Aquifer Thickness given Ratio of Discharge with Base 10 Solution

STEP 0: Pre-Calculation Summary
Formula Used
Aquifer Thickness = 2.3*(Radius of Well in Eviron. Engin./Ratio of discharge)*log((Radius of Influence/Radius of Well in Eviron. Engin.),10)
bw = 2.3*(r'/QsQratio)*log((R/r'),10)
This formula uses 1 Functions, 4 Variables
Functions Used
log - Logarithmic function is an inverse function to exponentiation., log(Base, Number)
Variables Used
Aquifer Thickness - (Measured in Meter) - Aquifer Thickness (at Midpoint between Equipotential lines) or otherwise is the thickness of aquifer in which the pore spaces of rock forming the aquifer may or may not be with water.
Radius of Well in Eviron. Engin. - (Measured in Meter) - Radius of Well in Eviron. Engin. is defined as the distance from center of well to its outer boundary.
Ratio of discharge - Ratio of discharge is the ratio of discharge due to spherical flow to discharge due to radial flow.
Radius of Influence - (Measured in Meter) - Radius of Influence measured from the center of the well to the point where drawdown curve meets the original water table.
STEP 1: Convert Input(s) to Base Unit
Radius of Well in Eviron. Engin.: 2.94 Meter --> 2.94 Meter No Conversion Required
Ratio of discharge: 0.35 --> No Conversion Required
Radius of Influence: 100 Meter --> 100 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
bw = 2.3*(r'/QsQratio)*log((R/r'),10) --> 2.3*(2.94/0.35)*log((100/2.94),10)
Evaluating ... ...
bw = 12.6138258259289
STEP 3: Convert Result to Output's Unit
12.6138258259289 Meter --> No Conversion Required
FINAL ANSWER
12.6138258259289 12.61383 Meter <-- Aquifer Thickness
(Calculation completed in 00.004 seconds)

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19 Spherical Flow in a Well Calculators

Discharge by Radial Flow given Discharge by Spherical Flow
Go Discharge = Discharge by Spherical Flow/((Radius of Well in Eviron. Engin./Aquifer Thickness During Pumping)*log((Radius of Influence/Radius of Well in Eviron. Engin.),e))
Aquifer Thickness given Discharge by Spherical Flow
Go Aquifer Thickness During Pumping = (Radius of Well in Eviron. Engin./(Discharge by Spherical Flow/Discharge))*log((Radius of Influence/Radius of Well in Eviron. Engin.),e)
Discharge by Spherical Flow
Go Discharge by Spherical Flow = Discharge*(Radius of Well in Eviron. Engin./Aquifer Thickness During Pumping)*log((Radius of Influence/Radius of Well in Eviron. Engin.),e)
Radius of Influence given Discharge by Spherical Flow
Go Radius of Influence in Eviron. Engin. = Radius of Well in Eviron. Engin.*exp(((Discharge by Spherical Flow/Discharge at Time t=0)*Aquifer Thickness During Pumping)/Radius of Well in Eviron. Engin.)
Discharge by Spherical Flow with Base 10
Go Discharge by Spherical Flow = 2.3*Discharge*(Radius of Well in Eviron. Engin./Aquifer Thickness During Pumping)*log((Radius of Influence/Radius of Well in Eviron. Engin.),10)
Discharge by Radial Flow given Discharge by Spherical Flow with Base 10
Go Discharge = Discharge by Spherical Flow/(2.3*(Radius of Well in Eviron. Engin./Aquifer Thickness)*log((Radius of Influence/Radius of Well in Eviron. Engin.),10))
Aquifer Thickness given Discharge by Spherical Flow with Base 10
Go Aquifer Thickness = 2.3*(Radius of Well in Eviron. Engin./(Discharge by Spherical Flow/Discharge))*log((Radius of Influence/Radius of Well in Eviron. Engin.),10)
Radius of Influence given Discharge by Spherical Flow with Base 10
Go Radius of Influence in Eviron. Engin. = Radius of Well in Eviron. Engin.*10^(((Discharge by Spherical Flow/Discharge at Time t=0) *Aquifer Thickness)/(2.3*Radius of Well in Eviron. Engin.))
Ratio of Discharge due to Spherical Flow to Discharge due to Radial Flow
Go Ratio of discharge = (Radius of Well in Eviron. Engin./Aquifer Thickness During Pumping)*log((Radius of Influence/Radius of Well in Eviron. Engin.),e)
Aquifer Thickness given Ratio of Discharge
Go Aquifer Thickness During Pumping = (Radius of Well in Eviron. Engin./Ratio of discharge)*log((Radius of Influence/Radius of Well in Eviron. Engin.),e)
Radius of Influence given Ratio of Discharge
Go Radius of Influence in Eviron. Engin. = Radius of Well in Eviron. Engin.*exp((Ratio of discharge*Aquifer Thickness During Pumping)/Radius of Well in Eviron. Engin.)
Depth of Water in Well given Discharge due to Spherical Flow in Well
Go Depth of Water = Thickness of Aquifer-(Discharge by Spherical Flow/(2*pi*Coefficient of Permeability in Environ. Engin.*Radius of Well in Eviron. Engin.))
Thickness of Aquifer given Discharge due to Spherical Flow in Well
Go Thickness of Aquifer = Depth of Water+(Discharge by Spherical Flow/(2*pi*Coefficient of Permeability in Environ. Engin.*Radius of Well in Eviron. Engin.))
Radius of Well given Discharge due to Spherical Flow in Well
Go Radius of Well in Eviron. Engin. = Discharge by Spherical Flow/(2*pi*Coefficient of Permeability in Environ. Engin.*(Thickness of Aquifer-Depth of Water))
Discharge due to Spherical Flow in Well
Go Discharge by Spherical Flow = 2*pi*Coefficient of Permeability in Environ. Engin.*Radius of Well in Eviron. Engin.*(Thickness of Aquifer-Depth of Water)
Ratio of Discharge due to Spherical Flow to Discharge due to Radial Flow with Base 10
Go Ratio of discharge = 2.3*(Radius of Well in Eviron. Engin./Aquifer Thickness)*log((Radius of Influence/Radius of Well in Eviron. Engin.),10)
Radius of Influence given Ratio of Discharge with Base 10
Go Radius of Influence in Eviron. Engin. = Radius of Well in Eviron. Engin.*10^((Ratio of discharge*Aquifer Thickness During Pumping)/(2.3*Radius of Well in Eviron. Engin.))
Aquifer Thickness given Ratio of Discharge with Base 10
Go Aquifer Thickness = 2.3*(Radius of Well in Eviron. Engin./Ratio of discharge)*log((Radius of Influence/Radius of Well in Eviron. Engin.),10)
Coefficient of Permeability given Discharge due to Spherical Flow in Well
Go Coefficient of Permeability = Discharge by Spherical Flow/(2*pi*Radius of Well in Eviron. Engin.*(Thickness of Aquifer-Depth of Water))

