Orders of magnitude (length)

From HandWiki
(Redirected from Petametre)
Short description: Range of lengths from the subatomic to the astronomical scales


Graphical overview of sizes

The following are examples of orders of magnitude for different lengths.

Overview

Scale Range (m) Unit Example items
<
Subatomic 0 Gravitational singularity
10−36 10−33 P Fixed value (not a range). Quantum foam, string
10−18 10−15 am proton, neutron, pion
Atomic to cellular 10−15 10−12 fm Atomic nucleus
10−12 10−9 pm Wavelength of gamma rays and X-rays, hydrogen atom
10−9 10−6 nm DNA helix, virus, wavelength of optical spectrum, transistors used in CPUs
Cellular to human 10−6 10−3 μm Bacterium, fog water droplet, human hair's diameter[note 1]
10−3 1 mm Mosquito, golf ball, domestic cat, violin, football
Human to astronomical 1 103 m Piano, human, automobile, sperm whale, football field, Eiffel Tower
103 106 km Mount Everest, length of Panama Canal and Trans-Siberian Railway, larger asteroid
Astronomical 106 109 Mm The Moon, Earth, one light-second
109 1012 Gm Sun, one light-minute, Earth's orbit
1012 1015 Tm Orbits of outer planets, Solar System
1015 1018 Pm A light-year, the distance to Proxima Centauri
1018 1021 Em Galactic arm
1021 1024 Zm Milky Way, distance to Andromeda Galaxy
1024 1027 Ym Huge-LQG, Hercules–Corona Borealis Great Wall, Observable universe

Detailed list

To help compare different orders of magnitude, the following list describes various lengths between [math]\displaystyle{ 1.6 \times 10^{-35} }[/math] metres and [math]\displaystyle{ 10^{10^{10^{122}}} }[/math]metres.

Subatomic scale

Factor (m) Multiple Value Item
0 0 0 Singularity
10−35 1 Planck length 0.0000162 qm 
10−24 1 yoctometre (ym) 142 ym Effective cross section radius of 1 MeV neutrinos[1]
10−21 1 zeptometre (zm) Preons, hypothetical particles proposed as subcomponents of quarks and leptons; the upper bound for the width of a cosmic string in string theory
7 zm Effective cross section radius of high-energy neutrinos[2]
310 zm De Broglie wavelength of protons at the Large Hadron Collider (4 TeV (As of 2012))
10−18 1 attometre (am) Upper limit for the size of quarks and electrons
Sensitivity of the LIGO detector for gravitational waves[3]
Upper bound of the typical size range for "fundamental strings"[4]
10−17 10 am Range of the weak force
10−16 100 am 850 am Approximate proton radius[5]

Atomic to cellular scale

Factor (m) Multiple Value Item
10−15 1 femtometre (fm, fermi) 1 fm Approximate limit of the gluon-mediated color force between quarks[6][7]
1.5 fm Effective cross section radius of an 11 MeV proton[8]
2.81794 fm Classical electron radius[9]
3 fm Approximate limit of the meson-mediated nuclear binding force[6][7]
1.75 to 15 fm Diameter range of the atomic nucleus[4][10]
10−12 1 picometre (pm) 0.75 to 0.8225 pm Longest wavelength of gamma rays
1 pm Distance between atomic nuclei in a white dwarf
2.4 pm Compton wavelength of electron
5 pm Wavelength of shortest X-rays
10−11 10 pm
28 pm Radius of helium atom
53 pm Bohr radius (radius of a hydrogen atom)
10−10 100 pm 100 pm 1 ångström (also covalent radius of sulfur atom[11])
154 pm Length of a typical covalent bond (C–C)
280 pm Average size of the water molecule (actual lengths may vary)
500 pm Width of protein α helix
10−9 1 nanometre (nm) 1 nm Diameter of a carbon nanotube[12] Diameter of smallest transistor gate (as of 2016)[13]
2 nm Diameter of the DNA helix[14]
2.5 nm Smallest microprocessor transistor gate oxide thickness ((As of January 2007))[citation needed]
3.4 nm Length of a DNA turn (10 bp)[15]
6–10 nm Thickness of cell membrane
10−8 10 nm 10 nm Thickness of cell wall in Gram-negative bacteria[citation needed]
10 nm (As of 2016), the 10 nanometre was the smallest semiconductor device fabrication node[16]
40 nm Extreme ultraviolet wavelength
50 nm Flying height of the head of a hard disk[17]
10−7 100 nm 121.6 nm Wavelength of the Lyman-alpha line[18]
120 nm Typical diameter of the human immunodeficiency virus (HIV)[19]
400–700 nm Approximate wavelength range of visible light[20]

Cellular to human scale

Factor (m) Multiple Value Item
10−6 1 micrometre (μm)

(also called 1 micron)

1–4 μm Typical length of a bacterium[21]
4 μm Typical diameter of spider silk[22]
7 μm Typical size of a red blood cell[23]
10−5 10 μm 10 μm Typical size of a fog, mist, or cloud water droplet
10 μm Width of transistors in the Intel 4004, the world's first commercial microprocessor
12 μm Width of acrylic fiber
17-181 μm Width range of human hair[24]
10−4 100 μm 340 μm Size of a pixel on a 17-inch monitor with a resolution of 1024×768
560 μm Thickness of the central area of a human cornea[25]
750 μm Maximum diameter of Thiomargarita namibiensis, the largest bacterium ever discovered ((As of 2010))
10−3 1 millimetre (mm) ~5 mm Length of an average flea is 1–10 mm (usually <5 mm)[26]
2.54 mm One-tenth inch; distance between pins in DIP (dual-inline-package) electronic components
5.70 mm Diameter of the projectile in 5.56×45mm NATO ammunition
10−2 1 centimetre (cm) 20 mm Approximate width of an adult human finger
54 mm × 86 mm Dimensions of a credit card, according to the ISO/IEC 7810 ID-1 standard
73–75 mm Diameter of a baseball, according to Major League Baseball guidelines[27]
10−1 1 decimetre (dm) 120 mm Diameter of a compact disc
660 mm Length of the longest pine cones, produced by the sugar pine[28]
900 mm Average length of a rapier, a fencing sword[29]

Human to astronomical scale

Factor (m) Multiple Value Item
1 (100) 1 metre (m) 1 m (exactly) Since 2019, defined as the length of the path travelled by light in a vacuum during a time interval of 1/299,792,458 of a second, where the second is defined by a hyperfine transition frequency of caesium.
2.72 m Height of Robert Wadlow, tallest-known human.[30]
8.38 m Length of a London bus (AEC Routemaster)
101 1 decametre (dam) 33 m Length of the longest-known blue whale[31]
52 m Height of the Niagara Falls[32]
93.47 m Height of the Statue of Liberty
102 1 hectometre (hm) 105 m Length of a typical football field
137 m (147 m) Height (present and original) of the Great Pyramid of Giza
300 m Height of the Eiffel Tower, one of the famous monuments of Paris
979 m Height of the Salto Angel, the world's highest free-falling waterfall (Venezuela)
103 1 kilometre (km) 2.3 km Length of the Three Gorges Dam, the largest dam in the world[33][34]
3.1 km Narrowest width of the Strait of Messina, separating Italy and Sicily
8.848 km Height of Mount Everest, the highest mountain on Earth
104 10 km 10.9 km Depth of the Challenger Deep in the Mariana Trench, the deepest-known point on Earth's surface
27 km Circumference of the Large Hadron Collider, (As of May 2010) the largest and highest energy particle accelerator
42.195 km Length of a marathon
105 100 km 100 km The distance the IAU considers to be the limit to space, called the Karman line
163 km Length of the Suez Canal, connecting the Mediterranean Sea to the Red Sea
491 km Length of the Pyrenees, the mountain range separating Spain and France
974.6 km Greatest diameter of the dwarf planet Ceres.[35]
106 1 megametre (Mm) 2.38 Mm Diameter of dwarf planet Pluto, formerly the smallest planet category[note 2] in the Solar System
3.48 Mm Diameter of the Moon
5.2 Mm Typical distance covered by the winner of the 24 Hours of Le Mans automobile endurance race
6.371 Mm Average radius of Earth
6.378 Mm Equatorial radius of Earth
6.4 Mm Length of the Great Wall of China
6.6 Mm Approximate length of the two longest rivers, the Nile and the Amazon
7.821 Mm Length of the Trans-Canada Highway
9.288 Mm Length of the Trans-Siberian Railway, longest in the world

Astronomical scale

Factor (m) Multiple Value Item
107 10 Mm 12.756 Mm Equatorial diameter of Earth
20.004 Mm Length of a meridian on Earth (distance between Earth's poles along the surface)[36]
40.075 Mm Length of Earth's equator
108 100 Mm 142.984 Mm Diameter of Jupiter
299.792 Mm Distance traveled by light in vacuum in one second (a light-second, exactly 299,792,458 m by definition of the speed of light)
384.4 Mm Moon's orbital distance from Earth
109 1 gigametre (Gm) 1.39 Gm Diameter of the Sun
5.15 Gm Greatest mileage ever recorded by a car (3.2 million miles by a 1966 Volvo P-1800S)[37]
1010 10 Gm 18 Gm Approximately one light-minute
1011 100 Gm 150 Gm 1 astronomical unit (au); mean distance between Earth and Sun
1012 1 terametre (Tm) 1.3 Tm Optical diameter of Betelgeuse
1.4 Tm Orbital distance of Saturn from Sun
2 Tm Estimated optical diameter of VY Canis Majoris, one of the largest-known stars
5.9 Tm Orbital distance of Pluto from the Sun
~ 7.5 Tm Outer boundary of the Kuiper belt
1013 10 Tm Diameter of the Solar System as a whole[4]
21.49 Tm Distance of the Voyager 1 spacecraft from Sun ((As of 2018)), the farthest man-made object so far[38]
62.03 Tm Estimated radius of the event horizon of the supermassive black hole in NGC 4889, the largest-known black hole to date
1014 100 Tm 180 Tm Size of the debris disk around the star 51 Pegasi[39]
200 Tm Total length of DNA molecules in all cells of an adult human body[citation needed]
1015 1 petametre (Pm) ~7.5 Pm Supposed outer boundary of the Oort cloud (~ 50,000 au)
9.461 Pm Distance traveled by light in vacuum in one year; at its current speed, Voyager 1 would need 17,500 years to travel this distance
1016 10 Pm 30.857 Pm 1 parsec
39.9 Pm Distance to nearest star (Proxima Centauri)
41.3 Pm As of March 2013, distance to nearest discovered extrasolar planet (Alpha Centauri Bc)
1017 100 Pm 193 Pm As of October 2010, distance to nearest discovered extrasolar planet with potential to support life as presently defined by science (Gliese 581 d)
615 Pm Approximate radius of humanity's radio bubble, caused by high-power TV broadcasts leaking through the atmosphere into outer space
1018 1 exametre (Em) 1.9 Em Distance to nearby solar twin (HIP 56948), a star with properties virtually identical to the Sun[40]
1019 10 Em 9.46 Em
1020 100 Em 113.5 Em Thickness of Milky Way Galaxy's gaseous disk[41]
1021 1 zettametre (Zm)
1.54 Zm Distance to SN 1987A, the most recent naked eye supernova
1.62 Zm Distance to the Large Magellanic Cloud (a dwarf galaxy orbiting the Milky Way)
1.66 Zm Distance to the Small Magellanic Cloud (another dwarf galaxy orbiting the Milky Way)
1.9 Zm Diameter of galactic disk of Milky Way Galaxy[42][43][44][45]
6.15 Zm Diameter of the low surface brightness disc halo of the giant spiral galaxy Malin 1
1022 10 Zm 13.25 Zm Radius of the diffuse stellar halo of IC 1101, one of the largest-known galaxies
24 Zm Distance to Andromeda Galaxy
30.857 Zm 1 megaparsec
50 Zm Diameter of Local Group of galaxies
1023 100 Zm 300–600 Zm Distance to Virgo cluster of galaxies
1024 1 yottametre (Ym) 2.19 Ym Diameter of the Local Supercluster and the largest voids and filaments
2.8 Ym End of Greatness
~5 Ym Diameter of the Horologium Supercluster[46]
9.461 Ym Diameter of the Pisces–Cetus Supercluster Complex, the supercluster complex which includes Earth
1025 10 Ym 13 Ym Length of the Sloan Great Wall, a giant wall of galaxies (galactic filament)[47]
30.857 Ym 1 gigaparsec
37.84 Ym Length of the Huge-LQG, a group of 73 quasars
1026 100 Ym 95 Ym Estimated light travel distance to certain quasars. Length of the Hercules–Corona Borealis Great Wall, a colossal wall of galaxies, the largest and the most massive structure in the observable universe as of 2014
127 Ym Estimated light travel distance to GN-z11, the most distant object ever observed
870 Ym Approximate diameter (comoving distance) of the visible universe[4]
1027 1 Rm 1.2 Rm Lower bound of the (possibly infinite) radius of the universe, if it is a 3-sphere, according to one estimate using the WMAP data at 95% confidence[48] It equivalently implies that there are at minimum 21 particle horizon-sized volumes in the universe.
[math]\displaystyle{ 10^{10^{115}} }[/math][note 3] [math]\displaystyle{ 10^{10^{115}} }[/math] m [math]\displaystyle{ 10^{10^{115}} }[/math] m According to the laws of probability, the distance one must travel until one encounters a volume of space identical to our observable universe with conditions identical to our own.[49][50]
[math]\displaystyle{ 10^{10^{10^{122}}} }[/math] [math]\displaystyle{ 10^{10^{10^{122}}} }[/math] m [math]\displaystyle{ 10^{10^{10^{122}}} }[/math] m Minimal size of universe after cosmological inflation, implied by one resolution of the No-Boundary Proposal[51]

1 quectometre and less

The quectometre (SI symbol: qm) is a unit of length in the metric system equal to 10−30 metres. To help compare different orders of magnitude, this section lists lengths shorter than 10−30 m (1 qm).

  • 1.6 × 10−5 quectometres (1.6 × 10−35 metres) – the Planck length (Measures of distance shorter than this do not make physical sense, according to current theories of physics.)
  • 1 qm – 1 quectometre, the smallest named subdivision of the metre in the SI base unit of length, one nonillionth of a metre.[52]

1 rontometre

The rontometre (SI symbol: rm) is a unit of length in the metric system equal to 10−27 metres.

