Mithila Muthamma PA
Coorg Institute of Technology (CIT), Coorg
Mithila Muthamma PA has created this Calculator and 300+ more calculators!
Himanshi Sharma
Bhilai Institute of Technology (BIT), Raipur
Himanshi Sharma has verified this Calculator and 500+ more calculators!

11 Other formulas that you can solve using the same Inputs

Length of weir or notch for velocity of approach
Length=Discharge/((2/3)*coefficient of discharging*sqrt(2*[g])*(((initial height of liquid+final height of liquid)^1.5)-(final height of liquid^1.5))) GO
Cross-sectional area when Discharge is given from Manning's equation
Cross sectional area=(Discharge*Manning’s Roughness Coefficient)/(hydraulic radius^(2/3)*Bed Slope^(1/2)) GO
Slope of Gradient of the Stream bed when Discharge is given in Manning's equation
Bed Slope=((Discharge*Manning’s Roughness Coefficient)/(Cross sectional area*(hydraulic radius^2/3)))^2 GO
Hydraulic radius when Discharge is given in Manning equation
hydraulic radius=(Discharge*Manning’s Roughness Coefficient)/(Cross sectional area*Bed Slope^1/2)^(2/3) GO
Cease-to-flow Depth when Depth at the Gauging Station given
Cease-to-flow Depth=Depth at the Gauging Station-Head at the Control*(Discharge)-Terms of Order^2 GO
Depth at the Gauging Station
Depth at the Gauging Station=Cease-to-flow Depth+Head at the Control*(Discharge)+Terms of Order^2 GO
Length of weir or notch without velocity of approach
Length=Discharge/((2/3)*coefficient of discharging*sqrt(2*[g])*(initial height of liquid^1.5)) GO
Length of weir considering Francis's formula
Length=Discharge/(1.84*(((initial height of liquid+head due to Va)^1.5)-(head due to Va^1.5))) GO
Length of weir considering Bazin's formula without velocity approach
Length=Discharge/(0.405+(0.003/head of the liquid))*sqrt(2*[g])*(head of the liquid^1.5) GO
Velocity of piston during retraction
Velocity=Discharge/(Area of piston-Area of piston rod) GO
Velocity of piston during extension
Velocity=Discharge/Area of piston GO

1 Other formulas that calculate the same Output

Estimated Distance when Channel Width is given
Estimated Distance=(100*Width of the Channel^2)/Water Table Depth GO

Estimated Distance when Discharge is given in Tracer Method Formula

Estimated Distance=50*sqrt(Discharge)
L=50*sqrt(Q)
More formulas
Depth at the Gauging Station GO
Cease-to-flow Depth when Depth at the Gauging Station given GO
Friction Slope GO
Instantaneous Discharge when Friction Slope is given GO
Conveyance Function Determined by Manning’s Law GO
Conveyance Function determined by Chézy’s law GO
Diffusion Coefficient in Advection-diffusion flood routing GO
Discharge from Manning's equation GO
Cross-sectional area when Discharge is given from Manning's equation GO
Hydraulic Radius in Manning's formula GO
Hydraulic radius when Discharge is given in Manning equation GO
Slope of Gradient of the Stream bed when Discharge is given in Manning's equation GO
Mass flux computation GO
Instantaneous Discharge when Instantaneous Mass flux is given GO
Estimated Distance when Channel Width is given GO
Channel Width when Estimated Distance is given in Tracer Method GO
Water Table depth when Distance is given in Tracer Method GO
Surface Velocity of the river in Float Method GO
Mean River Velocity in Float Method GO
Manning’s Equation GO
Flow velocity in Continuous Discharge Measurements GO
Water Depth when Flow Velocity is given in Continuous Discharge Measurements GO

What is Tracer Method?

Tracer dilution is a method of determining the flow rate in a ground or surface water environment where a hydraulic structure (flume / weir) cannot be installed either due to cost, monitoring duration, or ecological reasons.

How to Calculate Estimated Distance when Discharge is given in Tracer Method?

Estimated Distance when Discharge is given in Tracer Method calculator uses Estimated Distance=50*sqrt(Discharge) to calculate the Estimated Distance, Estimated Distance when Discharge is given in Tracer Method formula is defined as the distance which is necessary to intermix the tracer while Selecting a location along the river with enough turbulence so that the tracer gets well mixed. Estimated Distance and is denoted by L symbol.

How to calculate Estimated Distance when Discharge is given in Tracer Method using this online calculator? To use this online calculator for Estimated Distance when Discharge is given in Tracer Method, enter Discharge (Q) and hit the calculate button. Here is how the Estimated Distance when Discharge is given in Tracer Method calculation can be explained with given input values -> 50 = 50*sqrt(1).

FAQ

What is Estimated Distance when Discharge is given in Tracer Method?
Estimated Distance when Discharge is given in Tracer Method formula is defined as the distance which is necessary to intermix the tracer while Selecting a location along the river with enough turbulence so that the tracer gets well mixed and is represented as L=50*sqrt(Q) or Estimated Distance=50*sqrt(Discharge). Discharge is the rate of flow of a liquid.
How to calculate Estimated Distance when Discharge is given in Tracer Method?
Estimated Distance when Discharge is given in Tracer Method formula is defined as the distance which is necessary to intermix the tracer while Selecting a location along the river with enough turbulence so that the tracer gets well mixed is calculated using Estimated Distance=50*sqrt(Discharge). To calculate Estimated Distance when Discharge is given in Tracer Method, you need Discharge (Q). With our tool, you need to enter the respective value for Discharge and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Estimated Distance?
In this formula, Estimated Distance uses Discharge. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Estimated Distance=(100*Width of the Channel^2)/Water Table Depth
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