Orders_of_magnitude

Orders of magnitude (pressure)

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Orders of magnitude

area

angular velocity

charge

currency

data

density

energy

frequency

length

magnetic flux density

mass

numbers

power

pressure

specific energy density

specific heat capacity

speed

temperature

time

volume

Conversion of units

physical unit

SI

SI base unit

SI derived unit

SI prefix

Planck units

Magnitude	Pressure	lbf/in²	Item
10^-15 Pa	1 fPa		Interstellar space pressure (approximate)
10^-9 Pa	1 nPa		Atmospheric pressure on the Moon (approximate)
10^-6 Pa	1 µPa		Pressure inside a vacuum tube (approximate, varies). Reference pressure for sound in water.
	20 µPa		Threshold of human hearing - the smallest RMS pressure fluctuation that the human ear can hear in a noiseless environment, at frequencies between 1 kHz and 5 kHz. Reference pressure for sound in air.
	100 µPa		Near earth outer space pressure (approximate)
10^-3 Pa	0.5 Pa		Atmospheric pressure on Pluto (1988 figure; very roughly)
1 Pa	1 Pa		Pressure exerted by a UK five pound note resting on a surface ^[1]
	10 Pa		Pressure increase per millimeter of a water column¹
	10 Pa		Pressure inside an incandescent light bulb (approximate)
	100 Pa		Threshold of pain. Sounds above this amplitude are unbearable and can cause ear pain. Prolonged exposure may lead to hearing loss.
10³ Pa	1 kPa	0.145 psi	Atmospheric pressure on Mars, 1 % of atmospheric sea-level pressure on Earth
	10 kPa	1.45 psi	Pressure increase per meter of a water column¹, or the drop in air pressure when going from earth sea level to 1000 m elevation
	101.325 kPa	14.696 psi	Standard atmospheric pressure (1 bar) for earth sea level
	180 to 250 kPa	26 to 36 psi	Pressure in an automobile tire
10⁶ Pa	0.8 to 2 MPa	120 to 290 psi	Pressure used in boilers of steam locomotives
	9 MPa	1305 psi	Atmospheric pressure on Venus (90 bar)
	10 MPa	1450 psi	Pressure washers force out water at this pressure
	12 MPa	1740 psi	Pressure exerted by a 60kg woman wearing stilettos
	20 MPa	2900 psi	Pressure of a typical aluminium scuba tank (200 bar)
	100 MPa	14500 psi	Pressure at bottom of Mariana Trench, about 10 km below ocean surface (1000 bar)
	400 MPa		Chamber pressure of .50 BMG weapon discharge
10⁹ Pa	9 GPa		Pressure at which octaoxygen forms ^[2] (90000 bar)
	10 GPa		Pressure at which diamond forms^{citation needed}
	96 GPa		Pressure at which metallic oxygen forms^[3] (960000 bar)
	100 GPa		Theoretical tensile strength of a carbon nanotube (CNT)
	380 GPa		Pressure inside the core of the Earth (3.8 million bar)
10¹² Pa	530 TPa		Pressure inside an Ivy Mike-like nuclear bomb (5.3 billion bar)
10¹⁵ Pa	6.4 PPa		Pressure inside a W80 warhead detonation (64 billion bar)
10¹⁵ Pa	25 PPa		Pressure inside the core of the Sun.^[4] (250 billion bar)
10¹¹¹ Pa	4.63 × 10¹¹³ Pa		The Planck pressure (4.63x10¹⁰⁸ Bar)

¹ At earth mean sea level.

Citations

^ "Microbe experiment suggests we could all be Martians", The Guardian 2007-01-13, accessed 2008-03-23
^ Fujihisa et al. (2006)
^ azonano.com 2008
^ Williams, David R. (September 1, 2004). "Sun Fact Sheet". NASA. Retrieved on 2008-01-23.

References

azonano.com (2008), Solid Oxygen ε-Phase Crystal Structure Determined Along With The Discovery of a Red Oxygen O8 Cluster, <http://www.azonano.com/details.asp?ArticleID=1797>. Retrieved on 10 January 2008
Fujihisa, Hiroshi; Akahama, Yuichi; Kawamura, Haruki & Ohishi, Yasuo (2006-08-26), "O8 Cluster Structure of the Epsilon Phase of Solid Oxygen", Phys. Rev. Lett. 97, doi:10.1103/PhysRevLett.97.085503, <http://link.aps.org/abstract/PRL/v97/e085503>