  • 1 rm – 1 rontometre, a subdivision of the metre in the SI base unit of length, one octillionth of a metre.[52]

10 rontometres

1 yoctometre

The yoctometre (SI symbol: ym) is a unit of length in the metric system equal to 10−24 metres.

1 zeptometre

The zeptometre (SI symbol: zm) is a unit of length in the metric system equal to 10−21 metres. To help compare different orders of magnitude, this section lists lengths between 10−21 m and 10−20 m (1 zm and 10 zm).

10 zeptometres

To help compare different orders of magnitude, this section lists lengths between 10−20 m and 10−19 m (10 zm and 100 zm).

100 zeptometres

To help compare different orders of magnitude, this section lists lengths between 10−19 m and 10−18 m (100 zm and 1 am).

1 attometre

The attometre (SI symbol: am) is a unit of length in the metric system equal to 10−18 metres. To help compare different orders of magnitude, this section lists lengths between 10−18 m and 10−17 m (1 am and 10 am).

10 attometres

To help compare different orders of magnitude, this section lists lengths between 10−17 m and 10−16 m (10 am and 100 am).

100 attometres

To help compare different orders of magnitude, this section lists lengths between 10−16 m and 10−15 m (100 am and 1 fm).

1 femtometre (or 1 fermi)

The femtometre (SI symbol: fm) is a unit of length in the metric system equal to 10−15 metres. In particle physics, this unit is sometimes called a fermi, also with abbreviation "fm". To help compare different orders of magnitude, this section lists lengths between 10−15 metres and 10−14 metres (1 femtometre and 10 fm).

10 femtometres

To help compare different orders of magnitude, this section lists lengths between 10−14 m and 10−13 m (10 fm and 100 fm).

100 femtometres

To help compare different orders of magnitude, this section lists lengths between 10−13 m and 10−12 m (100 fm and 1 pm).

  • 570 fm – typical distance from the atomic nucleus of the two innermost electrons (electrons in the 1s shell) in the uranium atom, the heaviest naturally-occurring atom

1 picometre

The picometre (SI symbol: pm) is a unit of length in the metric system equal to 10−12 metres (1/1000000000000 m = 0.000000000001 m). To help compare different orders of magnitude this section lists lengths between 10−12 and 10−11 m (1 pm and 10 pm).

10 picometres

To help compare different orders of magnitude this section lists lengths between 10−11 and 10−10 m (10 pm and 100 pm).

  • 25 pm – approximate radius of a helium atom, the smallest neutral atom
  • 30.8568 pm – 1 rontoparsec
  • 50 pm – radius of a hydrogen atom
  • 50 pm – bohr radius: approximate radius of a hydrogen atom
  • ~50 pm – best resolution of a high-resolution transmission electron microscope
  • 60 pm – radius of a carbon atom
  • 93 pm – length of a diatomic carbon molecule
  • 96 pm – H–O bond length in a water molecule

100 picometres

To help compare different orders of magnitude this section lists lengths between 10−10 and 10−9 m (100 pm and 1 nm; 1 Å and 10 Å).

1 nanometre

The nanometre (SI symbol: nm) is a unit of length in the metric system equal to 10−9 metres (1/1000000000 m = 0.000000001 m). To help compare different orders of magnitude, this section lists lengths between 10−9 and 10−8 m (1 nm and 10 nm).

10 nanometres

To help compare different orders of magnitude this section lists lengths between 10−8 and 10−7 m (10 nm and 100 nm).

100 nanometres

Comparison of sizes of semiconductor manufacturing process nodes with some microscopic objects and visible light wavelengths. At this scale, the width of a human hair is about 10 times that of the image.[62]

To help compare different orders of magnitude, this section lists lengths between 10−7 and 10−6 m (100 nm and 1 μm).

  • 100 nm – greatest particle size that can fit through a surgical mask[63]
  • 100 nm – 90% of particles in wood smoke are smaller than this.[citation needed]
  • 120 nm – greatest particle size that can fit through a ULPA filter[citation needed]
  • 120 nm – diameter of a human immunodeficiency virus (HIV)[64]
  • 120 nm – approximate diameter of SARS-CoV-2[65]
  • 125 nm – standard depth of pits on compact discs (width: 500 nm, length: 850 nm to 3.5 μm)
  • 180 nm – typical length of the rabies virus
  • 200 nm – typical size of a Mycoplasma bacterium, among the smallest bacteria
  • 300–400 nm – near ultraviolet wavelength
  • 300 nm – greatest particle size that can fit through a HEPA (high efficiency particulate air) filter (N100 removes up to 99.97% at 0.3 micrometres, N95 removes up to 95% at 0.3 micrometres)[citation needed]
  • 400–420 nm – wavelength of violet light (see Color and Visible spectrum)
  • 420–440 nm – wavelength of indigo light
  • 440–500 nm – wavelength of blue light
  • 500–520 nm – wavelength of cyan light
  • 520–565 nm – wavelength of green light
  • 565–590 nm – wavelength of yellow light
  • 590–625 nm – wavelength of orange light
  • 625–700 nm – wavelength of red light
  • 700–1.4 μm – wavelength of near-infrared radiation

1 micrometre (or 1 micron)

The silk for a spider's web is 5–7 μm (0.00020–0.00028 in) wide

The micrometre (SI symbol: μm) is a unit of length in the metric system equal to 10−6 metres (1/1000000 m = 0.000001 m). To help compare different orders of magnitude, this section lists some items with lengths between 10−6 and 10−5 m (between 1 and 10 micrometres, or μm).

10 micrometres

Fog particles are around 10–50 μm (0.00039–0.00197 in) long.

To help compare different orders of magnitude, this section lists lengths between 10−5 m and 10−4 m (10 μm and 100 μm).

  • 10 μm – width of cotton fibre[74]
  • 10 μm – tolerance of a Lego brick[75]
  • 10 μm – transistor width of the Intel 4004, the world's first commercial microprocessor
  • 10 μm – mean longest dimension of a human red blood cell[citation needed]
  • 5–20 μm – dust mite excreta[76]
  • 10.6 μm – wavelength of light emitted by a carbon dioxide laser
  • 15 μm – width of silk fibre[citation needed]
  • 17 μm – minimum width of a strand of human hair[24]
  • 17.6 μm – one twip, a unit of length in typography
  • 10 to 55 μm – width of wool fibre[74]
  • 25.4 μm – 1/1,000 inch, commonly referred to as 1 mil in the U.S. and 1 thou in the UK
  • 30 μm – length of a human skin cell
  • 30.8568 μm – 1 zeptoparsec
  • 50 μm – typical length of Euglena gracilis, a flagellate protist[citation needed]
  • 50 μm – typical length of a human liver cell, an average-sized body cell[citation needed]
  • 50 μm – length of a silt particle
  • 60 μm – length of a sperm cell
  • 70 to 180 μm – thickness of paper

100 micrometres

A paramecium is around 300 μm (0.012 in) long.

To help compare different orders of magnitude, this section lists lengths between 10−4 m and 10−3 m (100 μm and 1 mm). The term myriometre (abbr. mom, equivalent to 100 micrometres; frequently confused with the myriametre, 10 kilometres)[77] is deprecated; the decimal metric prefix myrio-[78] is obsolete[79][80][81] and was not included among the prefixes when the International System of Units was introduced in 1960.

  • 100 μm – 1/10 of a millimetre
  • 100 μm – 0.00394 inches
  • 100 μm – smallest distance that can be seen with the naked eye
  • 100 μm – average diameter of a strand of human hair[24]
  • 100 μm – thickness of a coat of paint
  • 100 μm – length of a dust particle
  • 120 μm – the geometric mean of the Planck length and the diameter of the observable universe: 8.8 × 1026 m × 1.6 × 10−35 m
  • 120 μm – diameter of a human ovum
  • 170 μm – length of the largest sperm cell in nature, belonging to the Drosophila bifurca fruit fly[82][83]
  • 181 μm – maximum width of a strand of human hair[24]
  • 100–400 μm – length of Demodex mites living in human hair follicles
  • 175–200 μm – typical thickness of a solar cell.
  • 200 μm – typical length of Paramecium caudatum, a ciliate protist
  • 200 μm – nominal width of the smallest commonly available mechanical pencil lead (0.2 mm)
  • 250–300 μm – length of a dust mite[84]
  • 340 μm – length of a pixel on a 17-inch monitor with a resolution of 1024×768
  • 500 μm – typical length of Amoeba proteus, an amoeboid protist
  • 500 μm – average length of a grain of sand
  • 500 μm – average length of a grain of salt
  • 500 μm – average length of a grain of sugar
  • 560 μm – thickness of the central area of a human cornea[25]
  • 750 μm – diameter of a Thiomargarita namibiensis, the largest bacteria known[85]
  • 760 μm – thickness of an identification card

1 millimetre

An average red ant is about 5 mm (0.20 in) long.

The millimetre (SI symbol: mm) is a unit of length in the metric system equal to 10−3 metres (1/1000 m = 0.001 m). To help compare different orders of magnitude, this section lists lengths between 10−3 m and 10−2 m (1 mm and 1 cm).

  • 1.0 mm – 1/1,000 of a metre
  • 1.0 mm – 0.03937 inches or 5/127 (exactly)
  • 1.0 mm – side of a square of area 1 mm²
  • 1.0 mm – diameter of a pinhead
  • 1.5 mm – average length of a flea[26]
  • 2.54 mm – distance between pins on old dual in-line package (DIP) electronic components
  • 5 mm – length of an average red ant
  • 5 mm – diameter of an average grain of rice
  • 5.56×45mm NATO – standard ammunition size
  • 6 mm – approximate width of a pencil
  • 7 mm – length of a Paedophryne amauensis, the smallest-known vertebrate[86]
  • 7.1 mm – length of a sunflower seed
  • 7.62×51mm NATO – common military ammunition size[87]
  • 8 mm – width of old-format home movie film
  • 8 mm – length of a Paedocypris progenetica, the smallest-known fish[88]

1 centimetre

An average human fingernail is 1 cm (0.39 in) wide

The centimetre (SI symbol: cm) is a unit of length in the metric system equal to 10−2 metres (1/100 m = 0.01 m). To help compare different orders of magnitude, this section lists lengths between 10−2 m and 10−1 m (1 cm and 1 dm).

  • 1 cm – 10 millimetres
  • 1 cm – 0.39 inches
  • 1 cm – edge of a square of area 1 cm2
  • 1 cm – edge of a cube of volume 1 mL
  • 1 cm – length of a coffee bean
  • 1 cm – approximate width of average fingernail
  • 1.2 cm – length of a bee
  • 1.2 cm – diameter of a die
  • 1.5 cm – length of a very large mosquito
  • 1.6 cm – length of a Jaragua Sphaero, a very small reptile
  • 1.7 cm – length of a Thorius arboreus, the smallest salamander[89]
  • 2 cm – approximate width of an adult human finger
  • 2.54 cm – 1 inch
  • 3.08568 cm – 1 attoparsec
  • 3.4 cm – length of a quail egg[90]
  • 3.5 cm – width of film commonly used in motion pictures and still photography
  • 3.78 cm – amount of distance the Moon moves away from Earth each year[91]
  • 4.3 cm – minimum diameter of a golf ball[92]
  • 5 cm – usual diameter of a chicken egg
  • 5 cm – height of a hummingbird, the smallest-known bird
  • 5.08 cm – 2 inches,
  • 5.5 × 5.5 × 5.5 cm – dimensions of a 3x3x3 Rubik's cube
  • 6.1 cm – average height of an apple
  • 7.3–7.5 cm – diameter of a baseball[27]
  • 8.6 cm × 5.4 cm – dimensions of a standard credit card[citation needed]
  • 9 cm – length of a speckled padloper, the smallest-known turtle

1 decimetre

An adult human foot is about 28 cm (11 in) long.

The decimetre (SI symbol: dm) is a unit of length in the metric system equal to 10−1 metres (1/10 m = 0.1 m). To help compare different orders of magnitude, this section lists lengths between 10 centimetres and 100 centimetres (10−1 metre and 1 metre).

Conversions

10 centimetres (abbreviated to 10 cm) is equal to:

  • 1 decimetre (dm), a term not in common use (1 L = 1 dm3.)
  • 100 millimetres
  • 3.9 inches
  • a side of a square of area 0.01 m2
  • the edge of a cube with a volume of 1×10−3 m3 (1 L)

Wavelengths

  • 10 cm = 1.0 dm – wavelength of the highest UHF radio frequency, 3 GHz
  • 12 cm = 1.2 dm – wavelength of the 2.45 GHz ISM radio band
  • 21 cm = 2.1 dm – wavelength of the 1.4 GHz hydrogen emission line, a hyperfine transition of the hydrogen atom
  • 100 cm = 10 dm – wavelength of the lowest UHF radio frequency, 300 MHz

Human-defined scales and structures

  • 10.16 cm = 1.016 dm – 1 hand used in measuring height of horses (4 inches)
  • 12 cm = 1.2 dm – diameter of a compact disc (CD) (= 120 mm)
  • 15 cm = 1.5 dm – length of a Bic pen with cap on
  • 22 cm = 2.2 dm – diameter of a typical association football (soccer ball)
  • 30 cm = 3 dm – typical school-use ruler length (= 300 mm)
  • 30.48 cm = 3.048 dm – 1 foot (measure)
  • 60 cm = 6 dm – standard depth (front to back) of a domestic kitchen worktop in Europe (= 600 mm)
  • 90 cm = 9 dm – average length of a rapier, a fencing sword[29]
  • 91.44 cm = 9.144 dm – one yard (measure)

Nature

  • 10 cm = 1 dm – diameter of the human cervix upon entering the second stage of labour
  • 11 cm = 1.1 dm – diameter of an average potato in the US
  • 13 cm = 1.3 dm – body length of a Goliath birdeater
  • 15 cm = 1.5 dm – approximate size of largest beetle species
  • 19 cm = 1.9 dm – length of a banana
  • 26.3 cm = 2.6 dm – length of average male human foot
  • 29.98 cm = 2.998 dm – distance light in vacuum travels in one nanosecond
  • 30 cm = 3.0 dm – maximum leg length of a Goliath birdeater
  • 31 cm = 3.1 dm – wingspan of largest butterfly species Ornithoptera alexandrae
  • 46 cm = 4.6 dm – length of an average domestic cat
  • 50 to 65 cm = 5–6.5 dm – a coati's tail
  • 66 cm = 6.6 dm – length of the longest pine cones (produced by the sugar pine[93])

Astronomical

  • 84 cm = 8.4 dm – approximate diameter of 2008 TS26, a meteoroid

1 metre

Leonardo da Vinci drew the Vitruvian Man within a square of side 1.83 m (6 ft 0 in) and a circle about 1.2 m (3 ft 11 in) in radius

To help compare different orders of magnitude, this section lists lengths between one metre and ten metres. Light, in vacuum, travels 1 metre in ​1299,792,458, or 3.3356409519815E-9 of a second.

