Surface Tension given Molar Volume Solution

STEP 0: Pre-Calculation Summary
Formula Used
Surface Tension of Fluid given Molar Volume = [EOTVOS_C]*(Critical Temperature-Temperature)/(Molar Volume)^(2/3)
γMV = [EOTVOS_C]*(Tc-T)/(Vm)^(2/3)
This formula uses 1 Constants, 4 Variables
Constants Used
[EOTVOS_C] - Eotvos constant Value Taken As 0.00000021
Variables Used
Surface Tension of Fluid given Molar Volume - (Measured in Newton per Meter) - Surface Tension of Fluid given Molar Volume is the energy or work required to increase the surface area of a fluid due to intermolecular forces.
Critical Temperature - (Measured in Kelvin) - Critical Temperature is the highest temperature at which the substance can exist as a liquid. At this phase boundaries vanish, and the substance can exist both as a liquid and vapor.
Temperature - (Measured in Kelvin) - Temperature is the degree or intensity of heat present in a substance or object.
Molar Volume - (Measured in Cubic Meter per Mole) - Molar Volume is the volume occupied by one mole of a real gas at standard temperature and pressure.
STEP 1: Convert Input(s) to Base Unit
Critical Temperature: 190.55 Kelvin --> 190.55 Kelvin No Conversion Required
Temperature: 45 Kelvin --> 45 Kelvin No Conversion Required
Molar Volume: 22.4 Cubic Meter per Mole --> 22.4 Cubic Meter per Mole No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
γMV = [EOTVOS_C]*(Tc-T)/(Vm)^(2/3) --> [EOTVOS_C]*(190.55-45)/(22.4)^(2/3)
Evaluating ... ...
γMV = 3.84650373919517E-06
STEP 3: Convert Result to Output's Unit
3.84650373919517E-06 Newton per Meter -->0.00384650373919517 Millinewton per Meter (Check conversion here)
FINAL ANSWER
0.00384650373919517 0.003847 Millinewton per Meter <-- Surface Tension of Fluid given Molar Volume
(Calculation completed in 00.004 seconds)

Credits

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Amity Institute Of Applied Sciences (AIAS, Amity University), Noida, India
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20 Surface Tension Calculators

Surface Tension given Contact Angle
Go Surface Tension of Fluid = (2*Radius of Curvature*Density of Fluid*[g]*Height of Capillary Rise/Fall)*(1/cos(Contact Angle))
Surface Tension of Sea Water
Go Surface Tension of Sea Water = Surface Tension of Pure Water*(1+(3.766*10^(-4)*Reference Salinity)+(2.347*10^(-6)*Reference Salinity*Temperature in Degree Celsius))
Surface Tension Given Maximum Volume
Go Surface Tension = (Volume*Change in Density*[g]*Correction Factor)/(2*pi*Capillary Radius)
Surface Tension given Molecular Weight
Go Surface Tension of Fluid = [EOTVOS_C]*(Critical Temperature-Temperature-6)/(Molecular Weight/Density of Liquid)^(2/3)
Surface Tension of Pure Water
Go Surface Tension of Pure Water = 235.8*(1-(Temperature/Critical Temperature))^(1.256)*(1-(0.625*(1-(Temperature/Critical Temperature))))
Surface Tension given Critical Temperature
Go Surface Tension of Fluid given Critical Temp = Constant for each Liquid*(1-(Temperature/Critical Temperature))^(Empirical Factor)
Surface Tension given Correction Factor
Go Surface Tension of Fluid = (Drop Weight*[g])/(2*pi*Capillary Radius*Correction Factor)
Surface Tension given Molar Volume
Go Surface Tension of Fluid given Molar Volume = [EOTVOS_C]*(Critical Temperature-Temperature)/(Molar Volume)^(2/3)
Height of Magnitude of Capillary Rise
Go Height of Capillary Rise/Fall = Surface Tension of Fluid/((1/2)*(Radius of Tubing*Density of Fluid*[g]))
Surface Tension Force given Density of Fluid
Go Surface Tension of Fluid = (1/2)*(Radius of Tubing*Density of Fluid*[g]*Height of Capillary Rise/Fall)
Surface Tension Given Density of Vapor
Go Surface Tension of Fluid = Characteristic Constant*(Density of Liquid-Density of Vapor)^4
Surface Tension given Temperature
Go Surface Tension of Fluid given Temperature = 75.69-(0.1413*Temperature)-(0.0002985*(Temperature)^2)
Surface Tension Given Force
Go Surface Tension of Fluid = Force/(4*pi*Radius of Ring)
Work of Cohesion given Surface Tension
Go Work of Cohesion = 2*Surface Tension of Fluid*[Avaga-no]^(1/3)*(Molar Volume)^(2/3)
Solubility Parameter Given Surface Tension
Go Solubility Parameter = 4.1*(Surface Tension of Fluid/(Molar Volume)^(1/3))^(0.43)
Surface Tension for very Thin Plate using Wilhelmy-Plate Method
Go Surface Tension of Fluid = Force on very Thin Plate/(2*Weight of Plate)
Surface Tension Given Gibbs Free Energy
Go Surface Tension of Fluid = Gibbs Free Energy/Area of Surface
Gibbs Free Energy Given Surface Area
Go Gibbs Free Energy = Surface Tension of Fluid*Area of Surface
Surface Tension of Methane+Hexane System
Go Surface Tension of Methane+Hexane System = 0.64+(17.85*Concentration of Hexane)
Surface Tension of Liquid Methane
Go Surface Tension of Liquid Methane = 40.52*(1-(Temperature/190.55))^1.287

