List of examples of lengths

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Main page: Orders of magnitude (length)
Planets of the Solar System to scale

This is a list of examples of lengths, in metres in order to give an understanding of lengths.

Shorter than 1 ym

1 ym to 1 zm

1 zm to 1 am

  • 1×10−21 metres = 1 zm = 1 zeptometre = 1000 yoctometres
  • 2×10−21 metres = radius of effective cross section for a 20 GeV neutrino scattering off a nucleon[2]
  • 7×10−21 metres = radius of effective cross section for a 250 GeV neutrino scattering off a nucleon[2]
  • 1×10−20 metres = 10 zm
  • 1×10−19 metres = 100 zm
  • 310 zm — de Broglie wavelength of protons at the Large Hadron Collider (4 TeV as of 2012)

1 am to 1 fm

1 fm to 1 pm

1 picometre

Lengths between 10−12 and 10−11 m (1 and 10 pm).

10 picometres

Lengths between 10−11 and 10−10 m (10 pm and 100 pm).

100 picometres

Lengths between 10−10 and 10−9 m (100 pm and 1 nm).

10 nanometres 1x10−9m

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.[12]

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

  • 10 nm = 10 nanometres = 10−8 metres
  • 10 nm — lower size of tobacco smoke[13]
  • 10 nm Shortest extreme ultraviolet wavelength or longest X-ray wavelength[14]
  • 11 nm — the average half-pitch of a memory cell speculated to be manufactured in 2015.
  • 16 nm — technology is projected to be reached by semiconductor companies in the 2013 timeframe
  • 18 nm — diameter of tobacco mosaic virus[15] (Generally, viruses range in size from 20 nm to 450 nm.)[citation needed]
  • 20 nm — width of bacterial flagellum[16]
  • 20 nm to 80 nm — thickness of cell wall in Gram-positive bacteria[17]
  • 22 nm — Smallest feature size of production microprocessors in September 2009[18]
  • 22 nm — the average half-pitch of a memory cell expected to be manufactured at around the 2011–2011 time frame.
  • 30 nm — lower size of cooking oil smoke[13]
  • 32 nm — the average half-pitch of a memory cell manufactured at around the 2009–2010 time frame.
  • 45 nm — the average half-pitch of a memory cell manufactured at around the 2007–2008 time frame.
  • 50 nm — upper size for airborne virus particles[13]
  • 50 nm — flying height of the head of a hard disk[19]
  • 65 nm — the average half-pitch of a memory cell manufactured at around the 2005–2006 time frame.
  • 90 nm — the average half-pitch of a memory cell manufactured at around the 2002–2003 time frame.
  • (ranges from 7 to 3000 nanometres)[13]

100 nanometres

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[20]
  • 120 nm — diameter of a human immunodeficiency virus (HIV) [21]
  • 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
  • 400–420 nm — wavelength of violet light
  • 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
  • 700–1400 nm — wavelength of near-infrared radiation

1 micrometre

A clickable mosaic of objects at scales within direct human experience, from the micrometric (106 m, top left) to the multi-kilometric (105 m, bottom right).

To help compare different orders of magnitude this page lists some items with lengths between 10−6 and 10−5 m (between 1 and 10 micrometres, or µm).

  • ~0.7–300 µm — Wavelength of infrared radiation
  • 1 µm — the side of square of area 10−12 m2
  • 1 µm — edge of cube of volume 10−18 m3 (one femtolitre)
  • 1–10 µm — diameter of a typical bacterium
  • 1.55 µm — wavelength of light used in optical fibre
  • 3–4 µm — size of a typical yeast cell
  • 5 µm — length of a typical human spermatozoon's head[22]
  • 6 µm — anthrax spore
  • 7 µm — diameter of the nucleus of a typical eukaryotic cell
  • about 7 μm — diameter of human red blood cells[23]
  • 3–8 µm — width of strand of spider web silk[24]
  • 8 µm — width of a chloroplast
  • 9 µm — thickness of the tape in a 120-minute compact cassette.
  • about 10 µm — size of a fog, mist or cloud water droplet

10 micrometres

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

  • 10 µm — width of cotton fibre[25]
  • 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
  • 5–20 µm — dust mite excreta[26]
  • 10.6 µm — wavelength of light emitted by a carbon dioxide laser
  • 15 µm — width of silk fibre
  • 16 µm — diameter of a micromirror in a typical Digital micromirror device
  • 17 µm — length of a tobacco mosaic virus
  • 17 µm — minimum width of a strand of human hair[27]
  • 17.6 µm — one twip, a unit of length in typography
  • 10 to 55 µm — width of wool fibre[25]
  • 25.4 µm — 1/1000 inch, commonly referred to as 1 mil in the U.S. and 1 thou in the UK
  • 50 µm — typical length of Euglena gracilis, a flagellate protist
  • 50 µm — typical length of a human liver cell, an average-sized body cell
  • 78 µm — width of a pixel on the display of the iPhone 4, marketed as Retina Display[28]
  • 90 µm — paper thickness in average
  • 1 myriometre, Distances shorter than 100 µm

100 micrometres

To help compare different orders of magnitude, this page lists lengths between 10−4 and 10−3 m (100 µm and 1 mm).