Conversions

1 metre is:

Human-defined scales and structures

  • 1 m – approximate height of the top part of a doorknob on a door
  • 1 m – diameter of a very large beach ball
  • 1.435 m – standard gauge of railway track used by about 60% of railways in the world = 4 ft 8​12 in
  • 2.5 m – distance from the floor to the ceiling in an average residential house[94]
  • 2.7 m – length of the Starr Bumble Bee II, the smallest plane
  • 2.77–3.44 m – wavelength of the broadcast radio FM band 87–108 MHz
  • 3.05 m – the length of an old Mini
  • 8.38 m – the length of a London Bus (AEC Routemaster)

Sports

  • 2.44 m – height of an association football goal[95]
  • 2.45 m – highest high jump by a human (Javier Sotomayor)[96]
  • 3.05 m – (10 feet) height of the basket in basketball
  • 8.95 m – longest long jump by a human (Mike Powell)[97]

Nature

  • 1 m – height of Homo floresiensis (the "Hobbit")
  • 1.15 m – a pizote (mammal)
  • 1.63 m – (5 feet 4 inches) (or 64 inches) – height of average U.S. female human (As of 2002) (source: U.S. Centers for Disease Control and Prevention (CDC))
  • 1.75 m – (5 feet 8 inches) – height of average U.S. male human (As of 2002) (source: U.S. CDC as per female above)
  • 2.5 m – height of a sunflower
  • 2.72 m – (8 feet 11 inches) – tallest-known human (Robert Wadlow)[30]
  • 3.63 m – the record wingspan for living birds (a wandering albatross)
  • 5 m – length of an elephant
  • 5.2 m – height of a giraffe[98]
  • 5.5 m – height of a Baluchitherium, the largest land mammal ever lived
  • 6.5 m – wingspan of Argentavis, the largest flying bird known
  • 7.4 m – wingspan of Pelagornis, the bird with longest wingspan ever.[99]
  • 7.5 m – approximate length of the human gastrointestinal tract

Astronomical

  • 3–6 m – approximate diameter of 2003 SQ222, a meteoroid
  • 4.1 m – diameter of 2008 TC3, a small asteroid that flew into the Earth's atmosphere on 7 October 2008[100]

1 decametre

A blue whale has been measured as 33 m (108 ft) long; this drawing compares its length to that of a human diver and a dolphin.

The decametre (SI symbol: dam) is a unit of length in the metric system equal to 10 metres (101 m). To help compare different orders of magnitude, this section lists lengths between 10 and 100 metres.

Conversions

10 metres (very rarely termed a decametre which is abbreviated as dam) is equal to:

Human-defined scales and structures

  • 10 metres – wavelength of the highest shortwave radio frequency, 30 MHz
  • 23 metres – height of Luxor Obelisk, located in the Place de la Concorde, Paris, France
  • 25 metres – wavelength of the broadcast radio shortwave band at 12 MHz
  • 29 metres – height of the lighthouse at Savudrija, Croatia
  • 31 metres – wavelength of the broadcast radio shortwave band at 9.7 MHz
  • 32 metres - length of one arcsecond of latitude on the surface of the Earth
  • 34 metres – height of the Split Point Lighthouse in Aireys Inlet, Victoria, Australia
  • 40 metres – average depth beneath the seabed of the Channel tunnel
  • 49 metres – wavelength of the broadcast radio shortwave band at 6.1 MHz
  • 50 metres – length of a road train
  • 55 metres – height of the Leaning Tower of Pisa
  • 62.5 metres – height of Pyramid of Djoser
  • 64 metres – wingspan of a Boeing 747-400
  • 69 metres – wingspan of an Antonov An-124 Ruslan
  • 70 metres – length of the Bayeux Tapestry
  • 70 metres – width of a typical association football field
  • 77 metres – wingspan of a Boeing 747-8
  • 88.4 metres – wingspan of an Antonov An-225 Mriya transport aircraft
  • 93 metres – height of the Statue of Liberty
  • 96 metres – height of Big Ben
  • 100 metres – wavelength of the lowest shortwave radio frequency, 3 MHz

Sports

  • 11 metres – approximate width of a doubles tennis court
  • 15 metres – width of a standard FIBA basketball court
  • 15.24 metres – width of an NBA]basketball court (50 feet)
  • 18.44 metres – distance between the front of the pitcher's rubber and the rear point of home plate on a baseball field (60 feet, 6 inches)[101]
  • 20 metres – length of cricket pitch (22 yards)[102]
  • 27.43 metres – distance between bases on a baseball field (90 feet)
  • 28 metres – length of a standard FIBA basketball court
  • 28.65 metres – length of an NBA basketball court (94 feet)
  • 49 metres – width of an American football field (53​13 yards)
  • 59.436 metres – width of a Canadian football field (65 yards)
  • 70 metres – typical width of an association football field
  • 91 metres – length of an American football field (100 yards, measured between the goal lines)

Nature

  • 10 metres – average length of human digestive tract[citation needed]
  • 12 metres – length of a whale shark, largest living fish
  • 12 metres – wingspan of a Quetzalcoatlus, a pterosaur
  • 13 metres – length of a giant squid and colossal squid, the largest living invertebrates
  • 15 metres – approximate distance the tropical circles of latitude are moving towards the equator and the polar circles are moving towards the poles each year due to a natural, gradual decrease in the Earth's axial tilt
  • 18 metres – height of a Sauroposeidon, the tallest-known dinosaur
  • 20 metres – length of a Leedsichthys, the largest-known fish to have lived
  • 21 metres – height of High Force waterfall in England
  • 33 metres – length of a blue whale,[103] the largest animal on earth, living or extinct, in terms of mass
  • 39 metres – length of a Supersaurus, the longest-known dinosaur and longest vertebrate[104]
  • 52 metres – height of Niagara Falls[32]
  • 55 metres – length of a bootlace worm, the longest-known animal[105]
  • 66 metres - highest possible sea level rise due to a complete melting of all ice on Earth
  • 83 metres – height of a Western hemlock

Astronomical

  • 30 metres – diameter of 1998 KY26, a rapidly spinning meteoroid
  • 30.8568 metres – 1 femtoparsec
  • 32 metres – approximate diameter of 2008 HJ, a small meteoroid

1 hectometre

The Great Pyramid of Giza is 138.8 m (455 ft) high.
British driver location sign and location marker post on the M27 in Hampshire. The location marker posts are installed at 100-metre intervals.[106]

The hectometre (SI symbol: hm) is a unit of length in the metric system equal to 100 metres (102 m). To compare different orders of magnitude this section lists lengths between 100 metres and 1,000 metres (1 kilometre).

Conversions

100 metres (sometimes termed a hectometre) is equal to:

  • 328 feet
  • one side of a 1 hectare square
  • a fifth of a modern li, a Chinese unit of measurement
  • the approximate distance travelled by light in 300 nanoseconds

Human-defined scales and structures

  • 100 metres – wavelength of the highest medium wave radio frequency, 3 MHz
  • 100 metres – spacing of location marker posts on British motorways
  • 138.8 metres – height of the Great Pyramid of Giza (Pyramid of Cheops)
  • 139 metres – height of the world's tallest roller coaster, Kingda Ka[107]
  • 169 metres - height of the Washington Monument
  • 187 metres – shortest wavelength of the broadcast radio AM band, 1600 kHz
  • 192 metres - height of the Gateway Arch
  • 202 metres – length of the Széchenyi Chain Bridge connecting Buda and Pest
  • 270 metres - length of the Titanic
  • 318 metres – height of The New York Times Building
  • 318.9 metres – height of the Chrysler Building
  • 328 metres – height of Auckland's Sky Tower, the tallest free-standing structure in the Southern Hemisphere[when?]
  • 330 metres – height of the Eiffel Tower (including antenna)[108]
  • 341 metres – height of the world's tallest bridge, the Millau Viaduct[when?]
  • 390 metres – height of the Empire State Building
  • 400–800 metres – heights of the world's tallest skyscrapers of the past 80 years[when?]
  • 458 metres – length of the Knock Nevis, the world's largest supertanker
  • 553.33 metres – height of the CN Tower[109]
  • 555 metres – longest wavelength of the broadcast radio AM band, 540 kHz
  • 630 metres – height of the KVLY-TV mast, second-tallest structure in the world
  • 646 metres – height of the Warsaw radio mast, the world's tallest structure until its collapse in 1991
  • 828 metres – height of Burj Khalifa, world's tallest structure on 17 January 2009[110]
  • 1,000 metres – wavelength of the lowest mediumwave radio frequency, 300 kHz


Sports

  • 100 metres – the distance a very fast human can run in about 10 seconds
  • 100.584 metres – length of a Canadian football field between the goal lines (110 yards)
  • 91.5 metres – 137 metres – length of a soccer field[95]
  • 105 metres – length of football pitch (UEFA stadium categories 3 and 4)
  • 105 metres – length of a typical football field
  • 109.73 metres – total length of an American football field (120 yards, including the end zones)
  • 110–150 metres – the width of an Australian football field
  • 135–185 metres – the length of an Australian football field
  • 137.16 metres – total length of a Canadian football field, including the end zones (150 yards)

Nature

  • 115.5 metres – height of the world's tallest tree in 2007, the Hyperion sequoia[111]
  • 310 metres – maximum depth of Lake Geneva
  • 340 metres – distance sound travels in air at sea level in one second; see Speed of sound
  • 979 metres – height of the Salto Angel, the world's highest free-falling waterfall (Venezuela)
  • 1500 metres – distance sound travels in water in one second

Astronomical

1 kilometre

Mount Fuji is 3.776 kilometres (2.346 mi) high.

The kilometre (SI symbol: km) is a unit of length in the metric system equal to 1000 metres (103 m). To help compare different orders of magnitude, this section lists lengths between 1 kilometre and 10 kilometres (103 and 104 metres).

Conversions

1 kilometre (unit symbol km) is equal to:

Human-defined scales and structures

  • 1 km – wavelength of the highest long wave radio frequency, 300 kHz[113]
  • 1.280 km – span of the Golden Gate Bridge (distance between towers)[114]
  • 1.609 km – 1 statute mile
  • 1.852 km – 1 nautical mile, equal to 1 arcminute of latitude at the surface of the Earth[115]
  • 1.991 km – span of the Akashi Kaikyō Bridge[116]
  • 2.309 km – axial length of the Three Gorges Dam, the largest dam in the world[33]
  • 3.991 km – length of the Akashi Kaikyō Bridge, longest suspension bridge in the world (As of December 2008)[117]
  • 5.072 km – height of Tanggula Mountain Pass, below highest peak in the Tanggula Mountains, highest railway pass in the world (As of August 2005)[118]
  • 5.727 km – height of Cerro Aucanquilcha, highest road in the world, located in Chile [119][failed verification]
  • 98 airports have paved runways from 4 km to 5.5 km in length.
  • 8 km – length of Palm Jebel Ali, an artificial island built off the coast of Dubai
  • 9.8 km – length of The World, an artificial archipelago that is also built off the coast of Dubai, whose islands resemble a world map

Geographical

  • 1.637 km – deepest dive of Lake Baikal in Russia , the world's largest freshwater lake[120]
  • 2.228 km – height of Mount Kosciuszko, highest point on mainland Australia[121]
  • Most of Manhattan is from 3 to 4 km wide.
  • 4.810 km – height of Mont Blanc, highest peak in the Alps
  • 4.884 km – height of Carstensz Pyramid, highest peak in Oceania[122]
  • 4.892 km – height of Mount Vinson, highest peak in Antarctica
  • 5.610 km – height of Mount Damavand, highest peak in Iran
  • 5.642 km – height of Mount Elbrus, highest peak in Europe
  • 5.895 km – height of Mount Kilimanjaro, highest peak in Africa
  • 6.081 km – height of Mount Logan, highest peak in Canada
  • 6.190 km – height of Denali, highest peak in North America
  • 6.959 km – height of Aconcagua, highest peak in South America
  • 7.5 km – depth of Cayman Trench, deepest point in the Caribbean Sea
  • 8.611 km - height of K2, second highest mountain on Earth
  • 8.848 km – height of Mount Everest, highest peak on Earth, on the border between Nepal and China

Astronomical

10 kilometres

The Strait of Gibraltar is 13 km (8.1 mi) wide.

To help compare different orders of magnitude, this section lists lengths between 10 and 100 kilometres (104 to 105 metres). The myriametre[123] (sometimes also spelled myriometre; 10,000 metres) is a deprecated unit name; the decimal metric prefix myria-[78] (sometimes also written as myrio-[124][125][126]) is obsolete[79][80][81] and was not included among the prefixes when the International System of Units was introduced in 1960.

Conversions

10 kilometres is equal to:

Distance marker on the Rhine: 36 (XXXVI) myriametres from Basel. The stated distance is 360 km (220 mi); the comma is the decimal separator in Germany .

