Volume of Hydrocarbon Chain using Tanford Equation Calculator

✖Micelle Core Volume is defined as the volume of the core of micelle is the amount of space it occupies.ⓘ Volume of Hydrocarbon Chain using Tanford Equation [V_mic]

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Formula

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Volume of Hydrocarbon Chain using Tanford Equation

Formula

`"V"_{"mic"} = (27.4+(26.9*"n"_{"C"}))*(10^(-3))`

Example

`"1.3993m³"=(27.4+(26.9*"51"))*(10^(-3))`

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Volume of Hydrocarbon Chain using Tanford Equation Solution

STEP 0: Pre-Calculation Summary

Formula Used

Micelle Core Volume = (27.4+(26.9*Number of Carbon Atoms))*(10^(-3))
V_mic = (27.4+(26.9*n_C))*(10^(-3))
This formula uses 2 Variables

Variables Used

Micelle Core Volume - (Measured in Cubic Meter) - Micelle Core Volume is defined as the volume of the core of micelle is the amount of space it occupies.
Number of Carbon Atoms - The Number of Carbon Atoms is defined as the total number of carbon atoms present in a hydrocarbon chain.

STEP 1: Convert Input(s) to Base Unit

Number of Carbon Atoms: 51 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

V_mic = (27.4+(26.9*n_C))*(10^(-3)) --> (27.4+(26.9*51))*(10^(-3))

Evaluating ... ...

V_mic = 1.3993

STEP 3: Convert Result to Output's Unit

1.3993 Cubic Meter --> No Conversion Required

FINAL ANSWER

1.3993 Cubic Meter <-- Micelle Core Volume

(Calculation completed in 00.004 seconds)

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Created by Pratibha

Amity Institute Of Applied Sciences (AIAS, Amity University), Noida, India

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< 4 Tanford Equation Calculators

Critical Chain Length of Hydrocarbon Tail using Tanford Equation

Go Critical Chain Length of Hydrocarbon Tail = (0.154+(0.1265*Number of Carbon Atoms))

Number of Carbon Atoms given Critical Chain Length of Hydrocarbon

Go Number of Carbon Atoms = (Critical Chain Length of Hydrocarbon Tail-0.154)/0.1265

Volume of Hydrocarbon Chain using Tanford Equation

Go Micelle Core Volume = (27.4+(26.9*Number of Carbon Atoms))*(10^(-3))

Number of Carbon Atoms given Volume of Hydrocarbon chain

Go Number of Carbon Atoms = ((Micelle Core Volume*(10^3))-27.4)/26.9

< 16 Important Formulas of Colloids Calculators

Surface Enthalpy given Critical Temperature

Go Surface Enthalpy = (Constant for each Liquid)*(1-(Temperature/Critical Temperature))^(Empirical Factor-1)*(1+((Empirical Factor-1)*(Temperature/Critical Temperature)))

Surface Entropy given Critical Temperature

Go Surface Entropy = Empirical Factor*Constant for each Liquid*(1-(Temperature/Critical Temperature))^(Empirical Factor)-(1/Critical Temperature)

Ionic Mobility given Zeta Potential using Smoluchowski Equation

Go Ionic Mobility = (Zeta Potential*Relative Permittivity of Solvent)/(4*pi*Dynamic Viscosity of Liquid)

Number of Moles of Surfactant given Critical Micelle Concentration

Go Number of Moles of Surfactant = (Total Concentration of Surfactant-Critical Micelle Concentration)/Degree of Aggregation of Micelle

Zeta Potential using Smoluchowski Equation

Go Zeta Potential = (4*pi*Dynamic Viscosity of Liquid*Ionic Mobility)/Relative Permittivity of Solvent

Micellar Core Radius given Micellar Aggregation Number

Go Micelle Core Radius = ((Micellar Aggregation Number*3*Volume of Hydrophobic Tail)/(4*pi))^(1/3)

Volume of Hydrophobic Tail given Micellar Aggregation Number

Go Volume of Hydrophobic Tail = ((4/3)*pi*(Micelle Core Radius^3))/Micellar Aggregation Number

