Flow through any Square using Darcy's law for Groundwater Flow Nets Calculator

✖The Hydraulic Conductivity refers to the property of porous materials, such as soils and rocks, that describes the ease with which a fluid can move through the pore or fractures within the material.ⓘ Hydraulic Conductivity [K]			+10% -10%
✖Distance Between Flow Lines in the series of Flow net. Flow lines represent the path of flow along which the water will seep through the soil.ⓘ Distance Between Flow Lines [w]			+10% -10%
✖The Aquifer Thickness referred as vertical distance between the top and bottom boundaries of an aquifer, typically measured in feet or meters.ⓘ Aquifer Thickness [b]			+10% -10%
✖Difference in Head Between Equipotential Lines. An equipotential line is a line along which the electric potential is constant.ⓘ Difference in Head Between Equipotential Lines [dh]			+10% -10%
✖Distance between equipotential lines. Equipotential or isopotential in mathematics and physics refers to a region in space where every point in it is at the same potential.ⓘ Distance between Equipotential Lines [dl]			+10% -10%

✖Total discharge is defined as a measure of the quantity of any fluid flow over unit time. The quantity may be either volume or mass.ⓘ Flow through any Square using Darcy's law for Groundwater Flow Nets [Q]

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Flow through any Square using Darcy's law for Groundwater Flow Nets Solution

STEP 0: Pre-Calculation Summary

Formula Used

Total discharge = Hydraulic Conductivity*Distance Between Flow Lines*Aquifer Thickness*(Difference in Head Between Equipotential Lines/Distance between Equipotential Lines)
Q = K*w*b*(dh/dl)
This formula uses 6 Variables

Variables Used

Total discharge - (Measured in Cubic Meter per Second) - Total discharge is defined as a measure of the quantity of any fluid flow over unit time. The quantity may be either volume or mass.
Hydraulic Conductivity - (Measured in Meter per Second) - The Hydraulic Conductivity refers to the property of porous materials, such as soils and rocks, that describes the ease with which a fluid can move through the pore or fractures within the material.
Distance Between Flow Lines - (Measured in Meter) - Distance Between Flow Lines in the series of Flow net. Flow lines represent the path of flow along which the water will seep through the soil.
Aquifer Thickness - (Measured in Meter) - The Aquifer Thickness referred as vertical distance between the top and bottom boundaries of an aquifer, typically measured in feet or meters.
Difference in Head Between Equipotential Lines - (Measured in Meter) - Difference in Head Between Equipotential Lines. An equipotential line is a line along which the electric potential is constant.
Distance between Equipotential Lines - (Measured in Meter) - Distance between equipotential lines. Equipotential or isopotential in mathematics and physics refers to a region in space where every point in it is at the same potential.

STEP 1: Convert Input(s) to Base Unit

Hydraulic Conductivity: 2.5 Meter per Second --> 2.5 Meter per Second No Conversion Required
Distance Between Flow Lines: 6 Meter --> 6 Meter No Conversion Required
Aquifer Thickness: 15 Meter --> 15 Meter No Conversion Required
Difference in Head Between Equipotential Lines: 14 Meter --> 14 Meter No Conversion Required
Distance between Equipotential Lines: 21 Meter --> 21 Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

Q = K*w*b*(dh/dl) --> 2.5*6*15*(14/21)

Evaluating ... ...

Q = 150

STEP 3: Convert Result to Output's Unit

150 Cubic Meter per Second --> No Conversion Required

FINAL ANSWER

150 Cubic Meter per Second <-- Total discharge

(Calculation completed in 00.020 seconds)

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< Modified Darcy's Laws Calculators

Quantity of water in steady state unsaturated flow in direction of upward movement

LaTeX Go Total Water Volume = (Effective Hydraulic Conductivity*Cross-Sectional Area*((Water Rise-Length of the Water Column)/Length of the Water Column))+Hydraulic Gradient

Quantity of water in steady state unsaturated downward movement

LaTeX Go Total Water Volume = (Effective Hydraulic Conductivity*Cross-Sectional Area*((Water Rise-Length of the Water Column)/Length of the Water Column))-Hydraulic Gradient