Sports

Human-defined scales and structures

  • 18 km – cruising altitude of Concorde
  • 27 km – circumference of the Large Hadron Collider, (As of May 2010) the largest and highest energy particle accelerator
  • 34.668 km – highest manned balloon flight (Malcolm D. Ross and Victor E. Prather on 4 May 1961)[130]
  • 38.422 km – length of the Second Lake Pontchartrain Causeway in Louisiana, US
  • 39 km – undersea portion of the Channel tunnel
  • 53.9 km – length of the Seikan Tunnel, (As of October 2009), the longest rail tunnel in the world[131]
  • 77 km – rough total length of the Panama Canal[132]

Geographical

  • 10 km – height of Mauna Kea in Hawaii, measured from its base on the ocean floor
  • 11 km – deepest-known point of the ocean, Challenger Deep in the Mariana Trench
  • 11 km – average height of the troposphere
  • 14 km – width of the Gibraltar strait
  • 21 km – length of Manhattan
  • 23 km – depth of the largest earthquake ever recorded in the United Kingdom, in 1931 at the Dogger Bank of the North Sea
  • 34 km – narrowest width of the English Channel at the Strait of Dover
  • 50 km – approximate height of the stratosphere
  • 90 km – width of the Bering Strait

Astronomical

100 kilometres

The Suez Canal is 163 km (101 mi) long.

A length of 100 kilometres (about 62 miles), as a rough amount, is relatively common in measurements on Earth and for some astronomical objects. It is the altitude at which the FAI defines spaceflight to begin.

To help compare orders of magnitude, this section lists lengths between 100 and 1,000 kilometres (105 and 106 metres).

Conversions

A distance of 100 kilometres is equal to about 62 miles (or 62.13711922 miles).

Human-defined scales and structures

  • 100 km – the Karman line: the internationally-recognized boundary of outer space
  • 105 km – distance from Giridih to Bokaro
  • 109 km – length of High Speed 1 between London and the Channel Tunnel[135]
  • 130 km – range of a Scud-A missile
  • 163 km – length of the Suez Canal
  • 164 km – length of the Danyang–Kunshan Grand Bridge
  • 213 km – length of Paris Métro
  • 217 km – length of the Grand Union Canal
  • 223 km – length of the Madrid Metro
  • 300 km – range of a Scud-B missile
  • 386 km – altitude of the International Space Station
  • 408 km – length of the London Underground (active track)
  • 460 km – distance from London to Paris
  • 470 km – distance from Dublin to London as the crow flies
  • 600 km – range of a Scud-C missile
  • 600 km – height above ground of the Hubble Space Telescope
  • 804.67 km – (500 miles) distance of the Indy 500 automobile race

Geographical

  • 111 km – distance covered by one degree of latitude on Earth's surface
  • 180 km – distance between Mumbai and Nashik
  • 203 km – length of Sognefjorden, the third-largest fjord in the world
  • 220 km – distance between Pune and Nashik
  • 240 km – widest width of the English Channel
  • 430 km – length of the Pyrenees
  • 500 km – widest width of Sweden from east to west
  • 550 km – distance from San Francisco to Los Angeles as the crow flies
  • 560 km – distance of Bordeaux–Paris, formerly[when?] the longest one-day professional cycling race[136]
  • 590 km – length of land boundary between Finland and Sweden
  • 724 km – length of the Om River
  • 871 km – distance from Sydney to Melbourne (along the Hume Highway)
  • 897 km – length of the River Douro
  • 900 km – distance from Berlin to Stockholm
  • 956 km – distance from Washington, D.C. to Chicago , Illinois as the crow flies

Astronomical

1 megametre

Small planets, the Moon and dwarf planets in the Solar System have diameters from one to ten million metres. Top row: Mars (left), Mercury (right); bottom row: Moon (left), Pluto (center), and Haumea (right), to scale.

The megametre (SI symbol: Mm) is a unit of length in the metric system equal to 1000000 metres (106 m). To help compare different orders of magnitude, this section lists lengths starting at 106 m (1 Mm or 1,000 km).

Conversions

1 megametre is equal to:

  • 1 E+6 m (one million metres)
  • approximately 621.37 miles
  • 1 E+12 μm (one trillion micrometres
  • Side of square with area 1,000,000 km2

Human-defined scales and structures

  • 2.100 Mm – Length of proposed Iran-Pakistan-India gas pipe
  • 2.100 Mm – Distance from Casablanca to Rome
  • 2.288 Mm – Length of the official Alaska Highway when it was built in the 1940s[137]
  • 3.069 Mm – Length of Interstate 95 (from Houlton, Maine to Miami, Florida)
  • 3.846 Mm – Length of U.S. Route 1 (from Fort Kent, Maine to Key West, Florida)
  • 5.000 Mm – Width of the United States
  • 5.007 Mm – Estimated length of Interstate 90 (Seattle, Washington to Boston, Massachusetts)
  • 5.614 Mm – Length of the Australian Dingo Fence[138]
  • 6.371 Mm – Global-average Earth radius
  • 6.4 Mm – Length of the Great Wall of China
  • 7.821 Mm – Length of the Trans-Canada Highway, the world's longest national highway (from Victoria, British Columbia to St. John's, Newfoundland)
  • 8.836 Mm – Road distance between Prudhoe Bay, Alaska, and Key West, Florida, the endpoints of the U.S. road network
  • 8.852 Mm – Aggregate length of the Great Wall of China, including trenches, hills and rivers[139]
  • 9.259 Mm – Length of the Trans-Siberian railway[140]

Sports

  • The Munda Biddi Trail in WA, Australia is over 1,000 km long – the world's longest off-road cycle trail
  • 1.200 Mm – the length of the Paris–Brest–Paris bicycling event
  • Several endurance auto races are, or were, run for 1,000 km:
    • Bathurst 1000
    • 1000 km Brands Hatch
    • 1000 km Buenos Aires
    • 1000 km Donington
    • 1000 km Monza
    • 1000 km Nürburgring
    • 1000 km Silverstone
    • 1000 km Spa
    • 1000 km Suzuka
    • 1000 km Zeltweg

Geographical

  • 1.010 Mm – Distance from San Diego to El Paso as the crow flies
  • 2.000 Mm – Distance from Beijing to Hong Kong as the crow flies
  • 2.800 Mm – Narrowest width of Atlantic Ocean (Brazil-West Africa)
  • 2.850 Mm – Length of the Danube river
  • 2.205 Mm – Length of Sweden's total land boundaries
  • 2.515 Mm – Length of Norway's total land boundaries
  • 3.690 Mm – Length of the Volga river, longest in Europe
  • 4.350 Mm – Length of the Yellow River
  • 4.800 Mm – Widest width of Atlantic Ocean (U.S.-Northern Africa)
  • 5.100 Mm – Distance from Dublin to New York City as the crow flies
  • 6.270 Mm – Length of the Mississippi-Missouri River system
  • 6.380 Mm – Length of the Yangtze River
  • 6.400 Mm – Length of the Amazon River
  • 6.758 Mm – Length of the Nile system, longest on Earth
  • 8.200 Mm – Approximate Distance from Dublin to San Francisco

Astronomical

  • 1.000 Mm – Estimated shortest axis of triaxial dwarf planet Haumea
  • 1.186 Mm – Diameter of Charon, the largest moon of Pluto
  • 1.280 Mm – Diameter of the trans-Neptunian object 50000 Quaoar
  • 1.436 Mm – Diameter of Iapetus, one of Saturn's major moons
  • 1.578 Mm – Diameter of Titania, the largest of Uranus's moons
  • 1.960 Mm – Estimated longest axis of Haumea
  • 2.326 Mm – Diameter of the dwarf planet Eris, the largest trans-Neptunian object found to date
  • 2.376 Mm – Diameter of Pluto
  • 2.707 Mm – Diameter of Triton, largest moon of Neptune
  • 3.122 Mm – Diameter of Europa, the smallest Galilean satellite of Jupiter
  • 3.476 Mm – Diameter of Earth's Moon
  • 3.643 Mm – Diameter of Io, a moon of Jupiter
  • 4.821 Mm – Diameter of Callisto, a moon of Jupiter
  • 4.879 Mm – Diameter of Mercury
  • 5.150 Mm – Diameter of Titan, the largest moon of Saturn
  • 5.262 Mm – Diameter of Jupiter's moon Ganymede, the largest moon in the Solar System
  • 6.371 Mm – Radius of Earth
  • 6.792 Mm – Diameter of Mars

10 megametres

Planets from Venus up to Uranus have diameters from ten to one hundred million metres. Top row: Uranus (left), Neptune (right); middle row: Earth (left), Sirius B (center), and Venus (right), to scale

To help compare different orders of magnitude, this section lists lengths starting at 107 metres (10 megametres or 10,000 kilometres).

Conversions

10 megametres (10 Mm) is

Human-defined scales and structures

  • 11.085 Mm – Length of the Kyiv-Vladivostok railway, a longer variant of the Trans-Siberian railway[141]
  • 13.300 Mm – Length of roads rehabilitated and widened under the National Highway Development Project (launched in 1998) in India
  • 39.000 Mm – Length of the SEA-ME-WE 3 optical submarine telecommunications cable, joining 39 points between Norden, Germany and Okinawa, Japan
  • 67.000 Mm – Total length of National Highways in India
  • 80.000 Mm – 20,000 (metric, French) leagues (see Jules Verne, Twenty Thousand Leagues Under the Sea)

Geographical

Astronomical

  • 12.000 Mm – Diameter of Sirius B, a white dwarf[142]
  • 12.104 Mm – Diameter of Venus
  • 12.742 Mm – Diameter of Earth
  • 12.900 Mm – Minimum distance of the meteoroid 2004 FU162 from the centre of Earth on 31 March 2004, closest on record
  • 14.000 Mm – Smallest diameter of Jupiter's Great Red Spot
  • 19.000 Mm – Separation between Pluto and Charon
  • 30.8568 Mm – 1 nanoparsec
  • 34.770 Mm – Minimum distance of the asteroid 99942 Apophis on 13 April 2029 from the centre of Earth
  • 35.786 Mm – Altitude of geostationary orbit
  • 40.005 Mm – Polar circumference of the Earth
  • 40.077 Mm – Equatorial circumference of the Earth
  • 49.528 Mm – Diameter of Neptune
  • 51.118 Mm – Diameter of Uranus

100 megametres

The Earth-Moon orbit, Saturn, OGLE-TR-122b, Jupiter, and other objects, to scale. Click on image for detailed view and links to other length scales.
Scale model at megametres of the main Solar System bodies.

To help compare different orders of magnitude, this section lists lengths starting at 108 metres (100 megametres or 100,000 kilometres or 62,150 miles).

1 gigametre

13 things in the gigametre group
Upper part: Gamma Orionis, Algol B, the Sun (centre), and other objects to scale

; lower part: their darker mirror images (artist's interpretation).

The gigametre (SI symbol: Gm) is a unit of length in the metric system equal to 1000000000 metres (109 m). To help compare different distances this section lists lengths starting at 109 metres (1 gigametre (Gm) or 1 billion metres).

10 gigametres

Rigel and Aldebaran (top left and right) compared to smaller stars, the Sun (very small dot in lower middle, with orbit of Mercury as yellow ellipse) and transparent sphere with radius of one light-minute.

To help compare different distances this section lists lengths starting at 1010 metres (10 gigametres (Gm) or 10 million kilometres, or 0.07 astronomical units).

100 gigametres

From largest to smallest: Jupiter's orbit, red supergiant star Betelgeuse, Mars' orbit, Earth's orbit, star R Doradus, and orbits of Venus, Mercury. Inside R Doradus's depiction are the blue supergiant star Rigel and red giant star Aldebaran. The faint yellow glow around the Sun represents one light-minute. Click image to see more details and links to their scales.

To help compare distances at different orders of magnitude this section lists lengths starting at 1011 metres (100 gigametre or 100 million kilometres or 0.7 astronomical units).

  • 109 Gm (0.7 au) Distance between Venus and the Sun
  • 149.6 Gm (93.0 million mi; 1.0 au) – Distance between the Earth and the Sun – the original definition of the astronomical unit
  • 180 Gm (1.2 au) – Maximum diameter of Sagittarius A*, the supermassive black hole in the center of Milky Way galaxy
  • 228 Gm (1.5 au) – Distance between Mars and the Sun
  • ≈280 Gm (1.9 au) – Diameter of Deneb, a blue supergiant and the brightest star in the Cygnus[153]
  • 570 Gm (3.8 au) – Length of the tail of Comet Hyakutake measured by Ulysses; the actual value could be much higher
  • ≈590 Gm (3.9 au) – Diameter of the Pistol Star, a blue hypergiant star[154]
  • 591 Gm (4.0 au) – Minimum distance between the Earth and Jupiter
  • 780 Gm (5.2 au) – Distance between Jupiter and the Sun
  • 947 Gm (6.4 au) – Diameter of Antares A
  • 965 Gm (6.4 au) – Maximum distance between the Earth and Jupiter

1 terametre

8 things in the terametre group
Comparison of size of the Kuiper belt (large faint torus) with the star VY Canis Majoris (within Saturn's orbit), Betelgeuse (inside Jupiter's orbit) and R Doradus (small central red sphere) together with the orbits of Neptune and Uranus, to scale. The yellow ellipses represent the orbits of each planet and the dwarf planet Pluto.

The terametre (SI symbol: Tm) is a unit of length in the metric system equal to 1000000000000 metres (1012 m). To help compare different distances, this section lists lengths starting at 1012 m (1 Tm or 1 billion km or 6.7 astronomical units).

