Chezy Constant given Discharge through Channels Solution

STEP 0: Pre-Calculation Summary
Formula Used
Chezy's Constant = Discharge of Channel/(sqrt((Wetted Surface Area of Channel^3)*Bed Slope/Wetted Perimeter of Channel))
C = Q/(sqrt((A^3)*S/p))
This formula uses 1 Functions, 5 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
Chezy's Constant - The Chezy's constant is a dimensionless quantity that can be calculated by three formulas, namely: Bazin Formula. Ganguillet -Kutter Formula. Manning's Formula.
Discharge of Channel - (Measured in Cubic Meter per Second) - Discharge of Channel is the rate of flow of a liquid.
Wetted Surface Area of Channel - (Measured in Square Meter) - Wetted Surface Area of Channel [length^2] is the total area of outer surface in contact with the surrounding water.
Bed Slope - Bed Slope is used to calculate the shear stress at the bed of an open channel containing fluid that is undergoing steady, uniform flow.
Wetted Perimeter of Channel - (Measured in Meter) - Wetted Perimeter of Channel is defined as the surface of the channel bottom and sides in direct contact with the aqueous body.
STEP 1: Convert Input(s) to Base Unit
Discharge of Channel: 14 Cubic Meter per Second --> 14 Cubic Meter per Second No Conversion Required
Wetted Surface Area of Channel: 25 Square Meter --> 25 Square Meter No Conversion Required
Bed Slope: 0.0004 --> No Conversion Required
Wetted Perimeter of Channel: 16 Meter --> 16 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
C = Q/(sqrt((A^3)*S/p)) --> 14/(sqrt((25^3)*0.0004/16))
Evaluating ... ...
C = 22.4
STEP 3: Convert Result to Output's Unit
22.4 --> No Conversion Required
FINAL ANSWER
22.4 <-- Chezy's Constant
(Calculation completed in 00.004 seconds)

Credits

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National Institute of Technology Karnataka (NITK), Surathkal
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19 Circular Section Calculators

Chezy Constant given Discharge through Channels
Go Chezy's Constant = Discharge of Channel/(sqrt((Wetted Surface Area of Channel^3)*Bed Slope/Wetted Perimeter of Channel))
Discharge through Channels
Go Discharge of Channel = Chezy's Constant*sqrt((Wetted Surface Area of Channel^3)*Bed Slope/Wetted Perimeter of Channel)
Side Slope of Channel Bed given Discharge through Channels
Go Bed Slope = Wetted Perimeter of Channel/(((Wetted Surface Area of Channel^3))/((Discharge of Channel/Chezy's Constant)^2))
Wetted Area given Discharge through Channels
Go Wetted Surface Area of Channel = (((Discharge of Channel/Chezy's Constant)^2)*Wetted Perimeter of Channel/Bed Slope)^(1/3)
Wetted Perimeter given Discharge through Channels
Go Wetted Perimeter of Channel = ((Wetted Surface Area of Channel^3)*Bed Slope)/((Discharge of Channel/Chezy's Constant)^2)
Radius of Section given Hydraulic Radius in most Efficient Channel for Maximum Velocity
Go Radius of Channel = Hydraulic Radius of Channel/0.6806
Hydraulic Radius in most Efficient channel for Maximum Velocity
Go Hydraulic Radius of Channel = 0.6806*Radius of Channel
Diameter of Section when Hydraulic Radius is at 0.9D
Go Diameter of Section = Hydraulic Radius of Channel/0.29
Radius of Section given Hydraulic Radius
Go Radius of Channel = Hydraulic Radius of Channel/0.5733
Diameter of Section given Hydraulic Radius in most Efficient Channel for Maximum Velocity
Go Diameter of Section = Hydraulic Radius of Channel/0.3
Diameter of Section given Flow Depth in most Efficient Channel
Go Diameter of Section = Depth of Flow of Channel/0.938
Diameter of Section given Depth of Flow in most Efficient channel for Maximum Velocity
Go Diameter of Section = Depth of Flow of Channel/0.81
Diameter of Section given Depth of flow in most Efficient Channel section
Go Diameter of Section = Depth of Flow of Channel/0.95
Depth of flow in most Efficient Channel in circular channel
Go Depth of Flow of Channel = 1.8988*Radius of Channel
Radius of Section given Depth of flow in Efficient Channel
Go Radius of Channel = Depth of Flow of Channel/1.8988
Radius of Section given Depth of Flow in most Efficient Channel for Maximum Velocity
Go Radius of Channel = Depth of Flow of Channel/1.626
Radius of Section given Depth of Flows in most Efficient Channel
Go Radius of Channel = Depth of Flow of Channel/1.876
Depth of Flow in most Efficient Channel for Maximum Discharge
Go Depth of Flow of Channel = 1.876*Radius of Channel
Depth of Flow in most Efficient Channel for Maximum Velocity
Go Depth of Flow of Channel = 1.626*Radius of Channel

