with
  • Established conventions: Many scientific fields developed their nomenclature around Angstroms
  • Software and databases: Crystallographic databases (PDB, CIF) often default to Angstroms

Today, you will find Angstroms in:

  • Protein Data Bank (PDB) files for biomolecular structures
  • X-ray diffraction data and crystallographic information files (CIF)
  • Chemistry textbooks for bond lengths and atomic radii
  • Materials science publications for thin film thickness and surface studies

Learn More About Scientific Units →

The link, as part of Gunter's chain, was devised by the English clergyman and mathematician Edmund Gunter around 1620. He introduced a measuring chain that was 66 feet long and divided into 100 links. This system was revolutionary for surveyors because its decimal nature (100 links per chain) simplified calculations, especially for area. Land area could be easily calculated in square chains and then converted to acres, as 10 square chains equal exactly 1 acre. Gunter's chain and its links became the standard tools for land surveying in England and later throughout the British Empire and the United States for centuries.

Common Uses and Applications: angstroms vs links

Explore the typical applications for both Angstrom (imperial/US) and Link (Gunter's) (imperial/US) to understand their common contexts.

Common Uses for angstroms

1. Crystallography

Crystallographers use Angstroms as the standard unit for crystal structure determination via X-ray, neutron, or electron diffraction. The spacing between atomic planes (d-spacings) in crystals typically ranges from 1-10 Å, making the Angstrom the natural unit. Crystallographic Information Files (CIF) and crystallography software default to Angstrom units.

Convert Crystal Measurements →

2. Atomic and Molecular Physics

Physicists measuring atomic radii, ionic radii, and atomic orbital sizes use Angstroms because typical atomic dimensions fall in the 0.5-5 Å range. Quantum mechanics calculations often output electron densities and orbital sizes in Angstroms for convenient interpretation.

Convert Atomic Scales →

3. Chemistry and Bond Lengths

Chemists specify molecular structures with bond lengths in Angstroms. Chemical databases, molecular modeling software, and computational chemistry programs (like Gaussian, ORCA, and VASP) typically use Angstrom coordinates. This convention allows for easy comparison across decades of chemical literature.

Calculate Molecular Dimensions →

4. Structural Biology

Protein crystallography and cryo-electron microscopy (cryo-EM) express protein structures in Angstroms. The Protein Data Bank (PDB)—the worldwide repository of 3D biological macromolecular structures—uses Angstroms as the standard coordinate unit. Resolutions of protein structures are also reported in Angstroms (e.g., "2.5 Å resolution").

Convert Protein Measurements →

5. X-ray Spectroscopy

X-ray wavelengths naturally fall in the 0.1-100 Å range, making Angstroms the convenient unit for X-ray absorption spectroscopy (XAS), X-ray photoelectron spectroscopy (XPS), and synchrotron radiation experiments. Energy-dispersive X-ray spectroscopy (EDS) also references wavelengths in Angstroms.

Compare X-ray Wavelengths →

6. Thin Film Technology

Materials scientists characterize thin films, coatings, and surface layers in Angstroms, particularly for films thinner than 100 Å (10 nm). Atomic layer deposition (ALD), molecular beam epitaxy (MBE), and physical vapor deposition (PVD) processes often specify thicknesses in Angstroms for precision.

Calculate Film Thickness →

7. Surface Science

Surface scientists studying adsorption, catalysis, and surface reconstruction use Angstroms to measure adsorbate heights, surface step heights (typically 2-4 Å), and interlayer spacings. Scanning tunneling microscopy (STM) and atomic force microscopy (AFM) data are often expressed in Angstroms vertically.

Convert Surface Features →

When to Use links

The Gunter's link is now largely obsolete but was historically significant:

  • Land Surveying: It was the fundamental unit for measuring property boundaries and land parcels in English-speaking countries for over 300 years.
  • Cartography: Used in creating maps and plats based on surveys.
  • Land Records: Measurements in links (and chains) frequently appear in older property deeds, historical surveys, and legal descriptions of land. Understanding the link is crucial for interpreting these documents.
  • Agriculture: The system was tied to the definition of the acre, a common unit of land area.

Its use declined dramatically with the adoption of the metric system and the advent of more precise surveying technologies like steel tapes, theodolites, Electronic Distance Measurement (EDM), and GPS.

Additional Unit Information

About Angstrom (Å)

How many Angstroms are in a meter?