  • ≈1 Tm – 7 au – Diameter of the red supergiant Betelgeuse based on multiple angular diameter estimates[155]
  • 1.079 Tm – 7.2 au – One light-hour
  • 1.12 Tm – 7.5 au – mean diameter of Rho Cassiopeiae, a rare yellow hypergiant star.[156]
  • 1.35 Tm – 9 au – Diameter of the H-alpha emission region around the blue hypergiant P Cygni[157]
  • 1.4 Tm – 9.5 au – Distance between Saturn and the Sun
  • 1.5 Tm – 10 au – Estimated diameter of VV Cephei A, a red supergiant with a blue dwarf companion.[158]
  • 1.75 Tm – 11.7 au – Estimated diameter of Mu Cephei, a red supergiant (possibly hyper giant) among the largest-known stars[159][160]
  • 1.83 Tm – 12.2 au – Diameter of HR 5171 A, the largest-known yellow hypergiant star although the latest research suggests it is a red hypergiant with a diameter about 2.1 Tm (14 au)[161][162]
  • 2 Tm – 13.2 au – Estimated diameter of VY Canis Majoris, a red hypergiant that is among the largest-known stars[159][163]
  • 2.9 Tm – 19.4 au – Distance between Uranus and the Sun
  • 4.4 Tm – 29.4 au – Perihelion distance of Pluto
  • 4.5 Tm – 30.1 au – Distance between Neptune and the Sun
  • 4.5 Tm – 30.1 au – Inner radius of the Kuiper belt
  • 5.7 Tm – 38.1 au – Perihelion distance of Eris
  • 6.0 Tm – 40.5 au – Distance from Earth at which the Pale Blue Dot photograph was taken.
  • 7.3 Tm – 48.8 au – Aphelion distance of Pluto
  • 7.5 Tm – 50.1 au – Outer radius of the Kuiper Belt

10 terametres

Sedna's orbit (left) is longer than 100 Tm, but other lengths are between 10 and 100 Tm: Comet Hale-Bopp's orbit (lower, faint orange); one light-day (yellow spherical shell with yellow Vernal point arrow as radius); the heliosphere's termination shock (blue shell); and other arrows show positions of Voyager 1 (red) and Pioneer 10 (green). Click on image for larger view and links to other scales.

To help compare different distances this section lists lengths starting at 1013 m (10 Tm or 10 billion km or 67 astronomical units).

  • 10 Tm – 67 AU – Diameter of a hypothetical quasi-star
  • 11.1 Tm – 74.2 AU – Distance that Voyager 1 began detecting returning particles from termination shock
  • 11.4 Tm – 76.2 AU – Perihelion distance of 90377 Sedna
  • 12.1 Tm – 70 to 90 AU – Distance to termination shock (Voyager 1 crossed at 94 AU)
  • 12.9 Tm – 86.3 AU – Distance to 90377 Sedna in March 2014
  • 13.2 Tm – 88.6 AU – Distance to Pioneer 11 in March 2014
  • 14.1 Tm – 94.3 AU – Estimated radius of the Solar System
  • 14.4 Tm – 96.4 AU – Distance to Eris in March 2014 (now near its aphelion)
  • 15.1 Tm – 101 AU – Distance to heliosheath
  • 16.5 Tm – 111 AU – Distance to Pioneer 10 as of March 2014
  • 16.6 Tm – 111.2 AU – Distance to Voyager 2 as of May 2016
  • 20.0 Tm – 135 AU – Distance to Voyager 1 as of May 2016
  • 20.6 Tm – 138 AU – Distance to Voyager 1 as of late February 2017
  • 21.1 Tm – 141 AU – Distance to Voyager 1 as of November 2017
  • 25.9 Tm – 173 AU – One light-day
  • 30.8568 Tm – 206.3 AU – 1 milliparsec
  • 55.7 Tm – 371 AU – Aphelion distance of the comet Hale-Bopp

100 terametres

The largest yellow sphere indicates one light month distance from the Sun. Click the image for larger view, more details and links to other scales.

To help compare different distances this section lists lengths starting at 1014 m (100 Tm or 100 billion km or 670 astronomical units).

1 petametre

Largest circle with yellow arrow indicates one light-year from Sun; Cat's Eye Nebula on left and Barnard 68 in middle are depicted in front of Comet 1910 A1's orbit. Click image for larger view, details and links to other scales.

The petametre (SI symbol: Pm) is a unit of length in the metric system equal to 1015 metres. To help compare different distances this section lists lengths starting at 1015 m (1 Pm or 1 trillion km or 6685 astronomical units (AU) or 0.11 light-years).

  • 1.0 Pm = 0.105702341 light-years
  • 1.9 Pm ± 0.5 Pm = 12,000 AU = 0.2 light-year radius of Cat's Eye Nebula's inner core[165]
  • 3.08568 Pm = 20,626 AU = 1 deciparsec
  • 4.7 Pm = 30,000 AU = half-light-year diameter of Bok globule Barnard 68[166]
  • 7.5 Pm – 50,000 AU – Possible outer boundary of Oort cloud (other estimates are 75,000 to 125,000 or even 189,000 AU (1.18, 2, and 3 light-years, respectively))
  • 9.5 Pm – 63,241.1 AU – One light-year, the distance traveled by light in one year
  • 9.9 Pm – 66,000 AU – Aphelion distance of the C/1999 F1 (Catalina)

10 petametres

Objects with size order of magnitude 1e16m: Ten light-years (94.6 Pm) radius circle with yellow Vernal Point arrow; Bubble Nebula (NGC 7635), left; Dumbbell Nebula (NGC 6853), right; one light-year shell lower right with the smaller Cat's Eye Nebula (NGC_6543) and Barnard 68 adjacent.
1e16m lengths: Ten light-years (94.6 Pm) yellow shell; Sirius below right; BL Ceti below left; Proxima and Alpha Centauri upper right; light-year shell with Comet 1910 A1's orbit inside top right

To help compare different distances this section lists lengths starting at 1016 m (10 Pm or 66,800 AU, 1.06 light-years).

100 petametres

Lengths with order of magnitude 1e17m: yellow Vernal Point arrow traces hundred light-year radius circle with smaller ten light-year circle at right; globular cluster Messier 5 in background; 12 light-year radius Orion Nebula middle right; 50-light-year-wide view of the Carina Nebula bottom left; Pleiades cluster and Bubble nebula with similar diameters each around 10 light-years bottom right; grey arrows show distances from Sun to stars Aldebaran (65 light-years) and Vega (25 light-years).

To help compare different distances this section lists lengths between 1017 m (100 Pm or 11 light-years) and 1018 m (106 light-years).

  • 110 Pm – 12 light-years – Distance to Tau Ceti
  • 230 Pm – 24 light-years – Diameter of the Orion Nebula[167][168]
  • 240 Pm – 25 light-years – Distance to Vega
  • 260 Pm – 27 light-years – Distance to Chara, a star approximately as bright as the Sun. Its faintness gives an idea how the Sun would appear when viewed from this distance.
  • 308.568 Tm – 32.6 light-years – 1 dekaparsec
  • 350 Pm – 37 light-years – Distance to Arcturus
  • 373.1 Pm – 39.44 light-years – Distance to TRAPPIST-1, a star recently discovered to have 7 planets around it
  • 400 Pm – 42 light-years – Distance to Capella
  • 620 Pm – 65 light-years – Distance to Aldebaran
  • 750 Pm – 79.36 light-years – Distance to Regulus
  • 900 Pm – 92.73 light-years – Distance to Algol

1 exametre

Lengths with order of magnitude 1e18m: thousand light-year radius circle with yellow arrow and 100 light-year circle at right with globular cluster Messier 5 within and Carina Nebula in front; globular cluster Omega Centauri to left of both; part of the 1,400-light-year-wide Tarantula Nebula fills the background.

The exametre (SI symbol: Em) is a unit of length in the metric system equal to 1018 metres. To help compare different distances this section lists lengths between 1018 m (1 Em or 105.7 light-years) and 1019 m (10 Em or 1,057 light-years).

10 exametres

To help compare different orders of magnitude, this section lists distances starting at 10 Em (1019 m or 1,100 light-years).

  • 10.6 Em – 1,120 light-years – Distance to WASP-96b
  • 13 Em – 1,300 light-years – Distance to the Orion Nebula[174]
  • 14 Em – 1,500 light-years – Approximate thickness of the plane of the Milky Way galaxy at the Sun's location
  • 14.2 Em – 1,520 light-years – Diameter of the NGC 604
  • 30.8568 Em – 3,261.6 light-years – 1 kiloparsec
  • 31 Em – 3,200 light-years – Distance to Deneb according to Hipparcos
  • 46 Em – 4,900 light-years – Distance to OGLE-TR-56, the first extrasolar planet discovered using the transit method
  • 47 Em – 5,000 light-years – Distance to the Boomerang nebula, coldest place known (1 K)
  • 53 Em – 5,600 light-years – Distance to the globular cluster M4 and the extrasolar planet PSR B1620-26 b within it
  • 61 Em – 6,500 light-years – Distance to Perseus Spiral Arm (next spiral arm out in the Milky Way galaxy)
  • 71 Em – 7,500 light-years – Distance to Eta Carinae

100 exametres

To help compare different orders of magnitude, this section lists distances starting at 100 Em (1020 m or 11,000 light-years).

  • 150 Em – 16,000 light-years – Diameter of the Small Magellanic Cloud, a dwarf galaxy orbiting the Milky Way
  • 200 Em – 21,500 light-years – Distance to OGLE-2005-BLG-390Lb, the most distant and the most Earth-like planet known
  • 240 Em – 25,000 light-years – Distance to the Canis Major Dwarf Galaxy
  • 260 Em – 28,000 light-years – Distance to the center of the Galaxy
  • 400 Em – 48,000 light years – Diameter of the Fireworks Galaxy
  • 830 Em – 88,000 light-years – Distance to the Sagittarius Dwarf Elliptical Galaxy

1 zettametre

The zettametre (SI symbol: Zm) is a unit of length in the metric system equal to 1021 metres.[52] To help compare different orders of magnitude, this section lists distances starting at 1 Zm (1021 m or 110,000 light-years).

  • 1.7 Zm – 179,000 light-years – Distance to the Large Magellanic Cloud, largest satellite galaxy of the Milky Way
  • <1.9 Zm – <200,000 light-years – Revised estimated diameter of the disc of the Milky Way Galaxy. The size was previously thought to be half of this.
  • 2.0 Zm – 210,000 light-years – Distance to the Small Magellanic Cloud
  • 2.8 Zm – 300,000 light-years – Distance to the Intergalactic Wanderer, one of the most distant globular clusters of Milky Way
  • 8.5 Zm – 900,000 light-years – Distance to the Leo I Dwarf Galaxy, farthest-known Milky Way satellite galaxy

10 zettametres

To help compare different orders of magnitude, this section lists distances starting at 10 Zm (1022 m or 1.1 million light-years).

100 zettametres

To help compare different orders of magnitude, this section lists distances starting at 100 Zm (1023 m or 11 million light-years).

  • 140 Zm – 15 million light-years – Distance to Centaurus A galaxy
  • 250 Zm – 27 million light-years – Distance to the Pinwheel Galaxy
  • 280 Zm – 30 million light-years – Distance to the Sombrero Galaxy
  • 570 Zm – 60 million light-years – Approximate distance to the Virgo cluster, nearest galaxy cluster
  • 620 Zm – 65 million light-years – Approximate distance to the Fornax cluster
  • 800 Zm – 85 million light-years – Approximate distance to the Eridanus cluster

1 yottametre

The yottametre (SI symbol: Ym) is a unit of length in the metric system equal to 1024 metres.[52]

To help compare different orders of magnitude, this section lists distances starting at 1 Ym (1024 m or 105.702 million light-years).

  • 1.2 Ym – 127 million light-years – Distance to the closest observed gamma ray burst GRB 980425
  • 1.3 Ym – 137 million light-years – Distance to the Centaurus Cluster of galaxies, the nearest large supercluster
  • 1.9 Ym – 201 million light-years – Diameter of the Local Supercluster
  • 2.3 Ym – 225 to 250 million light-years – Distance light travels in vacuum in one galactic year
  • 2.8 Ym – 296 million light-years – Distance to the Coma Cluster
  • 3.15 Ym - 330 million light years - Diameter of the Boötes Void
  • 3.2 Ym – 338 million light-years – Distance to Stephan's Quintet
  • 4.7 Ym – 496 million light-years – Length of the CfA2 Great Wall, one of the largest observed superstructures in the Universe
  • 6.1 Ym – 645 million light-years – Distance to the Shapley Supercluster
  • 9.5 Ym – 996 million light-years – Diameter of the Eridanus Supervoid

10 yottametres

The universe within one billion light-years of Earth

To help compare different orders of magnitude, this section lists distances starting at 10 Ym (1025 m or 1.1 billion light-years). At this scale, expansion of the universe becomes significant. Distance of these objects are derived from their measured redshifts, which depends on the cosmological models used.

  • 13 Ym – 1.37 billion light-years – Length of the South Pole Wall
  • 13 Ym – 1.38 billion light-years – Length of the Sloan Great Wall
  • 18 Ym – redshift 0.16 – 1.9 billion light-years – Distance to the quasar 3C 273 (light travel distance)
  • 30.8568 Ym – 3.2616 billion light-years – 1 gigaparsec
  • 31.2204106 Ym − 3.3 billion light-years − Length of The Giant Arc, a large cosmic structure discovered in 2021
  • 33 Ym – 3.5 billion light-years – Maximum distance of the 2dF Galaxy Redshift Survey (light travel distance)
  • 37.8 Ym – 4 billion light-years – Length of the Huge-LQG
  • 75 Ym – redshift 0.95 – 8 billion light-years – Approximate distance to the supernova SN 2002dd in the Hubble Deep Field North (light travel distance)
  • 85 Ym – redshift 1.6 – 9 billion light-years – Approximate distance to the gamma-ray burst GRB 990123 (light travel distance)
  • 94.6 Ym – 10 billion light-years – Approximate distance to quasar OQ172
  • 94.6 Ym – 10 billion light-years – Length of the Hercules–Corona Borealis Great Wall, one of the largest and most massive-known cosmic structures known

100 yottametres

To help compare different orders of magnitude, this section lists distances starting at 100 Ym (1026 m or 11 billion light-years). At this scale, expansion of the universe becomes significant. Distance of these objects are derived from their measured redshifts, which depend on the cosmological models used.

  • 124 Ym – redshift 7.54 – 13.1 billion light-years – Light travel distance (LTD) to the quasar ULAS J1342+0928, the most distant-known quasar as of 2017
  • 130 Ym – redshift 1,000 – 13.8 billion light-years – Distance (LTD) to the source of the cosmic microwave background radiation; radius of the observable universe measured as a LTD
  • 260 Ym – 27.4 billion light-years – Diameter of the observable universe (double LTD)
  • 440 Ym – 46 billion light-years – Radius of the universe measured as a comoving distance
  • 590 Ym – 62 billion light-years – Cosmological event horizon: the largest comoving distance from which light will ever reach us (the observer) at any time in the future
  • 886.48 Ym – 93.7 billion light-years – The diameter of the observable universe (twice the particle horizon); however, there might be unobserved distances that are even greater.

