## totally free online calculator - figures and also tables with viscosity the water in ~ temperatures ranging 0 to 360°C (32 to 675°F) - Imperial and also SI Units.

Theviscosityof afluidis a measure of itsresistanceto progressive deformation byshear stressortensile stress.

You are watching: Viscosity of water ns/m2

For additional definitions, walk toAbsolute (dynamic) and kinematic viscosity. Absolute or dynamic viscosity is used to calculateReynold"s Number to determine if a fluid circulation is laminar, transient or turbulent.

### Online Water Viscosity Calculator

The calculator below can be used to calculation the liquid water dynamic or kinematic viscosity at given temperatures.The calculation dynamic viscosity is given as cP, mPa*s, Pa*s, N*s/m2,lbf*s/ft2 and lbm/(ft*h),while the kinematic viscosity is given as cSt, m2/s, and ft2/s

Note! Temperature need to be within the arrays 0-370 °C, 32-700 °F, 273-645 K and also 492-1160 °R to acquire valid values.

Temperature

pick the actual unit the temperature:

°C °F K °R

See Water andHeavy Water - thermodynamic properties.See also other nature of Water at differing temperature and pressure: boil points in ~ high pressure, cook points in ~ vacuum pressure, thickness and details weight, Enthalpy and entropy, heat of vaporization, Ionization Constant, pKw, the normal and heavy water, melting points at high pressure, Prandtl number,Properties in ~ Gas-Liquid Equilibrium Conditions, Saturation pressure, details gravity, details heat (heat capacity), details volume, thermal conductivity, heat diffusivity and also Vapour press at gas-liquid equilibrium.

See additionally dynamic and kinematic viscosity the air, ammonia, benzene, butane, carbon dioxide, ethane, ethanol, ethylene, methane, methanol, nitrogen, oxygen and also propane.

See more: How Tall Is 83 Cm In Feet And Inches Converter, How To Convert 83 Cm In Ft And Inches

The figures and also tables listed below shows how water viscosity changes with temperature (°C and also °F) at water saturation press (which because that practicle use, gives the same an outcome as atmospheric pressure at temperature

 Temperature Pressure Dynamic viscosity Kinematic viscosity <°C> , , , ) 0.01 0.000612 0.0017914 1.79140 3.7414 1.7918 10 0.0012 0.0013060 1.30600 2.7276 1.3065 20 0.0023 0.0010016 1.00160 2.0919 1.0035 25 0.0032 0.0008900 0.89004 1.8589 0.8927 30 0.0042 0.0007972 0.79722 1.6650 0.8007 40 0.0074 0.0006527 0.65272 1.3632 0.6579 50 0.0124 0.0005465 0.54650 1.1414 0.5531 60 0.0199 0.0004660 0.46602 0.9733 0.4740 70 0.0312 0.0004035 0.40353 0.8428 0.4127 80 0.0474 0.0003540 0.35404 0.7394 0.3643 90 0.0702 0.0003142 0.31417 0.6562 0.3255 100 0.101 0.0002816 0.28158 0.5881 0.2938 110 0.143 0.0002546 0.25461 0.5318 0.2677 120 0.199 0.0002320 0.23203 0.4846 0.2460 140 0.362 0.0001966 0.19664 0.4107 0.2123 160 0.618 0.0001704 0.17043 0.3559 0.1878 180 1.00 0.0001504 0.15038 0.3141 0.1695 200 1.55 0.0001346 0.13458 0.2811 0.1556 220 2.32 0.0001218 0.12177 0.2543 0.1449 240 3.35 0.0001111 0.11106 0.2320 0.1365 260 4.69 0.0001018 0.10181 0.2126 0.1299 280 6.42 0.0000936 0.09355 0.1954 0.1247 300 8.59 0.0000859 0.08586 0.1793 0.1206 320 11.3 0.0000783 0.07831 0.1636 0.1174 340 14.6 0.0000703 0.07033 0.1469 0.1152 360 18.7 0.0000603 0.06031 0.1260 0.1143

