Dynamic Viscosity using Kinematic Viscosity Calculator

✖Mass Density of Fluid is the mass which it possesses per unit volume.ⓘ Mass Density of Fluid [ρ_f]			+10% -10%
✖Kinematic Viscosity is a measure of a fluid's internal resistance to flow under gravitational forces.ⓘ Kinematic Viscosity [ν]			+10% -10%

✖Dynamic Viscosity is the resistance to movement of one layer of a fluid over another.ⓘ Dynamic Viscosity using Kinematic Viscosity [μ]

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Formula

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Dynamic Viscosity using Kinematic Viscosity

Formula

`"μ" = "ρ"_{"f"}*"ν"`

Example

`"80.08N*s/m²"="77kg/m³"*"1.04m²/s"`

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Dynamic Viscosity using Kinematic Viscosity Solution

STEP 0: Pre-Calculation Summary

Formula Used

Dynamic Viscosity = Mass Density of Fluid*Kinematic Viscosity
μ = ρ_f*ν
This formula uses 3 Variables

Variables Used

Dynamic Viscosity - (Measured in Pascal Second) - Dynamic Viscosity is the resistance to movement of one layer of a fluid over another.
Mass Density of Fluid - (Measured in Kilogram per Cubic Meter) - Mass Density of Fluid is the mass which it possesses per unit volume.
Kinematic Viscosity - (Measured in Square Meter per Second) - Kinematic Viscosity is a measure of a fluid's internal resistance to flow under gravitational forces.

STEP 1: Convert Input(s) to Base Unit

Mass Density of Fluid: 77 Kilogram per Cubic Meter --> 77 Kilogram per Cubic Meter No Conversion Required
Kinematic Viscosity: 1.04 Square Meter per Second --> 1.04 Square Meter per Second No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

μ = ρ_f*ν --> 77*1.04

Evaluating ... ...

μ = 80.08

STEP 3: Convert Result to Output's Unit

80.08 Pascal Second -->80.08 Newton Second per Square Meter (Check conversion here)

FINAL ANSWER

80.08 Newton Second per Square Meter <-- Dynamic Viscosity

(Calculation completed in 00.004 seconds)

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Don Bosco College of Engineering (DBCE), Goa

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< 25 Properties of Fluid Calculators

Capillary Rise or Depression when Tube is inserted in two Liquids

Go Capillary Rise (or Depression) = (2*Surface Tension*cos(Contact Angle))/(Radius of Tube*Specific Weight of Water in KN per cubic meter*(Specific Gravity of Liquid 1-Specific Gravity of Liquid 2)*1000)

Capillary Rise or Depression when two Vertical Parallel Plates are Partially Immersed in Liquid

Go Capillary Rise (or Depression) = (2*Surface Tension*(cos(Contact Angle)))/(Specific Weight of Water in KN per cubic meter*Specific Gravity of Fluid*Distance between Vertical Plates)

Capillary Rise or Depression of Fluid

Go Capillary Rise (or Depression) = (2*Surface Tension*cos(Contact Angle))/(Specific Gravity of Fluid*Radius of Tube*Specific Weight of Water in KN per cubic meter*1000)

Capillary Rise when Contact is between Water and Glass

Go Capillary Rise (or Depression) = (2*Surface Tension)/(Radius of Tube*Specific Weight of Water in KN per cubic meter*1000)

Absolute Pressure using Equation of State given Specific Weight

Go Absolute Pressure by Specific Weight = Gas Constant*Specific Weight of Liquid in Piezometer*Absolute Temperature of Gas

Gas Constant using Equation of State

Go Gas Constant = Absolute Pressure by Gas Density/(Density of Gas*Absolute Temperature of Gas)

Absolute Temperature of Gas

Go Absolute Temperature of Gas = Absolute Pressure by Gas Density/(Gas Constant*Density of Gas)

Absolute Pressure using Gas Density

Go Absolute Pressure by Gas Density = Absolute Temperature of Gas*Density of Gas*Gas Constant

Bulk Modulus of Elasticity

Go Bulk Modulus of Elasticity = (Change in Pressure/(Change in Volume/Fluid Volume))

Velocity of Fluid given Shear Stress

Go Fluid Velocity = (Distance between Fluid Layers*Shear Stress)/Dynamic Viscosity