1 ronnametre

The ronnametre (SI symbol: Rm) is a unit of length in the metric system equal to 1027 metres.[52]

To help compare different orders of magnitude, this section lists distances starting at 1 Rm (1027 m or 110 billion light-years). At this scale, expansion of the universe becomes significant. Distance of these objects are derived from their measured redshifts, which depend on the cosmological models used.

  • >1 Rm - >105.7 billion light-years – Size of universe beyond the cosmic light horizon, depending on its curvature; if the curvature is zero (i.e. the universe is spatially flat), the value can be infinite (see Shape of the universe) as previously mentioned
  • ≈101010120 Light-years – the possible size of the universe after cosmological inflation

See also

Notes

  1. The diameter of human hair ranges from 17 to 181 μm Ley, Brian (1999). "Diameter of a human hair". in Elert, Glenn. https://hypertextbook.com/facts/1999/BrianLey.shtml. 
  2. 2.0 2.1 The exact category (asteroid, dwarf planet, or planet) to which particular Solar System objects belong, has been subject to some revision since the discovery of extrasolar planets and trans-Neptunian objects
  3. 10115 is 1 followed by 115 zeroes, or a googol multiplied by a quadrillion. 1010115 is 1 followed by a quadrillion googol zeroes. 101010122is 1 followed by 1010122 (a googolplex10 sextillion) zeroes.
  4. But not cloud or high-level fog droplets; droplet size increases with altitude. For a contradictory study indicating larger drop sizes even in ground fog, see Eldridge, Ralph G. (October 1961). "A Few Fog Drop-Size Distributions". Journal of Meteorology 18 (5): 671–6. doi:10.1175/1520-0469(1961)018<0671:AFFDSD>2.0.CO;2. Bibcode1961JAtS...18..671E. 