  • 100 µm – 1/10 of a millimetre
  • 100 µm – 0.00394 inches
  • 100 µm – average diameter of a strand of human hair[27]
  • 100 µm – thickness of a coat of paint
  • 100 µm – length of a dust particle
  • 120 µm – diameter of a human ovum
  • 170 µm – length of the largest mammalian sperm cell (rat)[29]
  • 181 µm – maximum width of a strand of human hair[27]
  • 100–400 µm – length of Demodex mites living in human hair follicles
  • 200 µm – typical length of Paramecium caudatum, a ciliate protist
  • 250–300 µm – length of a dust mite[30]
  • 340 µm – length of a single pixel on a 17-inch monitor with a resolution of 1024×768
  • 500 µm – typical length of Amoeba proteus, an amoeboid protist
  • 560 µm - thickness of the central area of a human cornea[31]
  • 760 µm – thickness of a credit card

1 millimeter

To help compare different orders of magnitude this page lists lengths between 10−3 and 10−2 m (1 mm and 1 cm).

  • 1.0 mm — 1/1000 of a metre
  • 1.0 mm — 0.03937 inches or ​5127 (exactly)
  • 1.0 mm — side of square of area 1 mm2
  • 1.0 mm — diameter of a pinhead
  • 1.5 mm — length of average flea
  • 2.54 mm — distance between pins on old DIP (dual-inline-package) electronic components
  • 5 mm — length of average red ant
  • 5.56×45mm NATO — standard ammunition size
  • 7.62×51mm NATO — common military ammunition size

1 centimeter

A clickable mosaic of objects at scales within direct human experience, from the micrometric (106 m, top left) to the multi-kilometric (105 m, bottom right).

Lengths between 10−2 and 10−1 m (1 and 10 cm).

  • 1 cm — 10 millimetres
  • 1 cm — 0.39 inches
  • 1 cm — edge of square of area 1 cm2
  • 1 cm — edge of cube of volume 1 ml
  • 1 cm — approximate width of average fingernail
  • 1.5 cm — length of a very large mosquito
  • 2 cm — approximate width of an adult human finger
  • 2.54 cm — 1 inch
  • 3.1 cm — 1 attoparsec (10−18 parsecs)
  • 3.5 cm — width of film commonly used in motion pictures and still photography
  • 4.3 cm — minimum diameter of a golf ball[32]
  • 7.3-7.5 cm — diameter of a baseball[33]
  • 8.6 cm × 5.4 cm — dimensions of a typical credit card[34]

1 decimetre

Lengths between 10 and 100 centimetres (10−1 and 1 metre).

Conversions

10 centimetres (abbreviated to 10 cm) is equal to

Wavelengths

  • 10 cm = 1.0 dm[note 1] – 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 soccer ball
  • 30.48 cm = 3.048 dm — 1 foot
  • 30 cm = 3 dm — typical school-use ruler length (= 300 mm)
  • 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[35]
  • 91.44 cm = 9.144 dm — one yard
  • Cigarettes 100 mm (4 in) in length

Nature

  • 29.98 cm = distance light travels in one nanosecond
  • 56 cm = 5.6 dm — the length of the average erect horse pеnis
  • 66 cm — length of the longest pine cones (produced by the sugar pine[36])

Longer

  1. 1 metre
  2. 1 decametre
  3. 1 hectometre
  4. 1 kilometre
  5. 1 myriametre
  6. 100 kilometres
  7. 1 megametre
  8. 10 megametres
  9. 100 megametres

1 gigametre

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Upper part: Gamma Orionis, Algol B, the Sun (centre), underneath their darker mirror images (artist's interpretation), and other objects, to scale.

Lengths starting at 109 metres (1 gigametre (Gm) or 1 million kilometres).

