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Chezy's constant considering Kutter's formula Formula

GoChezy's constant considering velocity Formula

GoChezy's constant considering Bazin formula Formula

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Chezy's constant for flow in open channel is a factor used in the equation that estimates mean flow velocity in open channel conduits. Check FAQs

C = \frac{23 + (\frac{0.00155}{i}) + (\frac{1}{n})}{1 + (23 + (\frac{0.00155}{i})) \cdot (\frac{n}{\sqrt{m}})}

C - Chezy's Constant for Flow in Open Channel?i - Slope of Bed of Open Channel?n - Manning’s Coefficient for Open Channel Flow?m - Hydraulic Mean Depth for Open Channel?

Chezy's constant considering Kutter's formula Example

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Here is how the Chezy's constant considering Kutter's formula equation looks like with Values.

Here is how the Chezy's constant considering Kutter's formula equation looks like with Units.

Here is how the Chezy's constant considering Kutter's formula equation looks like.

60.7202 = \frac{23 + (\frac{0.00155}{0.005}) + (\frac{1}{0.0145})}{1 + (23 + (\frac{0.00155}{0.005})) \cdot (\frac{0.0145}{\sqrt{0.423}})}

60.7202 = \frac{23 + (\frac{0.00155}{0.005}) + (\frac{1}{0.0145})}{1 + (23 + (\frac{0.00155}{0.005})) \cdot (\frac{0.0145}{\sqrt{0.423m}})}

60.7202 = \frac{23 + (\frac{0.00155}{0.005}) + (\frac{1}{0.0145})}{1 + (23 + (\frac{0.00155}{0.005})) \cdot (\frac{0.0145}{\sqrt{0.423}})}

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Chezy's constant considering Kutter's formula Solution

Follow our step by step solution on how to calculate Chezy's constant considering Kutter's formula?

FIRST Step Consider the formula

C = \frac{23 + (\frac{0.00155}{i}) + (\frac{1}{n})}{1 + (23 + (\frac{0.00155}{i})) \cdot (\frac{n}{\sqrt{m}})}

Next Step Substitute values of Variables

∴

C = \frac{23 + (\frac{0.00155}{0.005}) + (\frac{1}{0.0145})}{1 + (23 + (\frac{0.00155}{0.005})) \cdot (\frac{0.0145}{\sqrt{0.423m}})}

Next Step Prepare to Evaluate

∴

C = \frac{23 + (\frac{0.00155}{0.005}) + (\frac{1}{0.0145})}{1 + (23 + (\frac{0.00155}{0.005})) \cdot (\frac{0.0145}{\sqrt{0.423}})}

Next Step Evaluate

∴

C = 60.7201648715592

LAST Step Rounding Answer

∴

C = 60.7202

Chezy's constant considering Kutter's formula Formula Elements

Variables

Functions

Chezy's Constant for Flow in Open Channel

Chezy's constant for flow in open channel is a factor used in the equation that estimates mean flow velocity in open channel conduits.

Symbol: C

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Chezy's Constant for Flow in Open Channel

Slope of Bed of Open Channel

Slope of bed of open channel is the slope of the bottom surface or the bed of a open channel containing fluid that is undergoing steady, uniform flow.

Symbol: i

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Slope of Bed of Open Channel

Manning’s Coefficient for Open Channel Flow

Manning’s coefficient for open channel flow represents the roughness or friction applied to the flow by the channel.

Symbol: n

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Manning’s Coefficient for Open Channel Flow

Hydraulic Mean Depth for Open Channel

Hydraulic mean depth for open channel is defined as the area of the flow section divided by the top water surface width.

Symbol: m

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Hydraulic Mean Depth for Open Channel

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 Chezy's Constant for Flow in Open Channel

Go Chezy's constant considering velocity

C = \frac{v}{\sqrt{m \cdot i}}

Go Chezy's constant considering Bazin formula

C = \frac{157.6}{1.81 + (\frac{K}{\sqrt{m}})}

Go Chezy's constant considering Manning's formula

C = (\frac{1}{n}) \cdot (m^{\frac{1}{6}})

Other formulas in Flow in Open Channels category

Go Velocity of Chezy's formula

v = C \cdot \sqrt{m \cdot i}

Go Hydraulic mean depth using Chezy's formula

m = (\frac{1}{i}) \cdot {(\frac{v}{C})}^{2}

Go Bazin's constant

K = (\sqrt{m}) \cdot ((\frac{157.6}{C}) - 1.81)

Go Hydraulic mean depth considering Bazin formula

m = {(\frac{K}{((\frac{157.6}{C}) - 1.81)})}^{2}

How to Evaluate Chezy's constant considering Kutter's formula?