References

  1. Nave, Carl R.. "Cowan and Reines Neutrino Experiment". HyperPhysics. http://hyperphysics.phy-astr.gsu.edu/hbase/particles/cowan.html#c1.  (6.3 × 10−44 cm2, which gives an effective radius of about 1.42 × 10−22 m)
  2. Nave, Carl R.. "Neutron Absorption Cross-sections". HyperPhysics. http://hyperphysics.phy-astr.gsu.edu/hbase/particles/neutrino3.html#c2.  (area for 20 GeV about 10 × 10−42 m2 gives effective radius of about 2 × 10−21 m; for 250 GeV about 150 × 10−42 m2 gives effective radius of about 7 × 10−21 m)
  3. Abbott, B. P. (2016). "Observation of Gravitational Waves from a Binary Black Hole Merger". Physical Review Letters 116 (6): 061102. doi:10.1103/PhysRevLett.116.061102. PMID 26918975. Bibcode2016PhRvL.116f1102A. "On 14 September 2015 at 09:50:45 UTC the two detectors of the Laser Interferometer Gravitational-Wave Observatory simultaneously observed a transient gravitational-wave signal. The signal sweeps upwards in frequency from 35 to 250 Hz with a peak gravitational-wave strain of 1.0×10−21.". 
  4. 4.0 4.1 4.2 4.3 Cite error: Invalid <ref> tag; no text was provided for refs named Burgess_and_Quevedo
  5. Pohl, R. (July 2010). "The size of the proton". Nature 466 (7303): 213–6. doi:10.1038/nature09250. PMID 20613837. Bibcode2010Natur.466..213P. https://rdcu.be/bYa2m. 
  6. 6.0 6.1 6.2 6.3 Strassler, Matt (30 May 2013). "The strength of the known forces". http://profmattstrassler.com/articles-and-posts/particle-physics-basics/the-known-forces-of-nature/the-strength-of-the-known-forces/. 
  7. 7.0 7.1 7.2 7.3 "The four forces: The strong interaction". Duke University. http://webhome.phy.duke.edu/~kolena/modern/forces.html#005. 
  8. Nave, Carl R.. "Scattering cross section". http://hyperphysics.phy-astr.gsu.edu/hbase/nuclear/crosec.html.  (diameter of the scattering cross section of an 11 MeV proton with a target proton)
  9. "CODATA Value: classical electron radius". NIST. https://physics.nist.gov/cgi-bin/cuu/Value?re. 
  10. H. E. Smith. "The Scale of the Universe". UCSD. https://cass.ucsd.edu/archive/public/tutorial/scale.html. "~10−13cm" 
  11. Winter, Mark (2008). "WebElements Periodic Table of the Elements / Sulfur / Radii". https://www.webelements.com/sulfur/atom_sizes.html. 
  12. "Gram-scale CCVD synthesis of double-walled carbon nanotubes". Chemical Communications 12 (12): 1442–3. June 2003. doi:10.1039/b301514a. PMID 12841282. https://hal.archives-ouvertes.fr/hal-00926035/file/Flahaut_10551.pdf. 
  13. "The world's smallest transistor is 1nm long, physics be damned". 6 October 2016. https://www.theverge.com/circuitbreaker/2016/10/6/13187820/one-nanometer-transistor-berkeley-lab-moores-law. 
  14. Stewart, Robert. "Dr". http://rh.healthsciences.purdue.edu/vc/theory/dna/index.html. 
  15. Langevin, Dominique (2008). "Chapter 10: DNA-Surfactant/Lipid Complexes at Liquid Interfaces". DNA Interactions with Polymers and Surfactants. Hoboken, NJ: John Wiley & Sons, Inc.. p. 265. doi:10.1002/9780470286364.ch10. ISBN 978-0-470-25818-7. "DNA has 20 elementary charges per helical turn over the corresponding length of 3.4nm" 
  16. F., Adnan (17 October 2016). "Samsung announces industry-first mass production of System-on-Chip with 10nm FinFET technology". https://www.sammobile.com/2016/10/17/samsung-announces-industry-first-mass-production-of-system-on-chip-with-10nm-finfet-technology/. 
  17. "Hard drive basics – Capacities, RPM speeds, interfaces, and mechanics". https://www.helpwithpcs.com/hardware/hard-drive-basics.php. 
  18. Cohn, J. University of California, Berkeley Lyman alpha systems and cosmology. Retrieved 21 February 2009.
  19. Seth, S.D.; Seth, Vimlesh (2009). Textbook of Pharmacology (3rd ed.). Elsevier. p. X111. ISBN 978-81-312-1158-8. https://books.google.com/books?id=51ozlZRBvQwC&pg=SL24-PA111. 
  20. Nave, Carl R (2016). "Color". Georgia State University. http://hyperphysics.phy-astr.gsu.edu/hbase/vision/specol.html#c1. 
  21. "Size of bacteria". http://www.whatarebacteria.com/size-of-bacteria/. 
  22. Ko, Frank K.; Kawabata, Sueo; Inoue, Mari; Niwa, Masako; Fossey, Stephen; Song, John W.. "Engineering properties of spider silk". http://web.mit.edu/course/3/3.064/www/slides/Ko_spider_silk.pdf. 
  23. Doohan, Jim. "Blood cells". http://www.biosbcc.net/doohan/sample/htm/Blood%20cells.htm. 
  24. 24.0 24.1 24.2 24.3 According to The Physics Factbook, the diameter of human hair ranges from 17 to 181 μmLey, Brian (1999). "Width of a Human Hair". https://hypertextbook.com/facts/1999/BrianLey.shtml. 
  25. 25.0 25.1 "Evaluation of corneal thickness and topography in normal eyes using the Orbscan corneal topography system". The British Journal of Ophthalmology 83 (7): 774–8. July 1999. doi:10.1136/bjo.83.7.774. PMID 10381661. 
  26. 26.0 26.1 Order Siphonaptera – Fleas – BugGuide.Net Accessed 29 April 2014
  27. 27.0 27.1 "Official Rules". MLB. http://mlb.mlb.com/mlb/official_info/official_rules/official_rules.jsp. 
  28. "Pinus lambertiana". http://www.na.fs.fed.us/Spfo/pubs/silvics_manual/Volume_1/pinus/lambertiana.htm. 
  29. 29.0 29.1 "What is a rapier – Renaissance swords Rapiers". 2-Clicks Swords. https://www.2-clicks-swords.com/article/what-is-a-rapier.html. 
  30. 30.0 30.1 "Robert Wadlow: Tallest man ever". Guinness World Records. http://www.guinnessworldrecords.com/records/hall-of-fame/robert-wadlow-tallest-man-ever. 
  31. "Animal Records". Smithsonian National Zoological Park. http://nationalzoo.si.edu/Animals/AnimalRecords/. 
  32. 32.0 32.1 "Niagara Falls Geology Facts & Figures". Niagara Parks Commission. http://www.niagaraparks.com/media/geology-facts-figures.html. 
  33. 33.0 33.1 "Three Gorges Dam". Cengage Learning. https://www.encyclopedia.com/environment/encyclopedias-almanacs-transcripts-and-maps/three-gorges-dam. 
  34. "Exploring Chinese History :: Special Reports :: The Three Gorges Dam Project". http://www.ibiblio.org/chinesehistory/contents/07spe/specrep01.html#Quick+Facts. 
  35. 35.0 35.1 "Differentiation of the asteroid Ceres as revealed by its shape". Nature 437 (7056): 224–6. September 2005. doi:10.1038/nature03938. PMID 16148926. Bibcode2005Natur.437..224T. 
  36. Weintrit, Adam (2013). "So, What is Actually the Distance from the Equator to the Pole? – Overview of the Meridian Distance Approximations" (in en). TransNav, the International Journal on Marine Navigation and Safety of Sea Transportation 7 (2): 259–272. doi:10.12716/1001.07.02.14. ISSN 2083-6473. http://www.transnav.eu/Article_So,_What_is_Actually_the_Distance_Weintrit,26,435.html. 
  37. "Volvo owner Irv Gordon, who drove 3.2M miles in his P1800, has died". 16 November 2018. https://www.autoblog.com/2018/11/16/irv-gordon-dies-volvo-p1800-mileage-record/. 
  38. "Spacecraft escaping the Solar System". http://heavens-above.com/solar-escape.aspx. 
  39. "Twin Keck telescopes probe dual dust disks". 24 September 2009. http://esciencenews.com/articles/2009/09/24/twin.keck.telescopes.probe.dual.dust.disks. 
  40. Shiga, David. "Sun's 'twin' an ideal hunting ground for alien life". New Scientist. https://www.newscientist.com/article/dn12725-suns-twin-an-ideal-hunting-ground-for-alien-life.html. Retrieved 3 October 2007. 
  41. "Milky Way fatter than first thought". Australian Associated Press. 20 February 2008. http://news.smh.com.au/milky-way-fatter-than-first-thought/20080220-1tbv.html. 
  42. M. López-Corredoira, C. Allende Prieto, F. Garzón, H. Wang, C. Liu and L. Deng (2018). "Disk stars in the Milky Way detected beyond 25 kpc from its center". Astronomy & Astrophysics 612: L8. doi:10.1051/0004-6361/201832880. Bibcode2018A&A...612L...8L. https://www.aanda.org/articles/aa/full_html/2018/04/aa32880-18/aa32880-18.html. 
  43. Freeman, David (25 May 2018). "The Milky Way galaxy may be much bigger than we thought" (Press release). CNBC. External link in |publisher= (help)
  44. Martialay, Mary L. (11 March 2015). "The Corrugated Galaxy—Milky Way May Be Much Larger Than Previously Estimated" (Press release). Rensselaer Polytechnic Institute. Archived from the original on 13 March 2015.
  45. Hall, Shannon (4 May 2015). "Size of the Milky Way Upgraded, Solving Galaxy Puzzle". Space.com. http://www.space.com/29270-milky-way-size-larger-than-thought.html. 
  46. "The Horologium Supercluster". http://www.atlasoftheuniverse.com/superc/hor.html. 
  47. Gott, J. Richard; Jurić, Mario; Schlegel, David; Hoyle, Fiona; Vogeley, Michael; Tegmark, Max; Bahcall, Neta; Brinkmann, Jon (2005). "A Map of the Universe". The Astrophysical Journal 624 (2): 463. doi:10.1086/428890. Bibcode2005ApJ...624..463G. 
  48. Scott, Douglas; Zibin, J.P. (2006). "How Many Universes Do There Need To Be?". International Journal of Modern Physics D 15 (12): 2229–2233. doi:10.1142/S0218271806009662. Bibcode2006IJMPD..15.2229S. 
  49. Tegmark, M. (2003). "Parallel universes. Not just a staple of science fiction, other universes are a direct implication of cosmological observations". Scientific American 288 (5): 40–51. doi:10.1038/scientificamerican0503-40. PMID 12701329. Bibcode2003SciAm.288e..40T. 
  50. "Parallel universes. Not just a staple of science fiction, other universes are a direct implication of cosmological observations". Scientific American 288 (5): 40–51. May 2003. doi:10.1038/scientificamerican0503-40. PMID 12701329. Bibcode2003SciAm.288e..40T. 
  51. Page, Don N.; Allende Prieto, C.; Garzon, F.; Wang, H.; Liu, C.; Deng, L. (18 October 2006). "Susskind's challenge to the Hartle Hawking no-boundary proposal and possible resolutions". Journal of Cosmology and Astro-Particle Physics 2007 (1): 004. doi:10.1088/1475-7516/2007/01/004. Bibcode2007JCAP...01..004P. 
  52. 52.0 52.1 52.2 52.3 52.4 "SI Brochure: The International System of Units (SI)". Organisation Intergouvernementale de la Convention du Mètre. https://www.bipm.org/en/publications/si-brochure/. 
  53. Raya, Khépani; Bedolla, Marco A.; Cobos-Martínez, J. J.; Bashir, Adnan (31 October 2017). "Heavy quarkonia in a contact interaction and an algebraic model: mass spectrum, decay constants, charge radii and elastic and transition form factors". Few-Body Systems 59 (6): 16. doi:10.1007/s00601-018-1455-y. Bibcode2018FBS....59..133R. https://ui.adsabs.harvard.edu/abs/2018FBS....59..133R/abstract. 
  54. "proton rms charge radius". https://physics.nist.gov/cgi-bin/cuu/Value?rp. 
  55. ISO 1683:2015
  56. "Buckminsterfullerene: Molecule of the Month". http://www.chm.bris.ac.uk/motm/buckyball/c60a.htm. 
  57. Annis, Patty J. October 1991. Kansas State University. Fine Particle POLLUTION. Figure 1. (tobacco smoke: 10 to 1000 nm; virus particles: 3 to 50 nm; bacteria: 30 to 30000 nm; cooking oil smoke: 30 to 30000 nm; wood smoke: 7 to 3000 nm)
  58. Stryer, Lubert (1988). Biochemistry. San Francisco: W.H. Freeman. ISBN 978-0-7167-1843-7. https://archive.org/details/biochemistry3rdedi00stry. 
  59. "Through the Microscope". http://www.microbiologytext.com/index.php?module=Book&func=displayarticle&art_id=60. 
  60. "Moore's Law Marches on at Intel". Physorg.com. https://phys.org/news/2009-09-law-intel.html. 
  61. "Hard drive basics – Capacities, RPM speeds, interfaces and mechanics". https://www.helpwithpcs.com/hardware/hard-drive-basics.php. 
  62. Smith, Graham T. (2002). Industrial metrology. Springer. p. 253. ISBN 978-1-85233-507-6. https://archive.org/details/industrialmetrol00mphi. 
  63. Eninger, Robert M.; Hogan, Christopher J.; Biswas, Pratim; Adhikari, Atin; Reponen, Tiina; Grinshpun, Sergey A. (2009). "Electrospray versus Nebulization for Aerosolization and Filter Testing with Bacteriophage Particles". Aerosol Science and Technology 43 (4): 298–304. doi:10.1080/02786820802626355. Bibcode2009AerST..43..298E. 
  64. Seth (18 November 2009). Textbook Of Pharmacology. Elsevier India. ISBN 9788131211588. https://books.google.com/books?id=51ozlZRBvQwC&pg=SL24-PA111. 
  65. "New Coronavirus (SARS-CoV-2) and the Safety Margins of Plasma Protein Therapies - Plasma Protein Therapeutics Association (PPTA)". https://www.pptaglobal.org/media-and-information/ppta-statements/1055-2019-novel-coronavirus-2019-ncov-and-plasma-protein-therapies. 
  66. "Bacillus anthracis". Journal of Clinical Pathology 56 (3): 182–7. March 2003. doi:10.1136/jcp.56.3.182. PMID 12610093. 
  67. "Cutaneous lesions showing giant yeast forms of Blastomyces dermatitidis". Journal of Cutaneous Pathology 29 (10): 616–8. November 2002. doi:10.1034/j.1600-0560.2002.291009.x. PMID 12453301. 
  68. Smith, D.J. (2009). "Human sperm accumulation near surfaces: a simulation study". Journal of Fluid Mechanics 621: 295. doi:10.1017/S0022112008004953. Bibcode2009JFM...621..289S. http://eprints.maths.ox.ac.uk/860/1/human_sperm.pdf. Retrieved 20 May 2012. 
  69. "NAC Audio Cassette Glossary – Cassetro" (in en-US). http://nactape.com/anablog/glossary. 
  70. "Genes are real things :: DNA from the Beginning". http://www.dnaftb.org/dnaftb/6/concept/index.html. 
  71. Ramel, Gordon. "Spider Silk". http://www.earthlife.net/chelicerata/silk.html. "garden spider silk has a diameter of about 0.003 mm ... Dragline silk (about 0.00032 inch (0.008 mm) in Nephila)" 
  72. Wise, R.R.; Hoober, J.K. (2007). The Structure and Function of Plastids. Springer. p. 14. ISBN 978-1-4020-6570-5. https://books.google.com/books?id=FKeCVPbJ3asC. 
  73. Zak, J. Allen (April 1994). Drop Size Distributions and Related Properties of Fog for Five Locations Measured From Aircraft (Report). Hampton, VA: NASALangley Research Center. 4585. https://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/19940028559.pdf. 
  74. 74.0 74.1 IST – Innovative Sintering Technologies Ltd.. "Fibreshape applications". http://www.istag.ch/fibres/applications.html. "Histogram of cotton thickness" 
  75. "Company Profile, page 20". The Lego Group. 2010. http://cache.lego.com/upload/contentTemplating/AboutUsFactsAndFiguresContent/otherfiles/download98E142631E71927FDD52304C1C0F1685.pdf. 
  76. Lippmann, Morton (2000). Environmental Toxicants: Human Exposures and Their Health Effects. John Wiley and Sons. p. 453. ISBN 978-0-471-29298-2. https://books.google.com/books?id=7eCXlRbCeGAC. Retrieved 4 December 2008. "20 μm .. 5 μm" 
  77. Gyllenbok, Jan (2018). Encyclopedia of Historical Metrology, Weights, and Measures. Birkhäuser. ISBN 9783319575988. https://books.google.com/books?id=XnRVDwAAQBAJ&pg=PA204. 
  78. 78.0 78.1 "La Loi Du 18 Germinal An 3 – Décision de tracer le mètre, unité fondamentale, sur une règle de platine. Nomenclature des "mesures républicaines". Reprise de la triangulation" (in fr). histoire.du.metre.free.fr. http://histoire.du.metre.free.fr/fr/Pages/Sommaire/06.htm. 
  79. 79.0 79.1 Comité International des Poids et Mesures (1935) (in fr), Procès-Verbaux des Séances, 17 (2 ed.), Paris, France: Gauthier-Villars, imprimeur-libraire du Bureau des Longitudes, de l'École Polytechnique, p. 76 
  80. 80.0 80.1 Metric System of Weights and Measures – Guidelines for Use. US: Director of the National Bureau of Standards. 1 June 1975. Federal Register FR Doc.75-15798 (18 June 1975). "Accordingly, the following units and terms listed in the table of metric units in section 2 of the act of 28 July 1866, that legalized the metric system of weights and measures in the United States, are no longer accepted for use in the United States: myriameter, stere, millier or tonneau, quintal, myriagram, kilo (for kilogram)." 
  81. 81.0 81.1 Barbrow, Louis E., ed (1 October 1976). "Appendix 7". Weights and Measures Standards of the United States, a brief history. Derived from a prior work by Louis A. Fisher (1905). US: US Department of Commerce, National Bureau of Standards. p. 33. NBS Special Publication 447; NIST SP 447; 003-003-01654-3. https://www.nist.gov/pml/wmd/pubs/upload/sp-447-2.pdf. Retrieved 12 October 2015. 
  82. Popiolek, Kim. "Dr. Charles Lindemann's Lab: Sperm Facts". Oakland University. https://files.oakland.edu/users/lindeman/web/spermfacts.htm. 
  83. Santoso, Alex (17 June 2006). "World's Biggest Sperm Belongs to a Tiny Fly". https://www.neatorama.com/2006/06/17/worlds-biggest-sperm-belongs-to-a-tiny-fly/. 
  84. House Dust Mites HYG-2157-97. Retrieved 4 December 2008
  85. "CNN – Scientists discover biggest bacteria ever – April 15, 1999". http://www.cnn.com/NATURE/9904/15/biggest.bacteria/. 
  86. "World's Smallest Frog Found—Fly-Size Beast Is Tiniest Vertebrate". 13 January 2017. https://news.nationalgeographic.com/news/2012/01/120111-smallest-frogs-vertebrates-new-species-science-animals/. 
  87. NATO Infantry Weapons Standardization, Per G. Arvidsson, ChairmanWeapons & Sensors Working GroupLand Capability Group 1 – Dismounted Soldier NATO Army Armaments Group Accessed 29 April 2014
  88. "World's smallest vertebrate has a big secret" (in en-US). New Scientist. https://www.newscientist.com/article/mg18925363-000-worlds-smallest-vertebrate-has-a-big-secret/. 
  89. Lindstrom, Hannah. "The Smallest Salamander". Mongabay.com. https://kids.mongabay.com/animals/smallest/smallest-salamander.html. 
  90. "Comparing quail eggs" (in en-US). BackYard Chickens. https://www.backyardchickens.com/threads/comparing-quail-eggs.410632/. 
  91. "Why the Moon is getting further away from Earth" (in en-GB). BBC News. 1 February 2011. https://www.bbc.com/news/science-environment-12311119. 
  92. "USGA: Guide to the Rules on Clubs and Balls". USGA. http://www.usga.org/Rule-Books/Rules-on-Clubs-and-Balls/Appendix-III-%e2%80%93-The-Ball/. 
  93. Kinloch, Bohun B. Jr.; Scheuner, William H.. "Pinus lambertiana". http://www.na.fs.fed.us/Spfo/pubs/silvics_manual/Volume_1/pinus/lambertiana.htm. 
  94. "HTwins.net – The Scale of the Universe". http://htwins.net/scale/. 
  95. 95.0 95.1 Laws of the Game, FIFA, 1 June 2017, http://resources.fifa.com/mm/document/footballdevelopment/refereeing/02/90/11/67/lawsofthegame2017-2018-en_neutral.pdf, retrieved 21 March 2018 
  96. IAAF International Association of Athletics Federations – IAAF.org - Statistics - Top Lists, http://www.iaaf.org/statistics/toplists/inout=O/ageGroup=N/season=0/gender=M/discipline=HJ/legal=A/index.html, retrieved 9 April 2010 
  97. IAAF International Association of Athletics Federations – IAAF.org - Past Results, http://www2.iaaf.org/results/past/WCH91/data/M/LJ/Rf.html, retrieved 9 April 2010 
  98. Dagg, A. I. (1971), Mammalian Species 5 (Giraffa camelopardalis ed.), pp. 1–8 
  99. "Fossil of 'largest flying bird' identified" (in en-GB). BBC News. 7 July 2014. https://www.bbc.com/news/science-environment-28164063. 
  100. Plait, P. (6 October 2008). "Incoming!!!". Bad Astronomy. http://blogs.discovermagazine.com/badastronomy/2008/10/06/incoming-2/. 
  101. "Rule 1.04 The Playing Field". Major League Baseball. 25 January 2010. pp. 1–5. http://mlb.mlb.com/mlb/downloads/y2010/official_rules/2010_OfficialBaseballRules.pdf.  See especially Diagram No. 1, page 3.
  102. "Law 7 (The pitch)". Marylebone Cricket Club. October 2010. http://www.lords.org/laws-and-spirit/laws-of-cricket/laws/law-7-the-pitch,33,AR.html. 
  103. "Animal Records". Smithsonian National Zoological Park. http://nationalzoo.si.edu/Animals/AnimalRecords/. 
  104. Curtice, Brian (2021). "New Dry Mesa Dinosaur Quarry Supersaurus vivianae (Jensen 1985) axial elements provide additional insight into its phylogenetic relationships and size, suggesting an animal that exceeded 39 meters in length". https://vertpaleo.org/wp-content/uploads/2021/10/SVP_2021_VirtualBook_final.pdf#page91. 
  105. "Longest Animal". Guinness World Records. https://www.guinnessworldrecords.com/world-records/longest-animal/. 
  106. "Driver Location Signs – Frequently Asked Questions". Highways Agency. http://www.highways.gov.uk/business/16049.htm. 
  107. "Kingda Ka (Six Flags Great Adventure)". https://rcdb.com/2832.htm. 
  108. "Eiffel Tower grows six metres after new antenna attached". 15 March 2022. https://www.reuters.com/world/europe/eiffel-tower-grows-six-metres-after-new-antenna-attached-2022-03-15/. 
  109. Campbell, Marilyn (17 February 2018). "How Tall is the CN Tower?". TripSavvy. https://www.tripsavvy.com/how-tall-is-the-cn-tower-3251128. 
  110. "Burj Dubai all set for 09/09/09 soft opening". Emirates Business 24-7. http://www.business24-7.ae/articles/2009/1/pages/01182009_63dc3a90c9a848219058be301f3f7ded.aspx. 
  111. "Tallest tree in the world: coast redwood". https://www.monumentaltrees.com/en/trees/coastredwood/coastredwood/. 
  112. "The rubble-pile asteroid Itokawa as observed by Hayabusa". Science 312 (5778): 1330–4. June 2006. doi:10.1126/science.1125841. PMID 16741107. Bibcode2006Sci...312.1330F. 
  113. "long wave". Oxford Dictionaries. https://en.oxforddictionaries.com/definition/long_wave. "wavelength above one kilometre (and a frequency below 300 kHz)" 
  114. "Golden Gate Bridge official website". http://goldengatebridge.org/research/factsGGBDesign.php#length. 
  115. "Nautical mile". Merriam-Webster Dictionary. https://www.merriam-webster.com/dictionary/nautical+mile. Retrieved 12 March 2011. 
  116. Akashi Kaikyo Bridge @ Everything2.com, Everything2, 9 September 2002, https://everything2.com/title/Akashi%2520Kaikyo%2520Bridge, retrieved 19 April 2009 
  117. Friedl, Jeffrey (9 December 2008), Supporting the Longest Suspension Bridge in the World, http://regex.info/blog/2008-12-09/1021, retrieved 19 April 2009 
  118. New height of world's railway born in Tibet, Xinhua News Agency, 24 August 2005, http://news.xinhuanet.com/english/2005-08/24/content_3397297.htm, retrieved 19 April 2009 
  119. "GeoNames.org". http://www.geonames.org/3899159/cerro-aucanquilcha.html. 
  120. "Russians in landmark Baikal dive". BBC News. 29 July 2008. http://news.bbc.co.uk/2/hi/europe/7530230.stm. "current record of 1,637m was set in Lake Baikal in the 1990s" 
  121. "Kosciuszko National Park lookouts and scenery". Office of Environment & Heritage: NSW National Parks & Wildlife Service. https://www.nationalparks.nsw.gov.au/visit-a-park/parks/kosciuszko-national-park#WallacesCreeklookout. 
  122. "Carstensz Pyramid details". Carstensz Pyramid Site. http://carstenszpyramid.org/. 
  123. "Königreich Frankreich" (in de). 16 September 2009. http://home.fonline.de/fo0126/geschichte/groessen/mas10.htm.  (Website based on Alte Meß- und Währungssysteme aus dem deutschen Sprachgebiet, ISBN:3-7686-1036-5)
  124. The Edinburgh Encyclopædia. 12. Edinburgh, UK: William Blackwood, John Waugh, John Murray, Baldwin & Cradock, J. M. Richardson. 1830. p. 494. https://books.google.com/books?id=0bIkTUZAbxcC. Retrieved 9 October 2015. 
  125. The Edinburgh Encyclopaedia. 12 (1st American ed.). Joseph and Edward Parker. 1832. https://books.google.com/books?id=17RGAQAAIAAJ&pg=PA572. Retrieved 9 October 2015. 
  126. (in de) Polytechnisches Journal. 11. Stuttgart, Germany: J.W. Gotta'schen Buchhandlung. 1823. https://books.google.com/books?id=wF3zAAAAMAAJ&pg=PA500. Retrieved 9 October 2015. 
  127. Haugen, Einar, Norwegian English Dictionary, 1965, Oslo: Universitetsforlaget and Madison: University of Wisconsin Press, s.v. mil
  128. "What is a farsakh or farsang?". https://sizes.com/units/farsakh.htm. 
  129. "IAAF Competition Rules 2008". IAAF. p. 195. http://www.iaaf.org/mm/Document/imported/42192.pdf. 
  130. Kennedy, Gregory. "Stratolab, an Evolutionary Stratospheric Balloon Project". http://stratocat.com.ar/artics/stratolab-e.htm. 
  131. Wise, Jeff (1 October 2009). "Turkey Building the World's Deepest Immersed Tube Tunnel". https://www.popularmechanics.com/technology/design/a1689/4217338/. 
  132. "Facts and History about the Panama Canal". http://panamacanalfacts.com/facts-about-the-panama-canal/. 
  133. Highest and lowest points on Mars NASA
  134. Plescia, Jeff (1 October 1997). "Height of Martian vs. Earth mountains". http://quest.arc.nasa.gov/mars/ask/terrain-geo/Height_of_Martian_vs__Earth_mountains.txt. 
  135. "High Speed 1 Project Hoem". Betchel Corporation. https://www.bechtel.com/projects/high-speed-1/. 
  136. "Bordeaux-Paris | the event". http://www.bordeauxparis.com/en/the-event/. 
  137. "FAQ-Alaska Highway Facts". The MILEPOST. http://www.milepost.com/faq/hwy_drivingfacts.shtml. "1,390 miles ... Alaska Route 2 and often treated as a natural extension of the Alaska Highway" 
  138. Downward, R.J.; Bromell, J.E. (March 1990). "Proceedings of the Fourteenth Vertebrate Pest Conference 1990". Proceedings of the Fourteenth Vertebrate Pest Conference 1990. University of Nebraska - Lincoln. http://digitalcommons.unl.edu/vpc14/23/. Retrieved 31 August 2009. 
  139. "China's Great Wall far longer than thought: survey". AFP. 20 April 2009. https://www.google.com/hostednews/afp/article/ALeqM5hZntU8l3vH1I21vcievtc-QIryLA. 
  140. CIS railway timetable, route No. 002, Moscow-Vladivostok. Archived 3 December 2009.
  141. CIS railway timetable, route No. 350, Kyiv-Vladivostok. Archived 3 December 2009.
  142. McGourty, Christine (14 December 2005). "Hubble finds mass of white dwarf". BBC News. http://news.bbc.co.uk/2/hi/science/nature/4528586.stm. 
  143. NASA Staff (10 May 2011). "Solar System Exploration – Earth's Moon: Facts & Figures". NASA. http://solarsystem.nasa.gov/planets/profile.cfm?Display=Facts&Object=Moon. 
  144. "Sun Fact Sheet". https://nssdc.gsfc.nasa.gov/planetary/factsheet/sunfact.html. 
  145. Akeson, Rachel; Beichman, Charles; Kervella, Pierre; Fomalont, Edward; Benedict, G. Fritz (2021). "Precision Millimeter Astrometry of the α Centauri AB System". The Astronomical Journal 162 (1): 14. doi:10.3847/1538-3881/abfaff. Bibcode2021AJ....162...14A. 
  146. Liebert, James; Young, Patrick A.; Arnett, David; Holberg, J. B.; Williams, Kurtis A. (2005). "The Age and Progenitor Mass of Sirius B". The Astrophysical Journal 630 (1): L69–L72. doi:10.1086/462419. Bibcode2005ApJ...630L..69L. 
  147. Neuroscience: The Science of the Brain"IBRO Brain Campaign". http://www.braincampaign.org/Pub/Pub_Main_Display.asp?LC_Docs_ID%3D2769.  p.44
  148. Yoon, Jinmi; Peterson, Deane M.; Kurucz, Robert L.; Zagarello, Robert J. (2010). "A New View of Vega's Composition, Mass, and Age". The Astrophysical Journal 708 (1): 71–79. doi:10.1088/0004-637X/708/1/71. Bibcode2010ApJ...708...71Y. https://doi.org/10.1088%2F0004-637X%2F708%2F1%2F71. 
  149. Baines, Ellyn K.; Armstrong, J. Thomas; Schmitt, Henrique R.; Zavala, R. T.; Benson, James A.; Hutter, Donald J.; Tycner, Christopher; Belle, Gerard T. van (2017). "Fundamental Parameters of 87 Stars from the Navy Precision Optical Interferometer". The Astronomical Journal 155: 30. doi:10.3847/1538-3881/aa9d8b. 
  150. Ramírez, I.; Allende Prieto, C. (2011). "Fundamental Parameters and Chemical Composition of Arcturus". The Astrophysical Journal 743 (2): 135. doi:10.1088/0004-637X/743/2/135. Bibcode2011ApJ...743..135R. 
  151. Moravveji, Ehsan; Guinan, Edward F; Shultz, Matt; Williamson, Michael H; Moya, Andres (4 January 2012). "Asteroseismology of the Nearby SN-II Progenitor: Rigel Part I. The MOST High Precision Photometry and Radial Velocity Monitoring". Astrophysical Journal 747 (2): 2. doi:10.1088/0004-637X/747/2/108. Bibcode2012ApJ...747..108M. 
  152. Richichi, A.; Roccatagliata, V.; Shultz, Matt; Williamson, Michael H.; Moya, Andres (2005). "Aldebaran's angular diameter: How well do we know it?". Astronomy & Astrophysics 433 (1): 305–312. doi:10.1051/0004-6361:20041765. Bibcode2005A&A...433..305R.  They derived an angular diameter of 20.58±0.03 milliarcsec, which given a distance of 65 light-years yields a diameter of 61 million km.
  153. Chesneau, O.; Dessart, L.; Mourard, D.; Bério, Ph.; Buil, Ch.; Bonneau, D.; Borges Fernandes, M.; Clausse, J. M. et al. (2010). "Time, spatial, and spectral resolution of the H α line-formation region of Deneb and Rigel with the VEGA/CHARA interferometer". Astronomy and Astrophysics 521: A5. doi:10.1051/0004-6361/201014509. Bibcode2010A&A...521A...5C. 
  154. Lau, R. M.; Herter, T. L.; Morris, M. R.; Adams, J. D. (2014). "Nature Versus Nurture: Luminous Blue Variable Nebulae in and Near Massive Stellar Clusters at the Galactic Center". The Astrophysical Journal 785 (2): 120. doi:10.1088/0004-637X/785/2/120. Bibcode2014ApJ...785..120L. 
  155. Joyce, Meridith; Leung, Shing-Chi; Molnár, László; Ireland, Michael; Kobayashi, Chiaki; Nomoto, Ken'Ichi (2020). "Standing on the Shoulders of Giants: New Mass and Distance Estimates for Betelgeuse through Combined Evolutionary, Asteroseismic, and Hydrodynamic Simulations with MESA". The Astrophysical Journal 902 (1): 63. doi:10.3847/1538-4357/abb8db. Bibcode2020ApJ...902...63J. 
  156. Van Genderen, A. M.; Lobel, A.; Nieuwenhuijzen, H.; Henry, G. W.; De Jager, C.; Blown, E.; Di Scala, G.; Van Ballegoij, E. J. (2019). "Pulsations, eruptions, and evolution of four yellow hypergiants". Astronomy & Astrophysics 631: A48. doi:10.1051/0004-6361/201834358. Bibcode2019A&A...631A..48V. 
  157. Balan, Aurelian; Tycner, C.; Zavala, R. T.; Benson, J. A.; Hutter, D. J.; Templeton, M. (2010). "THE SPATIALLY RESOLVED Hα-EMITTING WIND STRUCTURE OF P CYGNI". The Astronomical Journal 139 (6): 2269–2278. doi:10.1088/0004-6256/139/6/2269. Bibcode2010AJ....139.2269B. 
  158. Bauer, W. H.; Gull, T. R.; Bennett, P. D. (2008). "Spatial Extension in the Ultraviolet Spectrum of Vv Cephei". The Astronomical Journal 136 (3): 1312. doi:10.1088/0004-6256/136/3/1312. Bibcode2008AJ....136.1312H. 
  159. 159.0 159.1 Shenoy, Dinesh; Humphreys, Roberta M.; Jones, Terry J.; Marengo, Massimo; Gehrz, Robert D.; Helton, L. Andrew; Hoffmann, William F.; Skemer, Andrew J. et al. (2016). "SEARCHING FOR COOL DUST IN THE MID-TO-FAR INFRARED: THE MASS-LOSS HISTORIES OF THE HYPERGIANTS μ Cep, VY CMa, IRC+10420, AND ρ Cas". The Astronomical Journal 151 (3): 51. doi:10.3847/0004-6256/151/3/51. Bibcode2016AJ....151...51S. 
  160. Kravchenko, K.; Chiavassa, A.; Van Eck, S.; Jorissen, A.; Merle, T.; Freytag, B.; Plez, B. (2019). "Tomography of cool giant and supergiant star atmospheres". Astronomy & Astrophysics 632: A28. doi:10.1051/0004-6361/201935809. 
  161. Chesneau, O.; Meilland, A.; Chapellier, E.; Millour, F.; Van Genderen, A. M.; Nazé, Y.; Smith, N.; Spang, A. et al. (2014). "The yellow hypergiant HR 5171 A: Resolving a massive interacting binary in the common envelope phase". Astronomy & Astrophysics 563: A71. doi:10.1051/0004-6361/201322421. Bibcode2014A&A...563A..71C. 
  162. Wittkowski, M; Abellan, F. J; Arroyo-Torres, B; Chiavassa, A; Guirado, J. C; Marcaide, J. M; Alberdi, A; De Wit, W. J et al. (28 September 2017). "Multi-epoch VLTI-PIONIER imaging of the supergiant V766 Cen: Image of the close companion in front of the primary". Astronomy & Astrophysics 1709: L1. doi:10.1051/0004-6361/201731569. Bibcode2017A&A...606L...1W. 
  163. Wittkowski, M.; Hauschildt, P.H.; Arroyo-Torres, B.; Marcaide, J.M. (5 April 2012). "Fundamental properties and atmospheric structure of the red supergiant VY CMa based on VLTI/AMBER spectro-interferometry". Astronomy & Astrophysics 540: L12. doi:10.1051/0004-6361/201219126. Bibcode2012A&A...540L..12W. 
  164. Parthasarathy, M. (2000). "Birth and early evolution of planetary nebulae". Bulletin of the Astronomical Society of India 28: 217–224. Bibcode2000BASI...28..217P. 
  165. radius = distance times sin(angular diameter/2) = 0.2 light-year. Distance = 3.3 ± 0.9 kly; angular diameter = 20 [[arcsec Orders of magnitude (length)onds]](Reed Balick)
  166. Szpir, Michael (May–June 2001). "Bart Bok's Black Blobs". American Scientist. http://www.americanscientist.org/template/AssetDetail/assetid/14678. "Bok globules such as Barnard 68 are only about half a light-year across and weigh in at about two solar masses" 
  167. Sandstrom, Karin M; Peek, J. E. G.; Bower, Geoffrey C.; Bolatto, Alberto D.; Plambeck, Richard L. (1999). "A Parallactic Distance of 389+24
    −21
    parsecs to the Orion Nebula Cluster from Very Long Baseline Array Observations". The Astrophysical Journal 667 (2): 1161–1169. doi:10.1086/520922. Bibcode2007ApJ...667.1161S.
     
