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Coefficient Dependent on Pipe given Head Loss Formula

GoCoefficient of Roughness of Pipe given Mean Velocity of Flow Formula

GoCoefficient of Roughness of Pipe given Diameter of Pipe Formula

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Coefficient of Roughness of Pipe is a dimensionless parameter used in environmental engineering, particularly in fluid mechanics and hydraulics. Check FAQs

C = {(\frac{6.78 \cdot L p \cdot {v avg}^{1.85}}{({D p}^{1.165}) \cdot H L'})}^{\frac{1}{1.85}}

C - Coefficient of Roughness of Pipe?L_p - Length of Pipe?v_avg - Average Velocity in Pipe Fluid Flow?D_p - Diameter of Pipe?H_L' - Head Loss in Pipe?

Coefficient Dependent on Pipe given Head Loss Example

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Here is how the Coefficient Dependent on Pipe given Head Loss equation looks like with Values.

Here is how the Coefficient Dependent on Pipe given Head Loss equation looks like with Units.

Here is how the Coefficient Dependent on Pipe given Head Loss equation looks like.

31.3284 = {(\frac{6.78 \cdot 2.5 \cdot {4.57}^{1.85}}{({0.4}^{1.165}) \cdot 1.4})}^{\frac{1}{1.85}}

31.3284 = {(\frac{6.78 \cdot 2.5m \cdot {4.57m/s}^{1.85}}{({0.4m}^{1.165}) \cdot 1.4m})}^{\frac{1}{1.85}}

31.3284 = {(\frac{6.78 \cdot 2.5 \cdot {4.57}^{1.85}}{({0.4}^{1.165}) \cdot 1.4})}^{\frac{1}{1.85}}

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Coefficient Dependent on Pipe given Head Loss Solution

Follow our step by step solution on how to calculate Coefficient Dependent on Pipe given Head Loss?

FIRST Step Consider the formula

C = {(\frac{6.78 \cdot L p \cdot {v avg}^{1.85}}{({D p}^{1.165}) \cdot H L'})}^{\frac{1}{1.85}}

Next Step Substitute values of Variables

∴

C = {(\frac{6.78 \cdot 2.5m \cdot {4.57m/s}^{1.85}}{({0.4m}^{1.165}) \cdot 1.4m})}^{\frac{1}{1.85}}

Next Step Prepare to Evaluate

∴

C = {(\frac{6.78 \cdot 2.5 \cdot {4.57}^{1.85}}{({0.4}^{1.165}) \cdot 1.4})}^{\frac{1}{1.85}}

Next Step Evaluate

∴

C = 31.3284409010289

LAST Step Rounding Answer

∴

C = 31.3284

Coefficient Dependent on Pipe given Head Loss Formula Elements

Variables

Coefficient of Roughness of Pipe

Coefficient of Roughness of Pipe is a dimensionless parameter used in environmental engineering, particularly in fluid mechanics and hydraulics.

Symbol: C

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Coefficient of Roughness of Pipe

Length of Pipe

Length of Pipe describes the length of the pipe in which the liquid is flowing.

Symbol: L_p

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Length of Pipe

Average Velocity in Pipe Fluid Flow

Average Velocity in Pipe Fluid Flow is the total volumetric flow rate divided by the cross-sectional area of the pipe.

Symbol: v_avg

Measurement: SpeedUnit: m/s

Note: Value should be greater than 0.

Formulas to find Average Velocity in Pipe Fluid Flow

Diameter of Pipe

Diameter of Pipe is the diameter of the pipe in which the liquid is flowing.

Symbol: D_p

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Diameter of Pipe

Head Loss in Pipe

Head Loss in Pipe is a measure of the reduction in the total head (sum of elevation head, velocity head and pressure head) of the fluid as it moves through a pipe.

Symbol: H_L'

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Head Loss in Pipe

Other Formulas to find Coefficient of Roughness of Pipe

Go Coefficient of Roughness of Pipe given Mean Velocity of Flow

C = \frac{v avg}{0.85 \cdot ({(R)}^{0.63}) \cdot {(S)}^{0.54}}

Go Coefficient of Roughness of Pipe given Diameter of Pipe

C = \frac{v avg}{0.355 \cdot ({(D pipe)}^{0.63}) \cdot {(S)}^{0.54}}

Go Coefficient Dependent on Pipe given Radius of Pipe

C = {(\frac{6.78 \cdot L p \cdot {v avg}^{1.85}}{({(2 \cdot R)}^{1.165}) \cdot H L'})}^{\frac{1}{1.85}}

