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	In ], the '''Planck time''' ({{math\|<var>t</var><sub>P</sub>}}) is the ] in the system of ] known as ]. A Planck unit is the ] required for ] to travel ~~in a ]~~ a distance of 1 ], which is approximately 5.39 × 10 <sup>−44</sup> s.<ref name="gsu_hbase">{{cite web \| url = http://hyperphysics.phy-astr.gsu.edu/hbase/astro/planck.html \| title = Big Bang models back to Planck time \| publisher = ] \| date = 19 June 2005}}</ref> The unit is named after ], who was the first to propose it.		In ], the '''Planck time''' ({{math\|<var>t</var><sub>P</sub>}}) is the ] in the system of ] known as ]. A Planck time unit is the ] required for ] to travel a distance of 1 ] in a ], which is a time interval of approximately 5.39 × 10 <sup>−44</sup> s.<ref name="gsu_hbase">{{cite web \| url = http://hyperphysics.phy-astr.gsu.edu/hbase/astro/planck.html \| title = Big Bang models back to Planck time \| publisher = ] \| date = 19 June 2005}}</ref> The unit is named after ], who was the first to propose it.

	The Planck time is defined as:<ref> – The ] Reference on Constants, Units, and Uncertainty.</ref>		The Planck time is defined as:<ref> – The ] Reference on Constants, Units, and Uncertainty.</ref>

Revision as of 22:51, 25 January 2019

In quantum mechanics, the Planck time (t_P) is the unit of time in the system of natural units known as Planck units. A Planck time unit is the time required for light to travel a distance of 1 Planck length in a vacuum, which is a time interval of approximately 5.39 × 10 s. The unit is named after Max Planck, who was the first to propose it.

The Planck time is defined as:

t_{\mathrm {P} }\equiv {\sqrt {\frac {\hbar G}{c^{5}}}}

where:

ħ = h⁄2π is the reduced Planck constant (sometimes h is used instead of ħ in the definition)

G = gravitational constant

c = speed of light in vacuum

Using the known values of the constants, the approximate equivalent value in terms of the SI unit, the second, is

1\ t_{\mathrm {P} }\approx 5.391\,16(13)\times 10^{-44}\ \mathrm {s} ,

where the two digits between parentheses denote the standard error of the approximated value.

History

The Planck time (also known as Planck second) was first suggested by Max Planck in 1899. He suggested that there existed some fundamental natural units for length, mass, time and energy. Planck derived these using dimensional analysis only using what he considered the most fundamental universal constants: the speed of light, the Newton gravitational constant and the Planck constant. The Planck time is by many physicists considered to be the shortest possible measurable time interval; however, this is still a matter of debate.

Physical significance

The Planck time is the unique combination of the gravitational constant G, the special-relativistic constant c, and the quantum constant ħ, to produce a constant with dimension of time. Because the Planck time comes from dimensional analysis, which ignores constant factors, there is no reason to believe that exactly one unit of Planck time has any special physical significance. Rather, the Planck time represents a rough time scale at which quantum gravitational effects are likely to become important. This essentially means that whilst smaller units of time can exist, they are so small their effect on our existence is negligible. The nature of those effects, and the exact time scale at which they would occur, would need to be derived from an actual theory of quantum gravity.

The reciprocal of the Planck time, which is Planck frequency, can be interpreted as an upper bound on the frequency of a wave. This follows from the interpretation of the Planck length as a minimal length, and hence a lower bound on the wavelength.

All scientific experiments and human experiences occur over time scales that are dozens of orders of magnitude longer than the Planck time, making any events happening at the Planck scale undetectable with current scientific knowledge. As of November 2016, the smallest time interval uncertainty in direct measurements is on the order of 850 zeptoseconds (8.50 × 10 seconds)

References

^ "Big Bang models back to Planck time". Georgia State University. 19 June 2005.
CODATA Value: Planck Time – The NIST Reference on Constants, Units, and Uncertainty.
M. Planck. Naturlische Masseinheiten. Der Koniglich Preussischen Akademie Der Wissenschaften, p. 479, 1899
"First Second of the Big Bang". How The Universe Works 3. 2014. Discovery Science.
"Scientists have measured the smallest fragment of time ever". 12 May 2010. Retrieved 19 April 2012.

External links

"Planck Era" and "Planck Time" (up to 10 seconds after birth of Universe) (University of Oregon).