17 Important Formulas on Surface Tension Calculators

Force given Surface Tension using Wilhelmy-Plate Method
Go Force = (Density of Plate*[g]*(Length of Plate*Width of Full Size Bearing Plate*Thickness of Plate))+(2*Surface Tension of Fluid*(Thickness of Plate+Width of Full Size Bearing Plate)*(cos(Contact Angle)))-(Density of Fluid*[g]*Thickness of Plate*Width of Full Size Bearing Plate*Depth of Plate)
Surface Tension given Contact Angle
Go Surface Tension of Fluid = (2*Radius of Curvature*Density of Fluid*[g]*Height of Capillary Rise/Fall)*(1/cos(Contact Angle))
Surface Tension given Molecular Weight
Go Surface Tension of Fluid = [EOTVOS_C]*(Critical Temperature-Temperature-6)/(Molecular Weight/Density of Liquid)^(2/3)
Surface Tension of Pure Water
Go Surface Tension of Pure Water = 235.8*(1-(Temperature/Critical Temperature))^(1.256)*(1-(0.625*(1-(Temperature/Critical Temperature))))
Surface Tension given Critical Temperature
Go Surface Tension of Fluid given Critical Temp = Constant for each Liquid*(1-(Temperature/Critical Temperature))^(Empirical Factor)
Surface Tension given Correction Factor
Go Surface Tension of Fluid = (Drop Weight*[g])/(2*pi*Capillary Radius*Correction Factor)
Surface Tension given Molar Volume
Go Surface Tension of Fluid given Molar Volume = [EOTVOS_C]*(Critical Temperature-Temperature)/(Molar Volume)^(2/3)
Height of Magnitude of Capillary Rise
Go Height of Capillary Rise/Fall = Surface Tension of Fluid/((1/2)*(Radius of Tubing*Density of Fluid*[g]))
Surface Tension Force given Density of Fluid
Go Surface Tension of Fluid = (1/2)*(Radius of Tubing*Density of Fluid*[g]*Height of Capillary Rise/Fall)
Total Weight of Plate using Wilhelmy-Plate Method
Go Total Weight of Solid Surface = Weight of Plate+Surface Tension of Fluid*(Perimeter)-Upward Drift
Total Weight of Ring using Ring-Detachment Method
Go Total Weight of Solid Surface = Weight of Ring+(4*pi*Radius of Ring*Surface Tension of Fluid)
Parachor given Surface Tension
Go Parachor = (Molar Mass/(Density of Liquid-Density of Vapor))*(Surface Tension of Fluid)^(1/4)
Surface Pressure using Wilhelmy-Plate Method
Go Surface Pressure of Thin Film = -(Change in Force/(2* (Thickness of Plate+Weight of Plate)))
Surface Tension given Temperature
Go Surface Tension of Fluid given Temperature = 75.69-(0.1413*Temperature)-(0.0002985*(Temperature)^2)
Surface Pressure
Go Surface Pressure of Thin Film = Surface Tension of Clean Water Surface-Surface Tension of Fluid
Work of Cohesion given Surface Tension
Go Work of Cohesion = 2*Surface Tension of Fluid*[Avaga-no]^(1/3)*(Molar Volume)^(2/3)
Surface Tension for very Thin Plate using Wilhelmy-Plate Method
Go Surface Tension of Fluid = Force on very Thin Plate/(2*Weight of Plate)