Micellar Aggregation Number

Go Micellar Aggregation Number = ((4/3)*pi*(Micelle Core Radius^3))/Volume of Hydrophobic Tail

Critical Packing Parameter

Go Critical Packing Parameter = Surfactant Tail Volume/(Optimal Area*Tail Length)

Specific Surface Area for array of n Cylindrical Particles

Go Specific Surface Area = (2/Density)*((1/Cylinder Radius)+(1/Length))

Electrophoretic Mobility of Particle

Go Electrophoretic Mobility = Drift Velocity of Dispersed Particle/Electric Field Intensity

Surface Viscosity

Go Surface Viscosity = Dynamic Viscosity/Thickness of Surface Phase

Critical Chain Length of Hydrocarbon Tail using Tanford Equation

Go Critical Chain Length of Hydrocarbon Tail = (0.154+(0.1265*Number of Carbon Atoms))

Specific Surface Area

Go Specific Surface Area = 3/(Density*Radius of Sphere)

Number of Carbon Atoms given Critical Chain Length of Hydrocarbon

Go Number of Carbon Atoms = (Critical Chain Length of Hydrocarbon Tail-0.154)/0.1265

Volume of Hydrocarbon Chain using Tanford Equation

Go Micelle Core Volume = (27.4+(26.9*Number of Carbon Atoms))*(10^(-3))

Volume of Hydrocarbon Chain using Tanford Equation Formula

Micelle Core Volume = (27.4+(26.9*Number of Carbon Atoms))*(10^(-3))
V_mic = (27.4+(26.9*n_C))*(10^(-3))

What is Critical Chain Length of the Hydrocarbon Tail using Tanford Equation?

Critical Chain Length of the Hydrocarbon Tail using Tanford Equation is defined as the effective length of the hydrocarbon chain in the liquid state. This length sets a rough upper limit on the effective length of the chain, i.e., large extensions beyond this limit may prevent the collection of hydrocarbon chains from being considered a liquid.

How to Calculate Volume of Hydrocarbon Chain using Tanford Equation?

Volume of Hydrocarbon Chain using Tanford Equation calculator uses Micelle Core Volume = (27.4+(26.9*Number of Carbon Atoms))*(10^(-3)) to calculate the Micelle Core Volume, The Volume of Hydrocarbon Chain using Tanford Equation formula is defined as the volume of the hydrocarbon tail of the surfactant in the core; that is simply the volume of the hydrocarbon liquid per hydrocarbon molecule. Micelle Core Volume is denoted by V_mic symbol.

How to calculate Volume of Hydrocarbon Chain using Tanford Equation using this online calculator? To use this online calculator for Volume of Hydrocarbon Chain using Tanford Equation, enter Number of Carbon Atoms (n_C) and hit the calculate button. Here is how the Volume of Hydrocarbon Chain using Tanford Equation calculation can be explained with given input values -> 1.5069 = (27.4+(26.9*51))*(10^(-3)).

FAQ

What is Volume of Hydrocarbon Chain using Tanford Equation?

The Volume of Hydrocarbon Chain using Tanford Equation formula is defined as the volume of the hydrocarbon tail of the surfactant in the core; that is simply the volume of the hydrocarbon liquid per hydrocarbon molecule and is represented as V_mic = (27.4+(26.9*n_C))*(10^(-3)) or Micelle Core Volume = (27.4+(26.9*Number of Carbon Atoms))*(10^(-3)). The Number of Carbon Atoms is defined as the total number of carbon atoms present in a hydrocarbon chain.

How to calculate Volume of Hydrocarbon Chain using Tanford Equation?

The Volume of Hydrocarbon Chain using Tanford Equation formula is defined as the volume of the hydrocarbon tail of the surfactant in the core; that is simply the volume of the hydrocarbon liquid per hydrocarbon molecule is calculated using Micelle Core Volume = (27.4+(26.9*Number of Carbon Atoms))*(10^(-3)). To calculate Volume of Hydrocarbon Chain using Tanford Equation, you need Number of Carbon Atoms (n_C). With our tool, you need to enter the respective value for Number of Carbon Atoms 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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