Chezy's constant considering Kutter's formula evaluator uses Chezy's Constant for Flow in Open Channel = (23+(0.00155/Slope of Bed of Open Channel)+(1/Manning’s Coefficient for Open Channel Flow))/(1+(23+(0.00155/Slope of Bed of Open Channel))*(Manning’s Coefficient for Open Channel Flow/sqrt(Hydraulic Mean Depth for Open Channel))) to evaluate the Chezy's Constant for Flow in Open Channel, The Chezy's constant considering Kutter's formula is known while considering manning's constant or coefficient, the slope of bed, and the hydraulic mean depth. Chezy's Constant for Flow in Open Channel is denoted by C symbol.

How to evaluate Chezy's constant considering Kutter's formula using this online evaluator? To use this online evaluator for Chezy's constant considering Kutter's formula, enter Slope of Bed of Open Channel (i), Manning’s Coefficient for Open Channel Flow (n) & Hydraulic Mean Depth for Open Channel (m) and hit the calculate button.

FAQs on Chezy's constant considering Kutter's formula

What is the formula to find Chezy's constant considering Kutter's formula?

The formula of Chezy's constant considering Kutter's formula is expressed as Chezy's Constant for Flow in Open Channel = (23+(0.00155/Slope of Bed of Open Channel)+(1/Manning’s Coefficient for Open Channel Flow))/(1+(23+(0.00155/Slope of Bed of Open Channel))*(Manning’s Coefficient for Open Channel Flow/sqrt(Hydraulic Mean Depth for Open Channel))). Here is an example- 60.72016 = (23+(0.00155/0.005)+(1/0.0145))/(1+(23+(0.00155/0.005))*(0.0145/sqrt(0.423))).

How to calculate Chezy's constant considering Kutter's formula?

With Slope of Bed of Open Channel (i), Manning’s Coefficient for Open Channel Flow (n) & Hydraulic Mean Depth for Open Channel (m) we can find Chezy's constant considering Kutter's formula using the formula - Chezy's Constant for Flow in Open Channel = (23+(0.00155/Slope of Bed of Open Channel)+(1/Manning’s Coefficient for Open Channel Flow))/(1+(23+(0.00155/Slope of Bed of Open Channel))*(Manning’s Coefficient for Open Channel Flow/sqrt(Hydraulic Mean Depth for Open Channel))). This formula also uses Square Root (sqrt) function(s).

What are the other ways to Calculate Chezy's Constant for Flow in Open Channel?

Here are the different ways to Calculate Chezy's Constant for Flow in Open Channel-

Chezy's Constant for Flow in Open Channel=Flow Velocity in Open Channel/(sqrt(Hydraulic Mean Depth for Open Channel*Slope of Bed of Open Channel))
Chezy's Constant for Flow in Open Channel=157.6/(1.81+(Bazin's Constant for Flow in Open Channel/sqrt(Hydraulic Mean Depth for Open Channel)))
Chezy's Constant for Flow in Open Channel=(1/Manning’s Coefficient for Open Channel Flow)*(Hydraulic Mean Depth for Open Channel^(1/6))

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Chezy's constant considering Kutter's formula Formula

​GoChezy's constant considering velocity Formula

​GoChezy's constant considering Bazin formula Formula

Chezy's constant considering Kutter's formula Example

Chezy's constant considering Kutter's formula Solution

Chezy's constant considering Kutter's formula Formula Elements

Other Formulas to find Chezy's Constant for Flow in Open Channel

Other formulas in Flow in Open Channels category

How to Evaluate Chezy's constant considering Kutter's formula?

FAQs on Chezy's constant considering Kutter's formula

Variable Name

GoChezy's constant considering velocity Formula

GoChezy's constant considering Bazin formula Formula