Mithila Muthamma PA
Coorg Institute of Technology (CIT), Coorg
Mithila Muthamma PA has created this Calculator and 400+ more calculators!
Chandana P Dev
NSS College of Engineering (NSSCE), Palakkad
Chandana P Dev has verified this Calculator and 400+ more calculators!

11 Other formulas that you can solve using the same Inputs

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Concentration of reactant (first)=1/(1/(Initial concentration of reactant (first))+Rate Constant*Time) GO
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Concentration of reactant (first)=e^(-Rate Constant*Time)*Initial concentration of reactant (first) GO
Concentration of the reactant in zero-order reaction
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Growth of Current in LR Circuit
Growth of current in LR circuit=(e/Resistance)*(1-e^(-Time/(Inductance/Resistance))) GO
Electro Discharge Machining
Electro Discharge Machining=Voltage*(1-e^(-Time/(Resistance*Capacitance))) GO
Rate of Interest(SI)
Rate of interest=(Simple Interest*100)/(Principal Investment Amount*Time) GO
Principal Amount
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Simple Interest
Simple Interest=(Principal Investment Amount*Rate of interest*Time)/100 GO
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7 Other formulas that calculate the same Output

Storage Coefficient when Time at which Steady-Shape Conditions Develop is Given
Storage Coefficient=Transmissivity*time at which steady-shape conditions develop/7200*Distance from Pumping Well to Observation Well^2 GO
Storage Coefficient from Distance-Drawdown Graphs
Storage Coefficient=2.25*Transmissivity*Time at which the Drawdowns were Measured/Distance from Pumping Well to Point Intersection^2 GO
Storage Coefficient for Inconsistent Units from Distance-Drawdown Graphs
Storage Coefficient=Transmissivity*Time at which the Drawdowns were Measured/640*Distance from Pumping Well to Point Intersection^2 GO
Storage Coefficient from the Time-Drawdown Graphs
Storage Coefficient=(2.25*Transmissivity*Time at the Point of Intersection )/Distance from Pumping Well to Observation Well^2 GO
Modified Equation for Storage Coefficient from Time-Drawdown Graphs
Storage Coefficient=(Transmissivity*Time at the Point of Intersection )/640*Distance from Pumping Well to Observation Well^2 GO
Theis Equation to Determine Storage Coefficient
Storage Coefficient=(4*Transmissivity*Time*Varying Dimensionless Group )/Distance from Pumping Well to Observation Well^2 GO
Storage Coefficient From Theis Equation of Transmissivity
Storage Coefficient=(Pumping Rate*Well Function of u)/Transmissivity*4*pi GO

Storage Coefficient when Distance from Pumping Well is Given Formula

Storage Coefficient=2.25*Transmissivity*Time/Distance from Pumping Well to Point Intersection^2
S=2.25*T*T/r<sub>o</sub>^2
More formulas
Distance from Pumping Well GO
Transmissivity when Distance from Pumping Well is Given GO
First Estimate of the Pumping Rate GO
Transmissivity when First Estimate of the Pumping Rate is Given GO
Drawdown across One Log Cycle when First Estimate of the Pumping Rate is Given GO

What is Pumping Well?

Pumping Well is a well in which pumping is required to increase the formation pressure to allow the free production flow. It is the opposite of a naturally flowing well because in such type of a well an external device such as a reciprocating pump is used to force the liquid to move out of the well.

How to Calculate Storage Coefficient when Distance from Pumping Well is Given?

Storage Coefficient when Distance from Pumping Well is Given calculator uses Storage Coefficient=2.25*Transmissivity*Time/Distance from Pumping Well to Point Intersection^2 to calculate the Storage Coefficient, The Storage Coefficient when Distance from Pumping Well is Given is the volume of water released from storage per unit decline in hydraulic head in the aquifer, per unit area of the aquifer. Storage Coefficient and is denoted by S symbol.

How to calculate Storage Coefficient when Distance from Pumping Well is Given using this online calculator? To use this online calculator for Storage Coefficient when Distance from Pumping Well is Given, enter Transmissivity (T), Time (T) and Distance from Pumping Well to Point Intersection (ro) and hit the calculate button. Here is how the Storage Coefficient when Distance from Pumping Well is Given calculation can be explained with given input values -> 157.7848 = 2.25*0.00277777777777778*63113904/50^2.

FAQ

What is Storage Coefficient when Distance from Pumping Well is Given?
The Storage Coefficient when Distance from Pumping Well is Given is the volume of water released from storage per unit decline in hydraulic head in the aquifer, per unit area of the aquifer and is represented as S=2.25*T*T/ro^2 or Storage Coefficient=2.25*Transmissivity*Time/Distance from Pumping Well to Point Intersection^2. Transmissivity is the rate at which groundwater flows horizontally through an aquifer, Time is used to calculate the amount that has a simple interest and Distance from Pumping Well to Point Intersection where the Straight Line Intersects the Zero-drawdown line.
How to calculate Storage Coefficient when Distance from Pumping Well is Given?
The Storage Coefficient when Distance from Pumping Well is Given is the volume of water released from storage per unit decline in hydraulic head in the aquifer, per unit area of the aquifer is calculated using Storage Coefficient=2.25*Transmissivity*Time/Distance from Pumping Well to Point Intersection^2. To calculate Storage Coefficient when Distance from Pumping Well is Given, you need Transmissivity (T), Time (T) and Distance from Pumping Well to Point Intersection (ro). With our tool, you need to enter the respective value for Transmissivity, Time and Distance from Pumping Well to Point Intersection 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 Storage Coefficient?
In this formula, Storage Coefficient uses Transmissivity, Time and Distance from Pumping Well to Point Intersection. We can use 7 other way(s) to calculate the same, which is/are as follows -
  • Storage Coefficient=(4*Transmissivity*Time*Varying Dimensionless Group )/Distance from Pumping Well to Observation Well^2
  • Storage Coefficient=(Pumping Rate*Well Function of u)/Transmissivity*4*pi
  • Storage Coefficient=Transmissivity*time at which steady-shape conditions develop/7200*Distance from Pumping Well to Observation Well^2
  • Storage Coefficient=(2.25*Transmissivity*Time at the Point of Intersection )/Distance from Pumping Well to Observation Well^2
  • Storage Coefficient=(Transmissivity*Time at the Point of Intersection )/640*Distance from Pumping Well to Observation Well^2
  • Storage Coefficient=2.25*Transmissivity*Time at which the Drawdowns were Measured/Distance from Pumping Well to Point Intersection^2
  • Storage Coefficient=Transmissivity*Time at which the Drawdowns were Measured/640*Distance from Pumping Well to Point Intersection^2
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