Aquifer Thickness given Ratio of Discharge with Base 10 Formula

Aquifer Thickness = 2.3*(Radius of Well in Eviron. Engin./Ratio of discharge)*log((Radius of Influence/Radius of Well in Eviron. Engin.),10)
bw = 2.3*(r'/QsQratio)*log((R/r'),10)

What is Aquifer?

An aquifer is a body of rock and/or sediment that holds groundwater. Groundwater is the word used to describe precipitation that has infiltrated the soil beyond the surface and collected in empty spaces underground.

How to Calculate Aquifer Thickness given Ratio of Discharge with Base 10?

Aquifer Thickness given Ratio of Discharge with Base 10 calculator uses Aquifer Thickness = 2.3*(Radius of Well in Eviron. Engin./Ratio of discharge)*log((Radius of Influence/Radius of Well in Eviron. Engin.),10) to calculate the Aquifer Thickness, The Aquifer Thickness given Ratio of Discharge with Base 10 is defined as the value of aquifer thickness when we have prior information of other parameters used. Aquifer Thickness is denoted by bw symbol.

How to calculate Aquifer Thickness given Ratio of Discharge with Base 10 using this online calculator? To use this online calculator for Aquifer Thickness given Ratio of Discharge with Base 10, enter Radius of Well in Eviron. Engin. (r'), Ratio of discharge (QsQratio) & Radius of Influence (R) and hit the calculate button. Here is how the Aquifer Thickness given Ratio of Discharge with Base 10 calculation can be explained with given input values -> 12.61383 = 2.3*(2.94/0.35)*log((100/2.94),10).

FAQ

What is Aquifer Thickness given Ratio of Discharge with Base 10?
The Aquifer Thickness given Ratio of Discharge with Base 10 is defined as the value of aquifer thickness when we have prior information of other parameters used and is represented as bw = 2.3*(r'/QsQratio)*log((R/r'),10) or Aquifer Thickness = 2.3*(Radius of Well in Eviron. Engin./Ratio of discharge)*log((Radius of Influence/Radius of Well in Eviron. Engin.),10). Radius of Well in Eviron. Engin. is defined as the distance from center of well to its outer boundary, Ratio of discharge is the ratio of discharge due to spherical flow to discharge due to radial flow & Radius of Influence measured from the center of the well to the point where drawdown curve meets the original water table.
How to calculate Aquifer Thickness given Ratio of Discharge with Base 10?
The Aquifer Thickness given Ratio of Discharge with Base 10 is defined as the value of aquifer thickness when we have prior information of other parameters used is calculated using Aquifer Thickness = 2.3*(Radius of Well in Eviron. Engin./Ratio of discharge)*log((Radius of Influence/Radius of Well in Eviron. Engin.),10). To calculate Aquifer Thickness given Ratio of Discharge with Base 10, you need Radius of Well in Eviron. Engin. (r'), Ratio of discharge (QsQratio) & Radius of Influence (R). With our tool, you need to enter the respective value for Radius of Well in Eviron. Engin, Ratio of discharge & Radius of Influence 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 Aquifer Thickness?
In this formula, Aquifer Thickness uses Radius of Well in Eviron. Engin, Ratio of discharge & Radius of Influence. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Aquifer Thickness = 2.3*(Radius of Well in Eviron. Engin./(Discharge by Spherical Flow/Discharge))*log((Radius of Influence/Radius of Well in Eviron. Engin.),10)
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