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Hydraulic Radius of Channel in Hydraulics and Waterworks Formulas

Hydraulic Radius of Channel is the ratio of the cross-sectional area of a channel or pipe in which a fluid is flowing to the wet perimeter of the conduit. And is denoted by RH. Hydraulic Radius of Channel is usually measured using the Meter for Length. Note that the value of Hydraulic Radius of Channel is always positive.

Formulas to find Hydraulic Radius of Channel in Hydraulics and Waterworks

fxHydraulic Radius of Triangular Channel Section​Go
fxHydraulic Radius of Trapezoidal Channel Section​Go
fxHydraulic Radius or Hydraulic Mean Depth​Go
fxHydraulic Radius of Channel Section given Discharge​Go
fxHydraulic Radius of Channel Section given Conveyance of Channel Section​Go
fxManning's Formula for Hydraulic Radius of Channel Section given Conveyance of Section​Go
fxManning's Formula for Hydraulic Radius given Energy Slope​Go
fxChezy Formula for Hydraulic Radius given Energy Slope​Go
fxHydraulic Radius in most Efficient channel for Maximum Velocity​Go
fxHydraulic Radius of Most Efficient Channel​Go
fxHydraulic Radius given Boundary Shear Stress​Go
fxHydraulic Radius given Average Velocity in Channel​Go
fxHydraulic Radius given Average Velocity in Channel with Chezy Constant​Go
fxManning's Formula for Hydraulic Radius given Average Velocity​Go
fxManning's Formula for Hydraulic Radius given Chezy's Constant​Go
fxHydraulic Radius given Mean Velocity of flow in Smooth Channels​Go
fxHydraulic Radius given Mean Velocity of flow in Rough Channels​Go
fxHydraulic Radius given Chezy Constant for Rough Channels​Go

Hydraulics and Waterworks formulas that make use of Hydraulic Radius of Channel

fxWetted Area given Hydraulic Mean Depth​Go
fxWetted Perimeter given Hydraulic Mean Depth​Go
fxDischarge through Channel​Go
fxArea of Channel Section given Discharge​Go
fxBed Slope of Channel Section given Discharge​Go
fxChezy Constant given Discharge​Go
fxConveyance of Channel Section​Go
fxChezy Constant given Conveyance of Channel Section​Go
fxArea of Channel Section given Conveyance of Channel Section​Go
fxManning's Formula for Conveyance of Section​Go
fxArea of Channel Section by Manning's Formula​Go
fxManning's Formula for Roughness Coefficient given Conveyance of Section​Go
fxManning's Formula for Energy Slope​Go
fxManning's Formula for Roughness Coefficient given Energy Slope​Go
fxManning's Formula for Mean Velocity given Energy Slope​Go
fxChezy Formula for Energy Slope​Go
fxChezy Formula for Mean Velocity given Energy Slope​Go
fxChezy's Constant using Chezy Formula given Energy Slope​Go
fxRadius of Section given Hydraulic Radius​Go
fxDiameter of Section when Hydraulic Radius is at 0.9D​Go
fxRadius of Section given Hydraulic Radius in most Efficient Channel for Maximum Velocity​Go
fxDiameter of Section given Hydraulic Radius in most Efficient Channel for Maximum Velocity​Go
fxDepth of Flow given Hydraulic Radius in Most Efficient Trapezoidal Channel​Go
fxBoundary Shear Stress​Go
fxSpecific Weight of Liquid given Boundary Shear Stress​Go
fxSlope of Channel Bottom given Boundary Shear Stress​Go
fxAverage Velocity in Channel​Go
fxSlope of Channel Bed given Average Velocity in Channel​Go
fxFriction Factor given Average Velocity in Channel​Go
fxAverage Velocity in Channel given Chezy Constant​Go
fxSlope of Channel Bed given Average Velocity in Channel with Chezy Constant​Go
fxChezy Constant given Average Velocity in Channel​Go
fxManning's Formula for Average Velocity​Go
fxManning's Formula for Slope of Channel Bed given Average Velocity​Go
fxManning's Formula for Coefficient of Roughness given Average Velocity​Go
fxMean Velocity of flow in Smooth Channels​Go
fxMean Velocity of flow in Rough Channels​Go
fxKinematic Viscosity given Mean Velocity of flow in Smooth Channels​Go
fxAverage Height of Roughness Protrusions given Mean Velocity of flow in Rough Channels​Go
fxChezy Constant for Rough Channels​Go
fxAverage Height of Roughness Protrusions given Chezy Constant for Rough Channels​Go

List of variables in Hydraulics and Waterworks formulas

fx Depth of Flow ​Go
fx Width of Trapezoidal Channel Section ​Go
fx Theta ​Go
fx Wetted Surface Area of Channel ​Go
fx Wetted Perimeter of Channel ​Go
fx Discharge of Channel ​Go
fx Chezy's Constant ​Go
fx Cross-Sectional Area of Channel ​Go
fx Bed Slope ​Go
fx Conveyance Factor ​Go
fx Manning’s Roughness Coefficient ​Go
fx Mean Velocity for Varied Flow ​Go
fx Energy Slope ​Go
fx Chézy’s Coefficients for Varied Flow ​Go
fx Radius of Channel ​Go
fx Shear Stress of Wall ​Go
fx Liquid Specific Weight ​Go
fx Average Velocity of Flow ​Go
fx Darcy Friction Factor ​Go
fx Average Velocity of Uniform Flow ​Go
fx Average Velocity of Turbulent flow ​Go
fx Shear Velocity ​Go
fx Kinematic Viscosity of Turbulent Flow ​Go
fx Roughness Value ​Go

FAQ

What is the Hydraulic Radius of Channel?
Hydraulic Radius of Channel is the ratio of the cross-sectional area of a channel or pipe in which a fluid is flowing to the wet perimeter of the conduit. Hydraulic Radius of Channel is usually measured using the Meter for Length. Note that the value of Hydraulic Radius of Channel is always positive.
Can the Hydraulic Radius of Channel be negative?
No, the Hydraulic Radius of Channel, measured in Length cannot be negative.
What unit is used to measure Hydraulic Radius of Channel?
Hydraulic Radius of Channel is usually measured using the Meter[m] for Length. Millimeter[m], Kilometer[m], Decimeter[m] are the few other units in which Hydraulic Radius of Channel can be measured.
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