Surface Tension given Molar Volume Formula

Surface Tension of Fluid given Molar Volume = [EOTVOS_C]*(Critical Temperature-Temperature)/(Molar Volume)^(2/3)
γMV = [EOTVOS_C]*(Tc-T)/(Vm)^(2/3)

What is the Eötvös Rule?

The Eötvös rule, named after the Hungarian physicist Loránd (Roland) Eötvös (1848–1919) enables the prediction of the surface tension of an arbitrary liquid pure substance at all temperatures. The density, molar mass, and the critical temperature of the liquid have to be known. At the critical point the surface tension is zero.

How to Calculate Surface Tension given Molar Volume?

Surface Tension given Molar Volume calculator uses Surface Tension of Fluid given Molar Volume = [EOTVOS_C]*(Critical Temperature-Temperature)/(Molar Volume)^(2/3) to calculate the Surface Tension of Fluid given Molar Volume, The Surface Tension given Molar Volume formula is defined as an empirical relationship between the surface tension of a liquid and the molar volume of liquid. Surface Tension of Fluid given Molar Volume is denoted by γMV symbol.

How to calculate Surface Tension given Molar Volume using this online calculator? To use this online calculator for Surface Tension given Molar Volume, enter Critical Temperature (Tc), Temperature (T) & Molar Volume (Vm) and hit the calculate button. Here is how the Surface Tension given Molar Volume calculation can be explained with given input values -> 2.789409 = [EOTVOS_C]*(190.55-45)/(22.4)^(2/3).

FAQ

What is Surface Tension given Molar Volume?
The Surface Tension given Molar Volume formula is defined as an empirical relationship between the surface tension of a liquid and the molar volume of liquid and is represented as γMV = [EOTVOS_C]*(Tc-T)/(Vm)^(2/3) or Surface Tension of Fluid given Molar Volume = [EOTVOS_C]*(Critical Temperature-Temperature)/(Molar Volume)^(2/3). Critical Temperature is the highest temperature at which the substance can exist as a liquid. At this phase boundaries vanish, and the substance can exist both as a liquid and vapor, Temperature is the degree or intensity of heat present in a substance or object & Molar Volume is the volume occupied by one mole of a real gas at standard temperature and pressure.
How to calculate Surface Tension given Molar Volume?
The Surface Tension given Molar Volume formula is defined as an empirical relationship between the surface tension of a liquid and the molar volume of liquid is calculated using Surface Tension of Fluid given Molar Volume = [EOTVOS_C]*(Critical Temperature-Temperature)/(Molar Volume)^(2/3). To calculate Surface Tension given Molar Volume, you need Critical Temperature (Tc), Temperature (T) & Molar Volume (Vm). With our tool, you need to enter the respective value for Critical Temperature, Temperature & Molar Volume and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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