There are 10,000,000,000 (ten billion) Angstroms in one meter (1 m = 10¹⁰ Å). Conversely, 1 Angstrom = 10⁻¹⁰ meters.

To visualize this enormous number: if you lined up 10 billion atoms side by side (each about 1 Å in radius), they would span approximately 1 meter.

Examples:

  • 1 meter = 10,000,000,000 Å
  • 1 millimeter = 10,000,000 Å
  • 1 micrometer = 10,000 Å
  • 1 nanometer = 10 Å

Convert Angstroms to Meters →

How many Angstroms are in a nanometer?

There are exactly 10 Angstroms (Å) in one nanometer (nm). Therefore, 1 Å = 0.1 nm.

This 10:1 ratio makes conversions straightforward:

  • 1 nm = 10 Å
  • 5 nm = 50 Å
  • 0.5 nm = 5 Å
  • 0.15 nm = 1.5 Å

Memory trick: Think "A nanometer is 10 Angstroms" (the number 10 is hidden in "ten").

Convert Angstroms to Nanometers →

Is the Angstrom an SI unit?

No, the Angstrom is not part of the International System of Units (SI). The official SI unit for length at this scale is:

  • Nanometer (nm) = 10⁻⁹ m (for 0.1-1000 nm scales)
  • Picometer (pm) = 10⁻¹² m (for atomic-scale measurements)

Relationship: 1 Å = 0.1 nm = 100 pm

The SI system officially deprecated the Angstrom in 1960, but it remains widely used in crystallography, chemistry, and physics due to historical convention and its convenient scale for atomic dimensions.

Explore SI Length Units →

Why is the Angstrom still used if it is not an SI unit?

The Angstrom persists due to:

1. Historical Convention: Decades of scientific literature (1868-present) use Angstroms. Converting all historical data would be impractical.

2. Convenient Scale: Atomic radii typically range from 0.5-3 Å—easy whole numbers. In nanometers, these become 0.05-0.3 nm (more decimal places).

3. Established Databases: Major scientific databases default to Angstroms:

  • Protein Data Bank (PDB): all coordinates in Angstroms
  • Crystallographic Information Files (CIF): lattice parameters in Angstroms
  • Chemical structure databases: bond lengths in Angstroms

4. Software Defaults: Most crystallography and molecular modeling software uses Angstroms as the default unit.

5. Intuitive Communication: Saying "1.5 Angstroms" is often clearer than "150 picometers" or "0.15 nanometers" in research discussions.

What fields commonly use Angstroms?

The Angstrom remains common in:

Primary fields:

  • Crystallography: X-ray, neutron, and electron diffraction for crystal structure determination
  • Structural Biology: Protein and nucleic acid structure determination (PDB files)
  • Chemistry: Molecular geometry, bond lengths, and computational chemistry
  • Atomic Physics: Atomic radii, orbital sizes, and spectroscopy

Secondary fields:

  • Materials Science: Thin films, surface science, and nanostructures
  • Spectroscopy: X-ray wavelengths and absorption spectra
  • Microscopy: Electron microscopy and scanning probe microscopy
  • Semiconductor Physics: Historical or informal references to feature sizes

Compare Different Scientific Units →

How do you type the Angstrom symbol (Å)?

Typing the proper Angstrom symbol Å varies by platform:

Windows:

  • Hold Alt and type 0197 on numeric keypad: Å
  • Or use Character Map application

Mac:

  • Option + Shift + A: Å

Linux:

  • Compose key + A + A: Å
  • Or Ctrl + Shift + U, then type 00C5, then Enter

HTML/Web:

  • HTML entity: Å → Å
  • Unicode: Å → Å

LaTeX:

  • \AA or \r{A} → Å

Microsoft Word:

  • Insert → Symbol → select Å
  • Or AutoCorrect: type (A) and it may convert automatically

If the symbol is unavailable, write "Angstrom" or abbreviate as "Ang" in informal contexts.

What is the difference between Angstrom and picometer?

An Angstrom (Å) equals 10⁻¹⁰ meters, while a picometer (pm) equals 10⁻¹² meters. This means 1 Angstrom = 100 picometers.

