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Depth of Flow in Hydraulics and Waterworks Formulas

Depth of Flow is the distance from the top or surface of the flow to the bottom of a channel or other waterway or Depth of Flow at the Vertical while measuring Sound Weights. And is denoted by d_f. Depth of Flow is usually measured using the Meter for Length. Note that the value of Depth of Flow is always positive.

Formulas to find Depth of Flow in Hydraulics and Waterworks

fxDepth of Flow given Wetted Area for ParabolaGo

fxDepth of Flow given Top Width for ParabolaGo

fxDepth of Flow given Hydraulic Depth for ParabolaGo

fxDepth of Flow given Section Factor for ParabolaGo

fxDepth of Flow given Wetted Area of Triangular Channel SectionGo

fxDepth of Flow given Wetted Perimeter of Triangular Channel SectionGo

fxDepth of Flow given Total Energy per Unit Weight of Water in Flow SectionGo

fxDepth of Flow given Total Energy in Flow Section taking Bed Slope as DatumGo

fxDepth of Flow given DischargeGo

fxDepth of Flow given Discharge through Critical Depth FlumeGo

fxDepth of Flow given Total EnergyGo

fxDepth of Flow given Energy Slope of Rectangular channelGo

fxChezy Formula for Depth of Flow given Energy Slope of Rectangular ChannelGo

fxDepth of Water Flow in Channel given Velocity ApproachGo

fxDepth of Flow in most Efficient Channel in Trapezoidal Channel given Channel SlopeGo

fxDepth of Flow given Hydraulic Radius in Most Efficient Trapezoidal ChannelGo

fxDepth of Flow when Width of Channel in Most Efficient Channel for Bottom Width is kept ConstantGo

fxDepth of Flow given Wetted Area in Most Efficient Channel for Bottom Width is kept ConstantGo

fxDepth of Flow in most Efficient Channel in Trapezoidal ChannelGo

Hydraulics and Waterworks formulas that make use of Depth of Flow

fxWetted AreaGo

fxTop Width given Wetted AreaGo

fxWetted Perimeter for ParabolaGo

fxHydraulic Radius given WidthGo

fxTop Width given Hydraulic RadiusGo

fxTop Width for ParabolaGo

fxWetted Area given Top WidthGo

fxHydraulic Depth for ParabolaGo

fxTop Widths given Section FactorGo

fxWetted Area of Triangular Channel SectionGo

fxWetted Perimeter of Triangular Channel SectionGo

fxHydraulic Radius of Triangular Channel SectionGo

fxWetted Area of Trapezoidal Channel SectionGo

fxWetted Perimeter of Trapezoidal Channel SectionGo

fxHydraulic Radius of Trapezoidal Channel SectionGo

fxTotal Energy per unit Weight of Water in Flow SectionGo

fxDatum Height for Total Energy per unit Weight of Water in Flow SectionGo

fxMean Velocity of Flow for Total Energy per Unit Weight of Water in Flow SectionGo

fxTotal Energy per unit Weight of Water in Flow Section considering Bed Slope as DatumGo

fxMean Velocity of flow given Total Energy in flow section taking Bed Slope as DatumGo

fxDischarge through AreaGo

fxArea of Section given DischargeGo

fxTotal Energy per unit Weight of Water in Flow Section given DischargeGo

fxSection Factor in open channelGo

fxDischarge through Critical Depth FlumeGo

fxDischarge Coefficient given Discharge through Critical Depth FlumeGo

fxWidth of Throat given Discharge through Critical Depth FlumeGo

fxTotal Energy of FlowGo

fxArea of Section given Total EnergyGo

fxDischarge given Total EnergyGo

fxBed Slope given Energy Slope of Rectangular channelGo

fxNormal Depth given Energy Slope of Rectangular channelGo

fxChezy Formula for Bed Slope given Energy Slope of Rectangular ChannelGo

fxChezy Formula for Normal Depth given Energy Slope of Rectangular ChannelGo

fxSlope of Dynamic Equations of Gradually Varied FlowGo

fxBed Slope of Channel given Slope of Dynamic Equation of Gradually Varied FlowGo

fxNormal Depth of Channel given Slope of Dynamic Equation of Gradually Varied FlowGo

fxCritical Depth of Channel given Slope of Dynamic Equation of Gradually Varied FlowGo

fxChezy Formula for Slope of Dynamic Equation of Gradually Varied FlowGo

fxBed Slope of Channel given Slope of Dynamic Equation of GVF through Chezy formulaGo

fxChezy Formula for Normal Depth of Channel given Slope of Dynamic Equation of GVFGo

fxChezy Formula for Critical Depth of Channel given Slope of Dynamic Equation of GVFGo

fxEnergy Slope of Rectangular channelGo

fxChezy Formula for Energy Slope of Rectangular ChannelGo

fxAbsolute Velocity of SurgesGo

fxVelocity of Flow given Absolute Velocity of SurgesGo

fxCelerity of Wave given is DepthGo

fxApproach VelocityGo

fxWidth of Channel given Velocity ApproachGo

fxDischarge given Velocity ApproachGo

fxWidth of Channel given Depth of Flow in Efficient ChannelGo

fxHydraulic Radius of Most Efficient ChannelGo

fxWidth of Channel in Most Efficient Channel when Bottom width is kept constantGo

fxWetted Area in Most Efficient Channel for Bottom Width is kept ConstantGo

fxSide Slope of Section given Wetted Area for Bottom Width is kept ConstantGo

fxSide Slope of Section for Depth of Flow is kept ConstantGo

fxWidth of Channel in most Efficient Channel sectionsGo

fxWidth of Channel in most Efficient Channels sectionGo

List of variables in Hydraulics and Waterworks formulas

fx Wetted Surface Area of Parabola Go

fx Top Width Go

fx Hydraulic Depth of Parabolic Channel Go

fx Section Factor of Parabola Go

fx Wetted Surface Area of Channel Go

fx Theta Go

fx Wetted Perimeter of Channel Go

fx Total Energy Go

fx Mean Velocity Go

fx Height above Datum Go

fx Discharge of Channel Go

fx Cross-Sectional Area of Channel Go

fx Width of Throat Go

fx Coefficient of Discharge Go

fx Total Energy in Open Channel Go

fx Discharge for GVF Flow Go

fx Wetted Surface Area Go

fx Critical Depth of Channel Go

fx Energy Slope Go

fx Bed Slope of Channel Go

fx Discharge by Approach Velocity Go

fx Width of Channel1 Go

fx Velocity of Flow 1 Go

fx Width of Trap Channel Go

fx Side slope of Trapezoidal Channel Go

fx Hydraulic Radius of Channel Go

fx Wetted Surface Area of Trapezoidal Channel Go

Depth of Flow in Hydraulics and Waterworks Formulas

Formulas to find Depth of Flow in Hydraulics and Waterworks

Hydraulics and Waterworks formulas that make use of Depth of Flow

List of variables in Hydraulics and Waterworks formulas

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