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* 38 microseconds – discrepancy in ] ] time per day (compensated by clock speed) due to ]{{hsp}}<ref>{{cite web | url=http://www.astronomy.ohio-state.edu/~pogge/Ast162/Unit5/gps.html | title= GPS and Relativity | access-date=2011-10-01 | author= Richard Pogge }}</ref> * 38 microseconds – discrepancy in ] ] time per day (compensated by clock speed) due to ]{{hsp}}<ref>{{cite web | url=http://www.astronomy.ohio-state.edu/~pogge/Ast162/Unit5/gps.html | title= GPS and Relativity | access-date=2011-10-01 | author= Richard Pogge }}</ref>
* 50 microseconds – cycle time for highest ] tone (20&nbsp;kHz) * 50 microseconds – cycle time for highest ] tone (20&nbsp;kHz)
* 50 microseconds – to read the access latency for a modern solid state drive which holds non-volatile computer data<ref>{{cite web| url = http://www.intel.com/content/dam/www/public/us/en/documents/product-specifications/ssd-dc-s3500-spec.pdf| title = Intel Solid State Drive Product Specification}}</ref> * 50 microseconds – to read the access latency for a modern solid state drive which holds non-volatile computer data<ref></ref>
* 100 microseconds (0.1&nbsp;ms) – cycle time for frequency 10 kHz * 100 microseconds (0.1&nbsp;ms) – cycle time for frequency 10 kHz
* 125 microseconds – sampling interval for telephone audio (8000 samples/s) * 125 microseconds – sampling interval for telephone audio (8000 samples/s)

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One millionth of a second
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This animation illustrates the generation of the debris and ejecta clouds after a spherical aluminium projectile impacts a thin aluminium plate at approximately 7 km/s. The frame interval is about 1 microsecond.

A microsecond is an SI unit of time equal to one millionth (0.000001 or 10 or 1⁄1,000,000) of a second. Its symbol is μs, sometimes simplified to us when Unicode is not available.

A microsecond is equal to 1000 nanoseconds or 1⁄1,000 of a millisecond. Because the next SI prefix is 1000 times larger, measurements of 10 and 10 seconds are typically expressed as tens or hundreds of microseconds.

Examples

  • 1 microsecond (1 μs) – cycle time for frequency 1×10 hertz (1 MHz), the inverse unit. This corresponds to radio wavelength 300 m (AM medium wave band), as can be calculated by multiplying 1 μs by the speed of light (approximately 3.00×10 m/s).
  • 1 microsecond – the length of time of a high-speed, commercial strobe light flash (see air-gap flash).
  • 1.8 microseconds – the amount of time subtracted from the Earth's day as a result of the 2011 Japanese earthquake.
  • 2 microseconds – the lifetime of a muonium particle
  • 2.68 microseconds – the amount of time subtracted from the Earth's day as a result of the 2004 Indian Ocean earthquake.
  • 3.33564095 microseconds – the time taken by light to travel one kilometre in a vacuum
  • 5.4 microseconds – the time taken by light to travel one mile in a vacuum (or radio waves point-to-point in a near vacuum)
  • 8.01 microseconds – the time taken by light to travel one mile in typical single-mode fiber optic cable
  • 10 microseconds (μs) – cycle time for frequency 100 kHz, radio wavelength 3 km
  • 18 microseconds – net amount per year that the length of the day lengthens, largely due to tidal acceleration.
  • 20.8 microseconds – sampling interval for digital audio with 48,000 samples/s
  • 22.7 microseconds – sampling interval for CD audio (44,100 samples/s)
  • 38 microseconds – discrepancy in GPS satellite time per day (compensated by clock speed) due to relativity
  • 50 microseconds – cycle time for highest human-audible tone (20 kHz)
  • 50 microseconds – to read the access latency for a modern solid state drive which holds non-volatile computer data
  • 100 microseconds (0.1 ms) – cycle time for frequency 10 kHz
  • 125 microseconds – sampling interval for telephone audio (8000 samples/s)
  • 164 microseconds – half-life of polonium-214
  • 240 microseconds – half-life of copernicium-277
  • 250 microseconds – cycle time for highest tone in telephone audio (4 kHz)
  • 260 to 480 microseconds - return trip ICMP ping time, including operating system kernel TCP/IP processing and answer time, between two gigabit ethernet devices connected to the same local area network switch fabric.
  • 277.8 microseconds – a fourth (a 60th of a 60th of a second), used in astronomical calculations by al-Biruni and Roger Bacon in 1000 and 1267 AD, respectively.
  • 489.67 microseconds – time for light at a 1550 nm frequency to travel 100 km in a singlemode fiber optic cable (where speed of light is approximately 200 million metres per second due to its index of refraction).
  • The average human eye blink takes 350,000 microseconds (just over 1⁄3 second).
  • The average human finger snap takes 150,000 microseconds (just over 1⁄7 second).
  • A camera flash illuminates for 1,000 microseconds.
  • Standard camera shutter speed opens the shutter for 4,000 microseconds or 4 milliseconds.
  • 584542 years of microseconds fit in 64 bits: (2**64)/(1e6*60*60*24*365.25)

See also

References

  1. Gross, R.S. (14 March 2014). "Japan quake may have shortened Earth days, moved axis". JPL News. Jet Propulsion Laboratory. Retrieved 23 August 2019.
  2. Cook-Anderson, Gretchen; Beasley, Dolores (January 10, 2005). "NASA Details Earthquake Effects on the Earth". NASA. Retrieved September 18, 2021.
  3. MacDonald, Fiona. "Earth's Days Are Getting 2 Milliseconds Longer Every 100 Years". ScienceAlert. Retrieved 2017-03-08.
  4. Richard Pogge. "GPS and Relativity". Retrieved 2011-10-01.
  5. Intel Solid State Drive Product Specification
  6. al-Biruni (1879). The chronology of ancient nations: an English version of the Arabic text of the Athâr-ul-Bâkiya of Albîrûnî, or "Vestiges of the Past". Translated by Sachau C Edward. W. H. Allen. pp. 147–149. OCLC 9986841.
  7. R Bacon (2000) . The Opus Majus of Roger Bacon. translator: BR Belle. University of Pennsylvania Press. table facing page 231. ISBN 978-1-85506-856-8.

External links

Orders of magnitude of time
by powers of ten
Negative powers
Positive powers
Category: