General Relation between Resisting Shear and Diameter of Particle Calculator

✖Diameter of particle Usually particle size is designated as the average diameter in microns.ⓘ Diameter of Particle [d]

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✖Resisting shear against movement of particle the ability of an adhesive to resist shear stress.ⓘ General Relation between Resisting Shear and Diameter of Particle [ζ_c]

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General Relation between Resisting Shear and Diameter of Particle Solution

STEP 0: Pre-Calculation Summary

Formula Used

Resisting Shear against Movement of Particle = 0.155+(0.409*(Diameter of Particle^2)/sqrt(1+0.77*Diameter of Particle^2))
ζ_c = 0.155+(0.409*(d^2)/sqrt(1+0.77*d^2))
This formula uses 1 Functions, 2 Variables

Functions Used

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., sqrt(Number)

Variables Used

Resisting Shear against Movement of Particle - (Measured in Pascal) - Resisting shear against movement of particle the ability of an adhesive to resist shear stress.
Diameter of Particle - (Measured in Meter) - Diameter of particle Usually particle size is designated as the average diameter in microns.

STEP 1: Convert Input(s) to Base Unit

Diameter of Particle: 6 Millimeter --> 0.006 Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

ζ_c = 0.155+(0.409*(d^2)/sqrt(1+0.77*d^2)) --> 0.155+(0.409*(0.006^2)/sqrt(1+0.77*0.006^2))

Evaluating ... ...

ζ_c = 0.15501472379593

STEP 3: Convert Result to Output's Unit

0.15501472379593 Pascal -->0.00015501472379593 Kilonewton per Square Meter (Check conversion here)

FINAL ANSWER

0.00015501472379593 ≈ 0.000155 Kilonewton per Square Meter <-- Resisting Shear against Movement of Particle

(Calculation completed in 00.006 seconds)

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Home » Engineering » Civil » Irrigation Engineering » Canal Design » Design of Non Scouring Stable Channels having Protected Side Slopes (Shield's Entrainmnet Method) » General Relation between Resisting Shear and Diameter of Particle

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< Design of Non Scouring Stable Channels having Protected Side Slopes (Shield's Entrainmnet Method) Calculators

Drag Force Exerted by Flow

LaTeX Go Drag Force Exerted by Flow = Factor Depending on Shape of Particles*(Coefficient of Drag Exerted by Flow)*(Diameter of Particle^2)*(0.5)*(Density of Flowing Fluid)*(Velocity Flow at Bottom of Channel)

Unprotected Side Slopes Shear Stress Required to Move Single Grain

LaTeX Go Critical Shear Stress on Horizontal Bed = Resisting Shear against Movement of Particle*sqrt(1-(sin(Side Slope)^2/sin(Angle of Repose of Soil)^2))

Resisting Shear against Movement of Particle

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

General Relation between Resisting Shear and Diameter of Particle

LaTeX Go Resisting Shear against Movement of Particle = 0.155+(0.409*(Diameter of Particle^2)/sqrt(1+0.77*Diameter of Particle^2))

General Relation between Resisting Shear and Diameter of Particle Formula

LaTeX Go

Resisting Shear against Movement of Particle = 0.155+(0.409*(Diameter of Particle^2)/sqrt(1+0.77*Diameter of Particle^2))
ζ_c = 0.155+(0.409*(d^2)/sqrt(1+0.77*d^2))

What is Shear Resistance in Beam?

Shear resistance of the beam originates from two sources, concrete and shear reinforcement. All the national codes developed tables showing the shear resistance contributed by concrete for the grade of concrete and percentage of flexural reinforcement contained by the RC beam.

How do you calculate Shear Resistance?

The shear capacity of vertical stirrups is the tension strength of one stirrup times the number of stirrups that interrupt potential cracks on a 45-degree angle from the tension steel. Thus, Vs = Avfyd/s. A U-stirrup has an area Av = 2(area of one stirrup leg)

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

General Relation between Resisting Shear and Diameter of Particle calculator uses Resisting Shear against Movement of Particle = 0.155+(0.409*(Diameter of Particle^2)/sqrt(1+0.77*Diameter of Particle^2)) to calculate 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 calculate General Relation between Resisting Shear and Diameter of Particle using this online calculator? To use this online calculator for General Relation between Resisting Shear and Diameter of Particle, enter Diameter of Particle (d) and hit the calculate button. Here is how the General Relation between Resisting Shear and Diameter of Particle calculation can be explained with given input values -> 1.6E-7 = 0.155+(0.409*(0.006^2)/sqrt(1+0.77*0.006^2)).

FAQ

What is General Relation between Resisting Shear and Diameter 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 and is represented as ζ_c = 0.155+(0.409*(d^2)/sqrt(1+0.77*d^2)) or Resisting Shear against Movement of Particle = 0.155+(0.409*(Diameter of Particle^2)/sqrt(1+0.77*Diameter of Particle^2)). Diameter of particle Usually particle size is designated as the average diameter in microns.

How to calculate General Relation between Resisting Shear and Diameter 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 is calculated using Resisting Shear against Movement of Particle = 0.155+(0.409*(Diameter of Particle^2)/sqrt(1+0.77*Diameter of Particle^2)). To calculate General Relation between Resisting Shear and Diameter of Particle, you need Diameter of Particle (d). With our tool, you need to enter the respective value for Diameter of Particle 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 Resisting Shear against Movement of Particle?

In this formula, Resisting Shear against Movement of Particle uses Diameter of Particle. We can use 1 other way(s) to calculate the same, which is/are as follows -

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

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