Scale comparison:

  • Angstrom scale: atomic radii, bond lengths (0.5-5 Å = 50-500 pm)
  • Picometer scale: ultra-precise bond length measurements, nuclear radii

Examples:

  • Hydrogen atom radius: 0.53 Å = 53 pm
  • C-H bond length: 1.09 Å = 109 pm
  • C-C single bond: 1.54 Å = 154 pm

Usage differences:

  • Angstroms: Traditional in chemistry and crystallography (though not SI-compliant)
  • Picometers: Official SI unit, required by some journals and standards bodies

Many scientists prefer Angstroms for convenience (whole numbers), while formal SI publications require picometers or nanometers.

Convert Angstroms to Picometers →

How is Angstrom used in protein crystallography?

In protein crystallography, the Angstrom is the standard unit for:

1. Atomic Coordinates: PDB files list x, y, z coordinates of every atom in Angstroms.

2. Resolution: The quality of diffraction data is expressed in Angstroms:

  • High resolution: <1.5 Å (individual atoms clearly visible)
  • Medium resolution: 1.5-3.0 Å (backbone and side chains visible)
  • Low resolution: >3.0 Å (overall fold visible, details limited)

3. Bond Lengths: Standard bond lengths used for structure refinement:

  • C-C: 1.54 Å
  • C-N: 1.47 Å
  • C-O: 1.43 Å

4. Crystal Lattice: Unit cell dimensions (a, b, c axes) are given in Angstroms, typically 50-200 Å.

5. B-factors: Atomic displacement parameters are in Ų (square Angstroms).

Example: "The structure was solved at 2.1 Å resolution with unit cell dimensions a=62.3 Å, b=78.5 Å, c=91.2 Å."

Convert Crystallography Units →

Can I convert Angstroms to inches?

Yes, but it is extremely impractical. Angstroms measure atomic scales, while inches measure everyday objects—a difference of 10 billion!

Conversion: 1 Angstrom = 3.937 × 10⁻⁹ inches (about 0.000000004 inches)

Or inversely: 1 inch = 254,000,000 Å (254 million Angstroms)

Example: A carbon atom with radius 0.77 Å = 0.000000003 inches. This is why scientists use metric units—Angstroms, nanometers, and picometers are far more practical for atomic-scale work.

Convert Angstroms to Practical Units →

Why is it called Angstrom and not Ångström?

The English spelling "Angstrom" is a simplified version of the Swedish name "Ångström" to accommodate keyboards and alphabets without special characters.

Proper Swedish spelling: Anders Jonas Ångström (with the Swedish letter "Å")

Common variations:

  • Angstrom (English, without diacritics)
  • Ångström (Swedish/original spelling)
  • Ångstrom (mixed form)

All refer to the same unit and the same physicist. The symbol Å remains universal across languages, representing both the unit and the first letter of Ångström's name (with the ring above).

In scientific writing, either "Angstrom" or "Ångström" is acceptable, though the simplified "Angstrom" is more common in English-language publications.

About Link (Gunter's) (li)

How long is a Gunter's Link?

One Gunter's Link is equal to:

  • 7.92 inches
  • 0.66 feet (2/3 ft)
  • 0.201168 meters
  • 20.1168 centimeters

How many links are in a Gunter's chain?

There are exactly 100 links in one Gunter's chain.

How long is a Gunter's Chain?

One Gunter's chain is equal to:

  • 100 links
  • 66 feet
  • 22 yards
  • 4 rods (or poles, perches)
  • 1/10th of a furlong
  • 1/80th of a statute mile
  • 20.1168 meters

How does the link relate to the acre?

The link is directly related to the acre through the Gunter's chain. An acre is defined as 10 square chains. Since 1 chain = 100 links:

  • 1 acre = 10 × (100 links)² = 10 × 10,000 square links = 100,000 square links. This decimal relationship greatly simplified area calculations for surveyors using the chain.

Is the link an SI unit?

No, the Gunter's link is not an SI unit. It is part of the traditional imperial and U.S. customary systems. The corresponding SI unit for length is the meter (m).

Is the Gunter's link still used today?

No, the Gunter's link is rarely used in modern surveying practice. Its primary relevance today is in historical contexts, particularly when interpreting old land deeds, surveys, and maps created using Gunter's system. Modern surveying relies on meters or feet, measured with advanced electronic equipment.

Why was it called a 'link'?

It was called a 'link' because Gunter's chain was literally constructed from 100 physical metal links connected by rings. Each link served as a unit of measurement.