Chezy Constant given Discharge through Channels Formula

Chezy's Constant = Discharge of Channel/(sqrt((Wetted Surface Area of Channel^3)*Bed Slope/Wetted Perimeter of Channel))
C = Q/(sqrt((A^3)*S/p))

What is Chezy Constant?

This equation is called as Chezy's Formula. Where, A is the area of flow of water, m is the hydraulic mean depth or hydraulic radius, 'i' is the slope of the bed and 'C' is the Chezy's Constant.

How to Calculate Chezy Constant given Discharge through Channels?

Chezy Constant given Discharge through Channels calculator uses Chezy's Constant = Discharge of Channel/(sqrt((Wetted Surface Area of Channel^3)*Bed Slope/Wetted Perimeter of Channel)) to calculate the Chezy's Constant, The Chezy Constant given Discharge through Channels is defined as constant depending on flow parameter and property of channel. Chezy's Constant is denoted by C symbol.

How to calculate Chezy Constant given Discharge through Channels using this online calculator? To use this online calculator for Chezy Constant given Discharge through Channels, enter Discharge of Channel (Q), Wetted Surface Area of Channel (A), Bed Slope (S) & Wetted Perimeter of Channel (p) and hit the calculate button. Here is how the Chezy Constant given Discharge through Channels calculation can be explained with given input values -> 22.4 = 14/(sqrt((25^3)*0.0004/16)).

FAQ

What is Chezy Constant given Discharge through Channels?
The Chezy Constant given Discharge through Channels is defined as constant depending on flow parameter and property of channel and is represented as C = Q/(sqrt((A^3)*S/p)) or Chezy's Constant = Discharge of Channel/(sqrt((Wetted Surface Area of Channel^3)*Bed Slope/Wetted Perimeter of Channel)). Discharge of Channel is the rate of flow of a liquid, Wetted Surface Area of Channel [length^2] is the total area of outer surface in contact with the surrounding water, Bed Slope is used to calculate the shear stress at the bed of an open channel containing fluid that is undergoing steady, uniform flow & Wetted Perimeter of Channel is defined as the surface of the channel bottom and sides in direct contact with the aqueous body.
How to calculate Chezy Constant given Discharge through Channels?
The Chezy Constant given Discharge through Channels is defined as constant depending on flow parameter and property of channel is calculated using Chezy's Constant = Discharge of Channel/(sqrt((Wetted Surface Area of Channel^3)*Bed Slope/Wetted Perimeter of Channel)). To calculate Chezy Constant given Discharge through Channels, you need Discharge of Channel (Q), Wetted Surface Area of Channel (A), Bed Slope (S) & Wetted Perimeter of Channel (p). With our tool, you need to enter the respective value for Discharge of Channel, Wetted Surface Area of Channel, Bed Slope & Wetted Perimeter of Channel and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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