Template:Planck's natural units

v t e Time measurement and standards
Chronometry Orders of magnitude Metrology
International standards	Coordinated Universal Time offset UT ΔT DUT1 International Earth Rotation and Reference Systems Service ISO 31-1 ISO 8601 International Atomic Time 12-hour clock 24-hour clock Barycentric Coordinate Time Barycentric Dynamical Time Civil time Daylight saving time Geocentric Coordinate Time International Date Line IERS Reference Meridian Leap second Solar time Terrestrial Time Time zone 180th meridian
Obsolete standards	Ephemeris time Greenwich Mean Time Prime meridian
Time in physics	Absolute space and time Spacetime Chronon Continuous signal Coordinate time Cosmological decade Discrete time and continuous time Proper time Theory of relativity Time dilation Gravitational time dilation Time domain Time-translation symmetry T-symmetry
Horology	Clock Astrarium Atomic clock Complication History of timekeeping devices Hourglass Marine chronometer Marine sandglass Radio clock Watch stopwatch Water clock Sundial Dialing scales Equation of time History of sundials Sundial markup schema
Calendar	Gregorian Hebrew Hindu Holocene Islamic (lunar Hijri) Julian Solar Hijri Astronomical Dominical letter Epact Equinox Intercalation Julian day Leap year Lunar Lunisolar Solar Solstice Tropical year Weekday determination Weekday names
Archaeology and geology	Chronological dating Geologic time scale International Commission on Stratigraphy
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Other units of time	Instant Flick Shake Jiffy Second Minute Moment Hour Day Week Fortnight Month Year Olympiad Lustrum Decade Century Saeculum Millennium
Related topics	Chronology Duration music Mental chronometry Decimal time Metric time System time Time metrology Time value of money Timekeeper

v t e Orders of magnitude of time
by powers of ten
Negative powers	<1 attosecond attosecond femtosecond picosecond nanosecond microsecond millisecond
Positive powers	second kilosecond megasecond gigasecond terasecond and longer

Time

Key concepts

Measurement
and standards

Chronometry	UTC UT TAI Unit of time Orders of magnitude (time)
Measurement systems	Italian six-hour clock Thai six-hour clock 12-hour clock 24-hour clock Relative hour Daylight saving time Chinese Decimal Hexadecimal Hindu Metric Roman Sidereal Solar Time zone
Calendars	Main types Solar Lunar Lunisolar Gregorian Julian Hebrew Islamic Solar Hijri Chinese Hindu Panchang Maya List
Clocks	Main types astronomical astrarium atomic quantum hourglass marine sundial watch mechanical stopwatch water-based Cuckoo clock Digital clock Grandfather clock History Timeline

Philosophy of time

Human experience
and use of time

Time in science

Geology	Geological time age chron eon epoch era period Geochronology Geological history of Earth
Physics	Absolute space and time Arrow of time Chronon Coordinate time Instant Proper time Spacetime Theory of relativity Time domain Time translation symmetry Time reversal symmetry
Other fields	Chronological dating Chronobiology Circadian rhythms Clock reaction Glottochronology Time geography

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Revision as of 00:46, 12 December 2018 editUninvitedCompany (talk \| contribs)Bureaucrats, Administrators11,115 editsm (HG) (3.4.4)Tags: Huggle Rollback ← Previous edit		Revision as of 22:51, 25 January 2019 edit undoJ Mark Morris (talk \| contribs)124 edits Revised wording for clarity.Next edit →
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	{{Use dmy dates\|date=May 2011}}		{{Use dmy dates\|date=May 2011}}

	In ], the '''Planck time''' ({{math\|<var>t</var><sub>P</sub>}}) is the ] in the system of ] known as ]. A Planck unit is the ] required for ] to travel ~~in a ]~~ a distance of 1 ], which is approximately 5.39 × 10 <sup>−44</sup> s.<ref name="gsu_hbase">{{cite web \| url = http://hyperphysics.phy-astr.gsu.edu/hbase/astro/planck.html \| title = Big Bang models back to Planck time \| publisher = ] \| date = 19 June 2005}}</ref> The unit is named after ], who was the first to propose it.		In ], the '''Planck time''' ({{math\|<var>t</var><sub>P</sub>}}) is the ] in the system of ] known as ]. A Planck time unit is the ] required for ] to travel a distance of 1 ] in a ], which is a time interval of approximately 5.39 × 10 <sup>−44</sup> s.<ref name="gsu_hbase">{{cite web \| url = http://hyperphysics.phy-astr.gsu.edu/hbase/astro/planck.html \| title = Big Bang models back to Planck time \| publisher = ] \| date = 19 June 2005}}</ref> The unit is named after ], who was the first to propose it.

	The Planck time is defined as:<ref> – The ] Reference on Constants, Units, and Uncertainty.</ref>		The Planck time is defined as:<ref> – The ] Reference on Constants, Units, and Uncertainty.</ref>

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