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Table 3-8 lists the SI units for the seven base quantities.
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Table 3-9 lists the SI derived units supported in COMSOL Multiphysics.
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Table 3-10 lists additional units available in the COMSOL Multiphysics software regardless of the unit system in the model. If more than one name or symbol is available, use any of them, except when names contain more than one word or a hyphen. See also the tables with special units for other unit systems than the SI system; special units that are not listed in Table 3-10 are only available when using such non-SI unit systems.
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Table 3-11 lists other SI derived units without special names or symbols.
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10-6
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3.33564095·10-30 C·m
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1.6021765314·10-19 J
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10-7 J
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10-5 N
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10-10 m
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0.0254·10-6 m
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0.0254·10-3 m
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10-4 T
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1.660538782·10-27 kg
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π/10800
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π/648000
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π/180
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6.894757·106 Pa (1000 psi)
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6.894757·103 Pa
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An energy unit defined as the amount of heat required to raise the temperature of one pound (pound-mass) of water by one degree from 60° to 61° Fahrenheit at a constant pressure of one atmosphere. Refer to the British thermal unit using the symbol only (Btu or BTU): for example, 0.28[Btu/(h*in*degF)] for a thermal conductivity.
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The value of 1 inch of water is defined as the pressure exerted by one inch of water for a pure water density of 1000 kg/m3 at 4 degrees Celsius and standard gravity of 9.80665 m/s2. Refer to this unit using the symbol only (inH2O or inAq).
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Millimeters water or millimeters, water gauge, is defined as the pressure exerted by one millimeter of water for a pure water density of 1000 kg/m3 at 4 degrees Celsius and standard gravity of 9.80665 m/s2. Refer to this unit using the symbol only (mmH2O).
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This is the U.S. liquid gallon which equals 0.003785411784 m3; the Imperial (UK) gallon (imperialgallon, impgal) is equal to 0.00454609 m3.
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m/s2
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m2
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A/m2
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kg/m3
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m-1
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m3
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