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 Temperature Pressure Dynamic viscosity Kinematic viscosity <°F> , 32.02 0.9506 3.7414 4.3336 1.7914 1.9287 34 0.0962 3.6047 4.1752 1.7259 1.8579 39.2 0.1180 3.2801 3.7992 1.5705 1.6906 40 0.1217 3.2340 3.7458 1.5484 1.6668 50 0.1781 2.7276 3.1593 1.3060 1.4063 60 0.2563 2.3405 2.7109 1.1206 1.2075 70 0.3634 2.0337 2.3556 0.9737 1.0503 80 0.5076 1.7888 2.0719 0.8565 0.9250 90 0.6992 1.5896 1.8411 0.7611 0.8234 100 0.9506 1.4243 1.6497 0.6820 0.7392 110 1.277 1.2847 1.4880 0.6151 0.6682 120 1.695 1.1652 1.3496 0.5579 0.6075 130 2.226 1.0620 1.2300 0.5085 0.5551 140 2.893 0.9733 1.1273 0.4660 0.5102 150 3.723 0.8950 1.0366 0.4285 0.4706 160 4.747 0.8279 0.9589 0.3964 0.4367 170 6.000 0.7698 0.8916 0.3686 0.4074 180 7.520 0.7192 0.8330 0.3444 0.3820 190 9.349 0.6745 0.7813 0.3230 0.3596 200 11.537 0.6300 0.7297 0.3016 0.3371 212 14.710 0.5881 0.6812 0.2816 0.3163 220 17.203 0.5619 0.6508 0.2690 0.3032 240 25.001 0.5050 0.5850 0.2418 0.2750 260 35.263 0.4575 0.5299 0.2191 0.2515 280 49.286 0.4176 0.4837 0.2000 0.2320 300 67.264 0.3840 0.4448 0.1839 0.2157 350 134.73 0.3202 0.3708 0.1533 0.1853 400 247.01 0.2750 0.3185 0.1317 0.1648 450 422.32 0.2404 0.2785 0.1151 0.1504 500 680.56 0.2126 0.2463 0.1018 0.1398 550 1045.0 0.1888 0.2187 0.0904 0.1322 600 1542.1 0.1673 0.1937 0.0801 0.1270 625 1851.2 0.1562 0.1809 0.0748 0.1252 650 2207.8 0.1438 0.1666 0.0689 0.1239 675 2618.7 0.1292 0.1496 0.0619 0.1230

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### Unit conversion

Viscosity Dynamic, Absolutecentipoise , gram/(centimetre second) = poise

, kilogram/metre 2nd =newton second/square metre = pascal second , pound/(foot hour) ,pound/(foot second) , reyn

1 cP = 0.001 Pa s = 0.01 ns = = 0.01 g/(cm sec) = 6.72197x10-4lb/(ft s) = 2.4191 lb/(ft h) 1 lb/(ft h) = 0.00027778 lb/(ft s) = 0.00041338 Pa s = 0.0041338 p = 0.41338 cP 1 lb/(ft s) = 3600 lb/(ft h) = 1.48816 Pa s = 14.8816 p = 1488.16 cP 1 kg/(m s ) = 1 (N s)/m2= 1 Pa s = 10 p = 1000 cP = 0.672197 lb/(ft s) = 2419.09 lb/(ft h) 1 (N s)/m2= 1 kg/(m s ) = 1 Pa s = 10 ns = 1000 cP = 0.672197 lb/(ft s) = 2419.09 lb/(ft h) 1 p = 1 g/(cm s) = 0.1 Pa s = 100 cP = 0.067197 lb/(ft s) = 241.909 lb/(ft h) 1 Pa s = 1 kg/(m s) = 1 (N s)/m2= 10 ns = 1000 cP = 0.672197 lb/(ft s) = 2419.08 lb/(ft h) = 0.00014504 reyn 1 reyn = 6894.76 Pa s