Flow through any Square using Darcy's law for Groundwater Flow Nets

LaTeX Go Total discharge = Hydraulic Conductivity*Distance Between Flow Lines*Aquifer Thickness*(Difference in Head Between Equipotential Lines/Distance between Equipotential Lines)

Total flow through any set or group of equipotential lines

LaTeX Go Total Flow Through any set of Squares = Number of Squares through which the Flow Occurs*Flow Through any Square

Flow through any Square using Darcy's law for Groundwater Flow Nets Formula

LaTeX Go

Total discharge = Hydraulic Conductivity*Distance Between Flow Lines*Aquifer Thickness*(Difference in Head Between Equipotential Lines/Distance between Equipotential Lines)
Q = K*w*b*(dh/dl)

What is groundwater flownet ?

A groundwater flownet is a graphical representation of two-dimensional steady-state groundwater flow through aquifers.

How to Calculate Flow through any Square using Darcy's law for Groundwater Flow Nets?

Flow through any Square using Darcy's law for Groundwater Flow Nets calculator uses Total discharge = Hydraulic Conductivity*Distance Between Flow Lines*Aquifer Thickness*(Difference in Head Between Equipotential Lines/Distance between Equipotential Lines) to calculate the Total discharge, The Flow through any Square using Darcy's law for Groundwater Flow Nets is defined as the direction of ground-water movement to estimate the quantity of water in transit through an aquifer. Total discharge is denoted by Q symbol.

How to calculate Flow through any Square using Darcy's law for Groundwater Flow Nets using this online calculator? To use this online calculator for Flow through any Square using Darcy's law for Groundwater Flow Nets, enter Hydraulic Conductivity (K), Distance Between Flow Lines (w), Aquifer Thickness (b), Difference in Head Between Equipotential Lines (dh) & Distance between Equipotential Lines (dl) and hit the calculate button. Here is how the Flow through any Square using Darcy's law for Groundwater Flow Nets calculation can be explained with given input values -> 150 = 2.5*6*15*(14/21).

FAQ

What is Flow through any Square using Darcy's law for Groundwater Flow Nets?

The Flow through any Square using Darcy's law for Groundwater Flow Nets is defined as the direction of ground-water movement to estimate the quantity of water in transit through an aquifer and is represented as Q = K*w*b*(dh/dl) or Total discharge = Hydraulic Conductivity*Distance Between Flow Lines*Aquifer Thickness*(Difference in Head Between Equipotential Lines/Distance between Equipotential Lines). The Hydraulic Conductivity refers to the property of porous materials, such as soils and rocks, that describes the ease with which a fluid can move through the pore or fractures within the material, Distance Between Flow Lines in the series of Flow net. Flow lines represent the path of flow along which the water will seep through the soil, The Aquifer Thickness referred as vertical distance between the top and bottom boundaries of an aquifer, typically measured in feet or meters, Difference in Head Between Equipotential Lines. An equipotential line is a line along which the electric potential is constant & Distance between equipotential lines. Equipotential or isopotential in mathematics and physics refers to a region in space where every point in it is at the same potential.

How to calculate Flow through any Square using Darcy's law for Groundwater Flow Nets?

The Flow through any Square using Darcy's law for Groundwater Flow Nets is defined as the direction of ground-water movement to estimate the quantity of water in transit through an aquifer is calculated using Total discharge = Hydraulic Conductivity*Distance Between Flow Lines*Aquifer Thickness*(Difference in Head Between Equipotential Lines/Distance between Equipotential Lines). To calculate Flow through any Square using Darcy's law for Groundwater Flow Nets, you need Hydraulic Conductivity (K), Distance Between Flow Lines (w), Aquifer Thickness (b), Difference in Head Between Equipotential Lines (dh) & Distance between Equipotential Lines (dl). With our tool, you need to enter the respective value for Hydraulic Conductivity, Distance Between Flow Lines, Aquifer Thickness, Difference in Head Between Equipotential Lines & Distance between Equipotential Lines and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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