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Hydraulic Mean Depth given Self Cleaning Invert Slope Formula

GoHydraulic Mean Depth of Channel given Drag Force Formula

GoHydraulic Mean Depth given Self Cleansing Velocity Formula

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The Hydraulic Mean Depth refers to the cross-sectional area of flow divided by the wetted perimeter, used to analyze fluid flow in channels. Check FAQs

m = (\frac{k}{sL I}) \cdot (G - 1) \cdot d'

m - Hydraulic Mean Depth?k - Dimensional Constant?sL_I - Self Cleaning Invert Slope?G - Specific Gravity of Sediment?d^' - Diameter of Particle?

Hydraulic Mean Depth given Self Cleaning Invert Slope Example

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Here is how the Hydraulic Mean Depth given Self Cleaning Invert Slope equation looks like with Values.

Here is how the Hydraulic Mean Depth given Self Cleaning Invert Slope equation looks like with Units.

Here is how the Hydraulic Mean Depth given Self Cleaning Invert Slope equation looks like.

10 = (\frac{0.04}{5.8E-6}) \cdot (1.3 - 1) \cdot 4.8

10m = (\frac{0.04}{5.8E-6}) \cdot (1.3 - 1) \cdot 4.8mm

10 = (\frac{0.04}{5.8E-6}) \cdot (1.3 - 1) \cdot 4.8

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Hydraulic Mean Depth given Self Cleaning Invert Slope Solution

Follow our step by step solution on how to calculate Hydraulic Mean Depth given Self Cleaning Invert Slope?

FIRST Step Consider the formula

m = (\frac{k}{sL I}) \cdot (G - 1) \cdot d'

Next Step Substitute values of Variables

∴

m = (\frac{0.04}{5.8E-6}) \cdot (1.3 - 1) \cdot 4.8mm

Next Step Convert Units

∴

m = (\frac{0.04}{5.8E-6}) \cdot (1.3 - 1) \cdot 0.0048m

Next Step Prepare to Evaluate

∴

m = (\frac{0.04}{5.8E-6}) \cdot (1.3 - 1) \cdot 0.0048

LAST Step Evaluate

∴

m = 10m

Hydraulic Mean Depth given Self Cleaning Invert Slope Formula Elements

Variables

Hydraulic Mean Depth

The Hydraulic Mean Depth refers to the cross-sectional area of flow divided by the wetted perimeter, used to analyze fluid flow in channels.

Symbol: m

Measurement: LengthUnit: m

Note: Value can be positive or negative.

Formulas to find Hydraulic Mean Depth

Dimensional Constant

Dimensional Constant indicates important characteristics of sediments present in the sewage. Its value usually varies from 0.04 (start of scouring of clean grit) to 0.08 (full removal of sticky grit).

Symbol: k

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Dimensional Constant

Self Cleaning Invert Slope

The Self Cleaning Invert Slope refers to the minimum slope required in a sewer to maintain flow velocity that prevents sediment buildup.

Symbol: sL_I

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Self Cleaning Invert Slope

Specific Gravity of Sediment

Specific Gravity of Sediment is the ratio of sediment particle density to the density of water, indicating its heaviness.

Symbol: G

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Specific Gravity of Sediment

Diameter of Particle

The Diameter of Particle is the straight-line distance across its widest point, typically measured in micrometers or millimeters.

Symbol: d^'

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Diameter of Particle

Other Formulas to find Hydraulic Mean Depth

Go Hydraulic Mean Depth of Channel given Drag Force

m = \frac{F D}{γ w \cdot S̄}

Go Hydraulic Mean Depth given Self Cleansing Velocity

m = {(\frac{v s \cdot n}{\sqrt{k \cdot d' \cdot (G - 1)}})}^{6}

How to Evaluate Hydraulic Mean Depth given Self Cleaning Invert Slope?

Hydraulic Mean Depth given Self Cleaning Invert Slope evaluator uses Hydraulic Mean Depth = (Dimensional Constant/Self Cleaning Invert Slope)*(Specific Gravity of Sediment-1)*Diameter of Particle to evaluate the Hydraulic Mean Depth, The Hydraulic Mean Depth given Self Cleaning Invert Slope is defined as the cross-sectional area of flow divided by the wetted perimeter, adapting to varying water levels. Hydraulic Mean Depth is denoted by m symbol.

How to evaluate Hydraulic Mean Depth given Self Cleaning Invert Slope using this online evaluator? To use this online evaluator for Hydraulic Mean Depth given Self Cleaning Invert Slope, enter Dimensional Constant (k), Self Cleaning Invert Slope (sL_I), Specific Gravity of Sediment (G) & Diameter of Particle (d^') and hit the calculate button.

FAQs on Hydraulic Mean Depth given Self Cleaning Invert Slope

What is the formula to find Hydraulic Mean Depth given Self Cleaning Invert Slope?

The formula of Hydraulic Mean Depth given Self Cleaning Invert Slope is expressed as Hydraulic Mean Depth = (Dimensional Constant/Self Cleaning Invert Slope)*(Specific Gravity of Sediment-1)*Diameter of Particle. Here is an example- 3.8E-5 = (0.04/self_cleaning_invert_slope)*(1.3-1)*0.0048.

How to calculate Hydraulic Mean Depth given Self Cleaning Invert Slope?

With Dimensional Constant (k), Self Cleaning Invert Slope (sL_I), Specific Gravity of Sediment (G) & Diameter of Particle (d^') we can find Hydraulic Mean Depth given Self Cleaning Invert Slope using the formula - Hydraulic Mean Depth = (Dimensional Constant/Self Cleaning Invert Slope)*(Specific Gravity of Sediment-1)*Diameter of Particle.

What are the other ways to Calculate Hydraulic Mean Depth?

Here are the different ways to Calculate Hydraulic Mean Depth-

Hydraulic Mean Depth=Drag Force/(Unit Weight of Fluid*Bed Slope of a Sewer)
Hydraulic Mean Depth=((Self Cleansing Velocity*Rugosity Coefficient)/sqrt(Dimensional Constant*Diameter of Particle*(Specific Gravity of Sediment-1)))^6

Can the Hydraulic Mean Depth given Self Cleaning Invert Slope be negative?

Yes, the Hydraulic Mean Depth given Self Cleaning Invert Slope, measured in Length can be negative.

Which unit is used to measure Hydraulic Mean Depth given Self Cleaning Invert Slope?

Hydraulic Mean Depth given Self Cleaning Invert Slope is usually measured using the Meter[m] for Length. Millimeter[m], Kilometer[m], Decimeter[m] are the few other units in which Hydraulic Mean Depth given Self Cleaning Invert Slope can be measured.

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Hydraulic Mean Depth given Self Cleaning Invert Slope Formula

​GoHydraulic Mean Depth of Channel given Drag Force Formula

​GoHydraulic Mean Depth given Self Cleansing Velocity Formula

Hydraulic Mean Depth given Self Cleaning Invert Slope Example

Hydraulic Mean Depth given Self Cleaning Invert Slope Solution

Hydraulic Mean Depth given Self Cleaning Invert Slope Formula Elements

Other Formulas to find Hydraulic Mean Depth

How to Evaluate Hydraulic Mean Depth given Self Cleaning Invert Slope?

FAQs on Hydraulic Mean Depth given Self Cleaning Invert Slope

Variable Name

GoHydraulic Mean Depth of Channel given Drag Force Formula

GoHydraulic Mean Depth given Self Cleansing Velocity Formula