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Tortuosity Coefficient using Thickness and Diameter of Disks Formula

GoTortuosity Coefficient using Diffusion Coefficient of Solute Formula

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Tortuosity Coefficient is an intrinsic property of a porous material usually defined as the ratio of actual flow path length to the straight distance between the ends of the flow path. Check FAQs

ζ = 1 + \frac{L \cdot Φ}{e}

ζ - Tortuosity Coefficient?L - Diameter of Disks?Φ - Volume Fraction of Filler?e - Thickness of Disks?

Tortuosity Coefficient using Thickness and Diameter of Disks Example

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Here is how the Tortuosity Coefficient using Thickness and Diameter of Disks equation looks like with Values.

Here is how the Tortuosity Coefficient using Thickness and Diameter of Disks equation looks like with Units.

Here is how the Tortuosity Coefficient using Thickness and Diameter of Disks equation looks like.

1.8333 = 1 + \frac{100 \cdot 0.5}{60}

1.8333 = 1 + \frac{100nm \cdot 0.5}{60nm}

1.8333 = 1 + \frac{100 \cdot 0.5}{60}

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Tortuosity Coefficient using Thickness and Diameter of Disks Solution

Follow our step by step solution on how to calculate Tortuosity Coefficient using Thickness and Diameter of Disks?

FIRST Step Consider the formula

ζ = 1 + \frac{L \cdot Φ}{e}

Next Step Substitute values of Variables

∴

ζ = 1 + \frac{100nm \cdot 0.5}{60nm}

Next Step Convert Units

∴

ζ = 1 + \frac{1E-7m \cdot 0.5}{6E-8m}

Next Step Prepare to Evaluate

∴

ζ = 1 + \frac{1E-7 \cdot 0.5}{6E-8}

Next Step Evaluate

∴

ζ = 1.83333333333333

LAST Step Rounding Answer

∴

ζ = 1.8333

Tortuosity Coefficient using Thickness and Diameter of Disks Formula Elements

Variables

Tortuosity Coefficient

Tortuosity Coefficient is an intrinsic property of a porous material usually defined as the ratio of actual flow path length to the straight distance between the ends of the flow path.

Symbol: ζ

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Tortuosity Coefficient

Diameter of Disks

The Diameter of Disks is any straight line segment that passes through the centre of the disk and whose endpoints lie on the disk.

Symbol: L

Measurement: LengthUnit: nm

Note: Value should be greater than 0.

Formulas to find Diameter of Disks

Volume Fraction of Filler

The Volume Fraction of Filler is the volume of a constituent divided by the volume of all constituents of the mixture prior to mixing.

Symbol: Φ

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Volume Fraction of Filler

Thickness of Disks

The Thickness of Disks is the dimension between two surfaces of the disks, usually the dimension of smallest measure.

Symbol: e

Measurement: LengthUnit: nm

Note: Value should be greater than 0.

Formulas to find Thickness of Disks

Other Formulas to find Tortuosity Coefficient

Go Tortuosity Coefficient using Diffusion Coefficient of Solute

ζ = \frac{D m \cdot (1 - Φ)}{D}

Other formulas in Nanocomposites The End of Compromise category

Go Diffusion Coefficient of Solute in Composite given Volume Fraction

D = \frac{D m \cdot (1 - Φ)}{ζ}

Go Diffusion Coefficient of Solute in Polymer Matrix given Volume Fraction

D m = \frac{D \cdot ζ}{1 - Φ}

How to Evaluate Tortuosity Coefficient using Thickness and Diameter of Disks?

Tortuosity Coefficient using Thickness and Diameter of Disks evaluator uses Tortuosity Coefficient = 1+(Diameter of Disks*Volume Fraction of Filler)/Thickness of Disks to evaluate the Tortuosity Coefficient, The Tortuosity Coefficient using Thickness and Diameter of Disks formula is defined as an intrinsic property of a porous material usually defined as the ratio of actual flow path length to the straight distance between the ends of the flow path. Tortuosity Coefficient is denoted by ζ symbol.

How to evaluate Tortuosity Coefficient using Thickness and Diameter of Disks using this online evaluator? To use this online evaluator for Tortuosity Coefficient using Thickness and Diameter of Disks, enter Diameter of Disks (L), Volume Fraction of Filler (Φ) & Thickness of Disks (e) and hit the calculate button.

FAQs on Tortuosity Coefficient using Thickness and Diameter of Disks

What is the formula to find Tortuosity Coefficient using Thickness and Diameter of Disks?

The formula of Tortuosity Coefficient using Thickness and Diameter of Disks is expressed as Tortuosity Coefficient = 1+(Diameter of Disks*Volume Fraction of Filler)/Thickness of Disks. Here is an example- 1.833333 = 1+(1E-07*0.5)/6E-08.

How to calculate Tortuosity Coefficient using Thickness and Diameter of Disks?

With Diameter of Disks (L), Volume Fraction of Filler (Φ) & Thickness of Disks (e) we can find Tortuosity Coefficient using Thickness and Diameter of Disks using the formula - Tortuosity Coefficient = 1+(Diameter of Disks*Volume Fraction of Filler)/Thickness of Disks.

What are the other ways to Calculate Tortuosity Coefficient?

Here are the different ways to Calculate Tortuosity Coefficient-

Tortuosity Coefficient=(Diffusion Coefficient of Solute in Polymer Matrix*(1-Volume Fraction of Filler))/Diffusion Coefficient of Solute in Composite

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Tortuosity Coefficient using Thickness and Diameter of Disks Formula

​GoTortuosity Coefficient using Diffusion Coefficient of Solute Formula

Tortuosity Coefficient using Thickness and Diameter of Disks Example

Tortuosity Coefficient using Thickness and Diameter of Disks Solution

Tortuosity Coefficient using Thickness and Diameter of Disks Formula Elements

Other Formulas to find Tortuosity Coefficient

Other formulas in Nanocomposites The End of Compromise category

How to Evaluate Tortuosity Coefficient using Thickness and Diameter of Disks?

FAQs on Tortuosity Coefficient using Thickness and Diameter of Disks

Variable Name

GoTortuosity Coefficient using Diffusion Coefficient of Solute Formula