Compressibility of Fluid

Go Compressibility of Fluid = ((Change in Volume/Fluid Volume)/Change in Pressure)

Specific Gravity of Fluid

Go Specific Gravity of Fluid = Specific Weight of Liquid in Piezometer/Specific Weight of Standard Fluid

Mass Density given Specific Weight

Go Mass Density of Fluid = Specific Weight of Liquid in Piezometer/Acceleration due to Gravity

Volume of Fluid given Specific Weight

Go Volume = Weight of Liquid/Specific Weight of Liquid in Piezometer

Pressure Intensity inside Soap Bubble

Go Internal Pressure Intensity = (4*Surface Tension)/Radius of Tube

Pressure Intensity inside Droplet

Go Internal Pressure Intensity = (2*Surface Tension)/Radius of Tube

Dynamic Viscosity using Kinematic Viscosity

Go Dynamic Viscosity = Mass Density of Fluid*Kinematic Viscosity

Mass Density given Viscosity

Go Mass Density of Fluid = Dynamic Viscosity/Kinematic Viscosity

Pressure Intensity inside Liquid Jet

Go Internal Pressure Intensity = Surface Tension/Radius of Tube

Velocity Gradient

Go Velocity Gradient = Change in Velocity/Change in Distance

Shear Stress between any two thin sheets of Fluid

Go Shear Stress = Velocity Gradient*Dynamic Viscosity

Velocity Gradient given Shear Stress

Go Velocity Gradient = Shear Stress/Dynamic Viscosity

Dynamic Viscosity given Shear Stress

Go Dynamic Viscosity = Shear Stress/Velocity Gradient

Compressibility of Fluid given Bulk Modulus of Elasticity

Go Compressibility of Fluid = 1/Bulk Modulus of Elasticity

Specific Volume of Fluid

Go Specific Volume = 1/Mass Density of Fluid

Dynamic Viscosity using Kinematic Viscosity Formula

Dynamic Viscosity = Mass Density of Fluid*Kinematic Viscosity
μ = ρ_f*ν

What is Kinematic Viscosity?

The kinematic viscosity is an atmospheric variable defined as the ratio between the dynamic viscosity μ and the density ρ of the fluid, i.e. (7.25) and depends on both air temperature and pressure.

How to Calculate Dynamic Viscosity using Kinematic Viscosity?

Dynamic Viscosity using Kinematic Viscosity calculator uses Dynamic Viscosity = Mass Density of Fluid*Kinematic Viscosity to calculate the Dynamic Viscosity, The Dynamic Viscosity using Kinematic Viscosity formula is defined as a function of the mass density and the kinematic viscosity. Dynamic Viscosity is denoted by μ symbol.

How to calculate Dynamic Viscosity using Kinematic Viscosity using this online calculator? To use this online calculator for Dynamic Viscosity using Kinematic Viscosity, enter Mass Density of Fluid (ρ_f) & Kinematic Viscosity (ν) and hit the calculate button. Here is how the Dynamic Viscosity using Kinematic Viscosity calculation can be explained with given input values -> 80.08 = 77*1.04.

FAQ

What is Dynamic Viscosity using Kinematic Viscosity?

The Dynamic Viscosity using Kinematic Viscosity formula is defined as a function of the mass density and the kinematic viscosity and is represented as μ = ρ_f*ν or Dynamic Viscosity = Mass Density of Fluid*Kinematic Viscosity. Mass Density of Fluid is the mass which it possesses per unit volume & Kinematic Viscosity is a measure of a fluid's internal resistance to flow under gravitational forces.

How to calculate Dynamic Viscosity using Kinematic Viscosity?

The Dynamic Viscosity using Kinematic Viscosity formula is defined as a function of the mass density and the kinematic viscosity is calculated using Dynamic Viscosity = Mass Density of Fluid*Kinematic Viscosity. To calculate Dynamic Viscosity using Kinematic Viscosity, you need Mass Density of Fluid (ρ_f) & Kinematic Viscosity (ν). With our tool, you need to enter the respective value for Mass Density of Fluid & Kinematic Viscosity and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

How many ways are there to calculate Dynamic Viscosity?

In this formula, Dynamic Viscosity uses Mass Density of Fluid & Kinematic Viscosity. We can use 1 other way(s) to calculate the same, which is/are as follows -

Dynamic Viscosity = Shear Stress/Velocity Gradient

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