Distances shorter than 109 metres

  • 1.4 Gm — Diameter of Sun[37]
  • 1.5 Gm — (proposed) Expected orbit from Earth of the James Webb Space Telescope
  • 2.19 Gm — Closest approach of Comet Lexell to Earth, happened on 1 July 1770; closest comet approach on record
  • 3 Gm — Total length of "wiring" in the human brain.[38]
  • 4.2 Gm — Diameter of Algol B
  • 5.0 Gm — Closest approach of Comet Halley to Earth, happened on 10 April 837
  • 5.0 Gm — (proposed) Size of the arms of the giant triangle shaped Michelson interferometer of the Laser Interferometer Space Antenna (LISA) planned to start observations in or around 2015.
  • 7.9 Gm — Diameter of Gamma Orionis
  • 9.0 Gm — Estimated diameter of the event horizon of Sagittarius A*, the supermassive black hole in the center of the Milky Way galaxy

Longer

  1. 10 gigametres
  2. 100 gigametres
  3. 1 terametre
  4. 10 terametres
  5. 100 terametres
  6. 1 light year
  7. 1 petametre
  8. 10 petametres
  9. 100 petametres
  10. 1 exametre
  11. 10 exametres
  12. 100 exametres
  13. 1 zettametre
  14. 10 zettametres
  15. 100 zettametres
  16. 1 yottametre
  17. 10 yottametres
  18. 100 yottametres
  19. 1 ronnametre
  20. 10 ronnametres
  21. 100 ronnametres
  22. 1 quettametre
  23. 10 quettametres
  24. 100 quettametres

See also

Notes

  1. 1.0 1.1 1.2 m is an abbreviation of metre; cm of centimetre; dm of decimetre; m2 is short for square metre; m3 is short for cubic metre