Other formulas in Hazen Williams Formula category

Go Mean Velocity of Flow in Pipe by Hazen Williams Formula

v avg = 0.85 \cdot C \cdot ({(R)}^{0.63}) \cdot {(S)}^{0.54}

Go Head Loss by Hazen Williams Formula

H L' = \frac{6.78 \cdot L p \cdot {v avg}^{1.85}}{({D p}^{1.165}) \cdot C^{1.85}}

Go Length of Pipe given Head Loss by Hazen Williams Formula

L p = \frac{h f}{\frac{6.78 \cdot {v avg}^{1.85}}{({D p}^{1.165}) \cdot C^{1.85}}}

Go Velocity of Flow given Head Loss by Hazen Williams Formula

v avg = {(\frac{h f}{\frac{6.78 \cdot L p}{({D p}^{1.165}) \cdot C^{1.85}}})}^{\frac{1}{1.85}}

How to Evaluate Coefficient Dependent on Pipe given Head Loss?

Coefficient Dependent on Pipe given Head Loss evaluator uses Coefficient of Roughness of Pipe = ((6.78*Length of Pipe*Average Velocity in Pipe Fluid Flow^(1.85))/((Diameter of Pipe^(1.165))*Head Loss in Pipe))^(1/1.85) to evaluate the Coefficient of Roughness of Pipe, The Coefficient Dependent on Pipe given Head Loss is defined as the value of roughness coefficient dependent on pipe when we have prior information of head loss. Coefficient of Roughness of Pipe is denoted by C symbol.

How to evaluate Coefficient Dependent on Pipe given Head Loss using this online evaluator? To use this online evaluator for Coefficient Dependent on Pipe given Head Loss, enter Length of Pipe (L_p), Average Velocity in Pipe Fluid Flow (v_avg), Diameter of Pipe (D_p) & Head Loss in Pipe (H_L') and hit the calculate button.

FAQs on Coefficient Dependent on Pipe given Head Loss

What is the formula to find Coefficient Dependent on Pipe given Head Loss?

The formula of Coefficient Dependent on Pipe given Head Loss is expressed as Coefficient of Roughness of Pipe = ((6.78*Length of Pipe*Average Velocity in Pipe Fluid Flow^(1.85))/((Diameter of Pipe^(1.165))*Head Loss in Pipe))^(1/1.85). Here is an example- 31.32844 = ((6.78*2.5*4.57^(1.85))/((0.4^(1.165))*1.4))^(1/1.85).

How to calculate Coefficient Dependent on Pipe given Head Loss?

With Length of Pipe (L_p), Average Velocity in Pipe Fluid Flow (v_avg), Diameter of Pipe (D_p) & Head Loss in Pipe (H_L') we can find Coefficient Dependent on Pipe given Head Loss using the formula - Coefficient of Roughness of Pipe = ((6.78*Length of Pipe*Average Velocity in Pipe Fluid Flow^(1.85))/((Diameter of Pipe^(1.165))*Head Loss in Pipe))^(1/1.85).

What are the other ways to Calculate Coefficient of Roughness of Pipe?

Here are the different ways to Calculate Coefficient of Roughness of Pipe-

Coefficient of Roughness of Pipe=Average Velocity in Pipe Fluid Flow/(0.85*((Pipe Radius)^(0.63))*(Hydraulic Gradient)^(0.54))
Coefficient of Roughness of Pipe=Average Velocity in Pipe Fluid Flow/(0.355*((Pipe Diameter)^(0.63))*(Hydraulic Gradient)^(0.54))
Coefficient of Roughness of Pipe=((6.78*Length of Pipe*Average Velocity in Pipe Fluid Flow^(1.85))/(((2*Pipe Radius)^(1.165))*Head Loss in Pipe))^(1/1.85)

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Coefficient Dependent on Pipe given Head Loss Formula

​GoCoefficient of Roughness of Pipe given Mean Velocity of Flow Formula

​GoCoefficient of Roughness of Pipe given Diameter of Pipe Formula

Coefficient Dependent on Pipe given Head Loss Example

Coefficient Dependent on Pipe given Head Loss Solution

Coefficient Dependent on Pipe given Head Loss Formula Elements

Other Formulas to find Coefficient of Roughness of Pipe

Other formulas in Hazen Williams Formula category

How to Evaluate Coefficient Dependent on Pipe given Head Loss?

FAQs on Coefficient Dependent on Pipe given Head Loss

Variable Name

GoCoefficient of Roughness of Pipe given Mean Velocity of Flow Formula

GoCoefficient of Roughness of Pipe given Diameter of Pipe Formula