  168. diameter=sin(65 arcminutes)*1270 light-years=24; where "65.00 × 60.0 (arcmin)" sourced from Revised NGC Data for NGC 1976
  169. distance × sin( diameter_angle ), using distance of 5kpc (15.8 ± 1.1 kly) and angle 36.3', = 172 ± 12.5 ly.
  170. van de Ven, G.; van den Bosch, R. C. E.; Verolme, E. K.; de Zeeuw, P. T. (2006). "The dynamical distance and intrinsic structure of the globular cluster ω Centauri". Astronomy and Astrophysics 445 (2): 513–543. doi:10.1051/0004-6361:20053061. Bibcode2006A&A...445..513V. "best-fit dynamical distance D=4.8±0.3 kpc ... consistent with the canonical value 5.0±0.2 kpc obtained by photometric methods". 
  171. 171.0 171.1 van Leeuwen, F. (2007). "Validation of the new Hipparcos reduction". Astronomy and Astrophysics 474 (2): 653–664. doi:10.1051/0004-6361:20078357. Bibcode2007A&A...474..653V.  Vizier catalog entry
  172. Harper, Graham M.; Brown, Alexander; Guinan, Edward F. (April 2008). "A New VLA-Hipparcos Distance to Betelgeuse and its Implications". The Astronomical Journal 135 (4): 1430–40. doi:10.1088/0004-6256/135/4/1430. Bibcode2008AJ....135.1430H. 
  173. Harris, Hugh C.; Dahn, Conard C.; Canzian, Blaise; Guetter, Harry H. et al. (2007). "Trigonometric Parallaxes of Central Stars of Planetary Nebulae". The Astronomical Journal 133 (2): 631–638. doi:10.1086/510348. Bibcode2007AJ....133..631H. 
  174. Reid, M. J. et al. (2009). "Trigonometric Parallaxes of Massive Star Forming Regions: VI. Galactic Structure, Fundamental Parameters and Non-Circular Motions". Astrophysical Journal 700 (1): 137–148. doi:10.1088/0004-637X/700/1/137. Bibcode2009ApJ...700..137R. 

External links