References

  1. Nave, Carl R.. "Cowan and Reines Neutrino Experiment". http://hyperphysics.phy-astr.gsu.edu/hbase/particles/cowan.html#c1. Retrieved 2008-12-04.  (6.3×10−44 cm2, which gives an effective radius of about 2×10−23 m)
  2. 2.0 2.1 Nave, Carl R.. "Neutron Absorption Cross-sections". http://hyperphysics.phy-astr.gsu.edu/hbase/particles/neutrino3.html#c2. Retrieved 2008-12-04.  (area for 20 GeV about 1×10−41 m2 gives effective radius of about 2×10−21 m; for 250 GeV about 1.5×10−40 m2 gives effective radius of about 7×10−21 m)
  3. Pohl, Randolf et al. (8 July 2010). "The size of the proton". Nature 466 (7303): 213–216. doi:10.1038/nature09250. PMID 20613837. Bibcode2010Natur.466..213P. https://rdcu.be/bYa2m. 
  4. 4.0 4.1 Nave, Carl R.. "Scattering Cross Section". http://hyperphysics.phy-astr.gsu.edu/hbase/nuclear/crosec.html. Retrieved 2009-02-10. 
  5. NIST. CODATA Value: classical electron radius. Retrieved 2009-02-10
  6. 6.0 6.1 6.2 Winter, Mark (2008). "WebElements Periodic Table of the Elements / Hydrogen / radii". Archived from the original on 18 December 2008. https://web.archive.org/web/20081218213512/http://www.webelements.com/hydrogen/atom_sizes.html. Retrieved 2008-12-06. 
  7. 7.0 7.1 Winter, Mark (2008). "WebElements Periodic Table of the Elements / Helium / radii". Archived from the original on 19 December 2008. https://web.archive.org/web/20081219030040/http://www.webelements.com/helium/atom_sizes.html. Retrieved 2008-12-06. 
  8. "Research & Development World". http://rdmag.com/Community/Blogs/RDBlog/Twists-and-turns-keep-TEM-on-top/. 
  9. Winter, Mark (2008). "WebElements Periodic Table of the Elements / Sulfur / Radii". Archived from the original on 11 December 2008. https://web.archive.org/web/20081211084435/http://www.webelements.com/sulfur/atom_sizes.html. Retrieved 2008-12-06. 
  10. Winter, Mark (2008). "WebElements Periodic Table of the Elements / Periodicity / Van der Waals radius / periodicity". Archived from the original on 19 December 2008. https://web.archive.org/web/20081219170602/http://www.webelements.com/periodicity/van_der_waals_radius/. Retrieved 2008-12-06. 
  11. "Resolution of an Electron Microscope". Archived from the original on 2009-03-16. https://web.archive.org/web/20090316071444/http://hypertextbook.com/facts/2000/IlyaSherman.shtml. Retrieved 2009-04-25. 
  12. Smith, Graham T. (2002). Industrial metrology. Springer. pp. 253. ISBN 978-1-85233-507-6. https://archive.org/details/industrialmetrol00mphi. 
  13. 13.0 13.1 13.2 13.3 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)
  14. Introduction to the Electromagnetic Spectrum and Spectroscopy
  15. Stryer, Lubert (1988). Biochemistry. San Francisco: W.H. Freeman. ISBN 0-7167-1843-X. https://archive.org/details/biochemistry3rdedi00stry. 
  16. "The bacterial flagellar motor: structure and function of a complex molecular machine". Int Rev Cytol. International Review of Cytology 233: 93–134. 2004. doi:10.1016/S0074-7696(04)33003-2. ISBN 978-0-12-364637-8. PMID 15037363. 
  17. Microbiology Text.com
  18. "Moore's Law Marches on at Intel". http://www.physorg.com/news172852816.html. 
  19. "Hard drive basics: Capacities, RPM speeds, interfaces and mechanics". http://www.helpwithpcs.com/courses/hard-drive-mechanics.htm. 
  20. Electrospray versus Nebulization for Aerosolization and Filter Testing with Bacteriophage Particles. Aerosol Science and Technology, Volume 43, Issue 4 April 2009, pages 298 - 304.
  21. Sinha, Sanjeev; Bhoveshwaranath, G; Gupta, Sneha (18 November 2009). "Antiretroviral Drugs and Drug Therapy of HIV/AIDS". in Seth, SD; Seth, Vimlesh. Textbook Of Pharmacology. Elsevier India. p. X.111. ISBN 9788131211588. https://books.google.com/books?id=51ozlZRBvQwC&pg=SL24-PA111. 
  22. 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. 
  23. DNA From The Beginning, section 6: Genes are real things., "Amination" section, final slide
  24. Ramel, Gordon. "Spider Silk". Archived from the original on 4 December 2008. https://web.archive.org/web/20081204080140/http://www.earthlife.net/chelicerata/silk.html. Retrieved 2008-12-04. "garden spider silk has a diameter of about 0.003 mm ... Dragline silk (about .00032 inch (.008 mm) in Nephila)" 
  25. 25.0 25.1 IST - Innovative Sintering Technologies Ltd.. "Fibreshape applications". http://www.istag.ch/fibres/applications.html. Retrieved 2008-12-04. "Histogram of cotton thickness" 
  26. Lippmann, Morton (2000). Environmental Toxicants: Human Exposures and Their Health Effects. John Wiley and Sons. pp. 453. ISBN 0-471-29298-2. https://books.google.com/books?id=7eCXlRbCeGAC. Retrieved 2008-12-04. "20 µm .. 5 µm" 
  27. 27.0 27.1 27.2 The diameter of a 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. Retrieved 2018-12-08. 
  28. "Apple – iPhone 4S – See everything clearly with the Retina display". Apple Inc. Official Website. Apple Inc.. https://www.apple.com/iphone/features/retina-display.html. Retrieved 10 March 2012. 
  29. Lindemann, Charles. "Sperm Facts". Oakland University. http://www2.oakland.edu/biology/lindemann/spermfacts.htm. 
  30. Lyon, William F.. "House Dust Mites". Archived from the original on 2 November 2001. https://web.archive.org/web/20011102080548/http://ohioline.osu.edu/hyg-fact/2000/2157.html. 
  31. Liu, Z.; Huang, A. J.; Pflugfelder, S. C. (July 1999). "Evaluation of corneal thickness and topography in normal eyes using the Orbscan corneal topography system". Br J Ophthalmol 83 (7): 774–8. doi:10.1136/bjo.83.7.774. PMID 10381661. 
  32. "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/. Retrieved 2011-09-30. 
  33. "Official Rules". MLB. http://mlb.mlb.com/mlb/official_info/official_rules/objectives_1.jsp. Retrieved 2011-09-30. 
  34. "Credit Card Dimensions". http://www.dimensionsguide.com/credit-card-dimensions/. Retrieved 2011-09-30. 
  35. http://www.2-clicks-swords.com/article/what-is-a-rapier.html
  36. Kinloch, Bohun B. Jr.; Scheuner, William H.. "Pinus lambertiana". Archived from the original on 8 June 2011. https://web.archive.org/web/20110608015717/http://www.na.fs.fed.us/Spfo/pubs/silvics_manual/Volume_1/pinus/lambertiana.htm. Retrieved 8 June 2011. 
  37. Sun Fact Sheet
  38. Neuroscience: The Science of the Brain "IBRO Brain Campaign". Archived from the original on 2011-02-02. https://web.archive.org/web/20110202081347/http://www.braincampaign.org/Pub/Pub_Main_Display.asp?LC_Docs_ID=2769. Retrieved 2011-06-08.  p.44



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