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General Relation between Resisting Shear and Diameter of Particle Formula

GoResisting Shear against Movement of Particle Formula

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Resisting shear against movement of particle the ability of an adhesive to resist shear stress. Check FAQs

ζ c = 0.155 + (0.409 \cdot \frac{d^{2}}{\sqrt{1 + 0.77 \cdot d^{2}}})

ζ_c - Resisting Shear against Movement of Particle?d - Diameter of Particle?

General Relation between Resisting Shear and Diameter of Particle Example

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Here is how the General Relation between Resisting Shear and Diameter of Particle equation looks like with Values.

Here is how the General Relation between Resisting Shear and Diameter of Particle equation looks like with Units.

Here is how the General Relation between Resisting Shear and Diameter of Particle equation looks like.

0.0002 = 0.155 + (0.409 \cdot \frac{6^{2}}{\sqrt{1 + 0.77 \cdot 6^{2}}})

0.0002kN/m² = 0.155 + (0.409 \cdot \frac{{6mm}^{2}}{\sqrt{1 + 0.77 \cdot {6mm}^{2}}})

0.0002 = 0.155 + (0.409 \cdot \frac{6^{2}}{\sqrt{1 + 0.77 \cdot 6^{2}}})

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General Relation between Resisting Shear and Diameter of Particle Solution

Follow our step by step solution on how to calculate General Relation between Resisting Shear and Diameter of Particle?

FIRST Step Consider the formula

ζ c = 0.155 + (0.409 \cdot \frac{d^{2}}{\sqrt{1 + 0.77 \cdot d^{2}}})

Next Step Substitute values of Variables

∴

ζ c = 0.155 + (0.409 \cdot \frac{{6mm}^{2}}{\sqrt{1 + 0.77 \cdot {6mm}^{2}}})

Next Step Convert Units

∴

ζ c = 0.155 + (0.409 \cdot \frac{{0.006m}^{2}}{\sqrt{1 + 0.77 \cdot {0.006m}^{2}}})

Next Step Prepare to Evaluate

∴

ζ c = 0.155 + (0.409 \cdot \frac{{0.006}^{2}}{\sqrt{1 + 0.77 \cdot {0.006}^{2}}})

Next Step Evaluate

∴

ζ c = 0.15501472379593Pa

Next Step Convert to Output's Unit

∴

ζ c = 0.00015501472379593kN/m²

LAST Step Rounding Answer

∴

ζ c = 0.0002kN/m²

General Relation between Resisting Shear and Diameter of Particle Formula Elements

Variables

Functions

Resisting Shear against Movement of Particle

Resisting shear against movement of particle the ability of an adhesive to resist shear stress.

Symbol: ζ_c

Measurement: StressUnit: kN/m²

Note: Value can be positive or negative.

Formulas to find Resisting Shear against Movement of Particle

Diameter of Particle

Diameter of particle Usually particle size is designated as the average diameter in microns.

Symbol: d

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Diameter of Particle

sqrt

A square root function is a function that takes a non-negative number as an input and returns the square root of the given input number.

Syntax: sqrt(Number)

Other Formulas to find Resisting Shear against Movement of Particle

Go Resisting Shear against Movement of Particle

ζ c = 0.056 \cdot Γ w \cdot d \cdot (S s - 1)

Other formulas in Design of Non Scouring Stable Channels having Protected Side Slopes (Shield's Entrainmnet Method) category

Go Drag Force Exerted by Flow

F 1 = K 1 \cdot (C D) \cdot (d^{2}) \cdot (0.5) \cdot (ρ w) \cdot (V °)

Go Unprotected Side Slopes Shear Stress Required to Move Single Grain

ζc' = ζ c \cdot \sqrt{1 - (\frac{{\sin (θ)}^{2}}{{\sin (Φ)}^{2}})}

Go Manning's Rugosity Coefficient according to Stickler's Formula

n = (\frac{1}{24}) \cdot {(d)}^{\frac{1}{6}}

How to Evaluate General Relation between Resisting Shear and Diameter of Particle?

General Relation between Resisting Shear and Diameter of Particle evaluator uses Resisting Shear against Movement of Particle = 0.155+(0.409*(Diameter of Particle^2)/sqrt(1+0.77*Diameter of Particle^2)) to evaluate the Resisting Shear against Movement of Particle, The General Relation between Resisting Shear and Diameter of Particle formula is defined as the ability of an adhesive to resist shear stress. Resisting Shear against Movement of Particle is denoted by ζ_c symbol.

How to evaluate General Relation between Resisting Shear and Diameter of Particle using this online evaluator? To use this online evaluator for General Relation between Resisting Shear and Diameter of Particle, enter Diameter of Particle (d) and hit the calculate button.

FAQs on General Relation between Resisting Shear and Diameter of Particle

What is the formula to find General Relation between Resisting Shear and Diameter of Particle?

The formula of General Relation between Resisting Shear and Diameter of Particle is expressed as Resisting Shear against Movement of Particle = 0.155+(0.409*(Diameter of Particle^2)/sqrt(1+0.77*Diameter of Particle^2)). Here is an example- 1.6E-7 = 0.155+(0.409*(0.006^2)/sqrt(1+0.77*0.006^2)).

How to calculate General Relation between Resisting Shear and Diameter of Particle?

With Diameter of Particle (d) we can find General Relation between Resisting Shear and Diameter of Particle using the formula - Resisting Shear against Movement of Particle = 0.155+(0.409*(Diameter of Particle^2)/sqrt(1+0.77*Diameter of Particle^2)). This formula also uses Square Root (sqrt) function(s).

What are the other ways to Calculate Resisting Shear against Movement of Particle?

Here are the different ways to Calculate Resisting Shear against Movement of Particle-

Resisting Shear against Movement of Particle=0.056*Unit Weight of Water*Diameter of Particle*(Specific Gravity of Particles-1)

Can the General Relation between Resisting Shear and Diameter of Particle be negative?

Yes, the General Relation between Resisting Shear and Diameter of Particle, measured in Stress can be negative.

Which unit is used to measure General Relation between Resisting Shear and Diameter of Particle?

General Relation between Resisting Shear and Diameter of Particle is usually measured using the Kilonewton per Square Meter[kN/m²] for Stress. Pascal[kN/m²], Newton per Square Meter[kN/m²], Newton per Square Millimeter[kN/m²] are the few other units in which General Relation between Resisting Shear and Diameter of Particle can be measured.

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