Conversion Table: Angstrom to Link (Gunter's)

Angstrom (Å)Link (Gunter's) (li)
0.50
10
1.50
20
50
100
250
500
1000
2500
5000
1,0000

People Also Ask

How do I convert Angstrom to Link (Gunter's)?

To convert Angstrom to Link (Gunter's), enter the value in Angstrom in the calculator above. The conversion will happen automatically. Use our free online converter for instant and accurate results. You can also visit our length converter page to convert between other units in this category.

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What is the conversion factor from Angstrom to Link (Gunter's)?

The conversion factor depends on the specific relationship between Angstrom and Link (Gunter's). You can find the exact conversion formula and factor on this page. Our calculator handles all calculations automatically. See the conversion table above for common values.

Can I convert Link (Gunter's) back to Angstrom?

Yes! You can easily convert Link (Gunter's) back to Angstrom by using the swap button (⇌) in the calculator above, or by visiting our Link (Gunter's) to Angstrom converter page. You can also explore other length conversions on our category page.

Learn more →

What are common uses for Angstrom and Link (Gunter's)?

Angstrom and Link (Gunter's) are both standard units used in length measurements. They are commonly used in various applications including engineering, construction, cooking, and scientific research. Browse our length converter for more conversion options.

For more length conversion questions, visit our FAQ page or explore our conversion guides.

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All Length Conversions

Meter to KilometerMeter to HectometerMeter to DecimeterMeter to CentimeterMeter to MillimeterMeter to InchMeter to FootMeter to YardMeter to MileMeter to Nautical MileMeter to MicrometerMeter to NanometerMeter to Light YearMeter to Astronomical UnitMeter to ParsecMeter to AngstromMeter to Point (Typography)Meter to Mil/ThouMeter to FathomMeter to FurlongMeter to Link (Gunter's)Meter to PaceMeter to SpanMeter to DigitMeter to Cable LengthMeter to EllMeter to FingerMeter to Roman MileMeter to StadionMeter to Chi (Chinese)Meter to Shaku (Japanese)Meter to Li (Chinese)Meter to ToiseMeter to BoltMeter to RopeMeter to SmootMeter to SajeneMeter to KenMeter to WaMeter to VaraMeter to AlnMeter to Cubit (Royal/Egyptian)Meter to VerstaMeter to ArpentMeter to Ri (Japanese)Meter to KlafterMeter to YojanaMeter to SkeinKilometer to MeterKilometer to HectometerKilometer to DecimeterKilometer to CentimeterKilometer to MillimeterKilometer to InchKilometer to FootKilometer to YardKilometer to MileKilometer to Nautical MileKilometer to MicrometerKilometer to NanometerKilometer to Light YearKilometer to Astronomical UnitKilometer to ParsecKilometer to AngstromKilometer to Point (Typography)Kilometer to Mil/ThouKilometer to FathomKilometer to FurlongKilometer to Link (Gunter's)Kilometer to PaceKilometer to SpanKilometer to DigitKilometer to Cable LengthKilometer to EllKilometer to FingerKilometer to Roman MileKilometer to StadionKilometer to Chi (Chinese)Kilometer to Shaku (Japanese)Kilometer to Li (Chinese)Kilometer to ToiseKilometer to BoltKilometer to RopeKilometer to SmootKilometer to SajeneKilometer to KenKilometer to WaKilometer to VaraKilometer to AlnKilometer to Cubit (Royal/Egyptian)Kilometer to VerstaKilometer to ArpentKilometer to Ri (Japanese)Kilometer to KlafterKilometer to YojanaKilometer to SkeinHectometer to MeterHectometer to KilometerHectometer to DecimeterHectometer to CentimeterHectometer to MillimeterHectometer to InchHectometer to FootHectometer to YardHectometer to MileHectometer to Nautical MileHectometer to MicrometerHectometer to NanometerHectometer to Light YearHectometer to Astronomical UnitHectometer to ParsecHectometer to AngstromHectometer to Point (Typography)Hectometer to Mil/ThouHectometer to FathomHectometer to FurlongHectometer to Link (Gunter's)Hectometer to PaceHectometer to SpanHectometer to Digit

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Verified Against Authority Standards

All conversion formulas have been verified against international standards and authoritative sources to ensure maximum accuracy and reliability.

NIST Guide for the Use of SI

National Institute of Standards and TechnologyOfficial US standards for length measurements

SI Brochure

Bureau International des Poids et MesuresInternational System of Units official documentation

Last verified: February 19, 2026