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Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation Formula

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Darcy's Hydraulic Conductivity measures soil's ability to transmit water, vital in understanding groundwater flow and environmental processes. Check FAQs

K = \frac{f p}{1 + \frac{η \cdot S c}{F p}}

K - Darcy's Hydraulic Conductivity?f_p - Infiltration Capacity at Any Time t?η - Porosity?S_c - Capillary Suction at Wetting Front?F_p - Cumulative Infiltration Capacity?

Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation Example

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Here is how the Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation equation looks like with Values.

Here is how the Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation equation looks like with Units.

Here is how the Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation equation looks like.

13.913 = \frac{16}{1 + \frac{0.5 \cdot 6}{20}}

13.913cm/h = \frac{16cm/h}{1 + \frac{0.5 \cdot 6}{20cm/h}}

13.913 = \frac{16}{1 + \frac{0.5 \cdot 6}{20}}

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Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation Solution

Follow our step by step solution on how to calculate Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation?

FIRST Step Consider the formula

K = \frac{f p}{1 + \frac{η \cdot S c}{F p}}

Next Step Substitute values of Variables

∴

K = \frac{16cm/h}{1 + \frac{0.5 \cdot 6}{20cm/h}}

Next Step Prepare to Evaluate

∴

K = \frac{16}{1 + \frac{0.5 \cdot 6}{20}}

Next Step Evaluate

∴

K = 3.86473429951691E-05m/s

Next Step Convert to Output's Unit

∴

K = 13.9130434782609cm/h

LAST Step Rounding Answer

∴

K = 13.913cm/h

Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation Formula Elements

Variables

Darcy's Hydraulic Conductivity

Darcy's Hydraulic Conductivity measures soil's ability to transmit water, vital in understanding groundwater flow and environmental processes.

Symbol: K

Measurement: SpeedUnit: cm/h

Note: Value can be positive or negative.

Formulas to find Darcy's Hydraulic Conductivity

Infiltration Capacity at Any Time t

Infiltration Capacity at Any Time t from the start of the rainfall is the rate at which water percolates in the soil.

Symbol: f_p

Measurement: SpeedUnit: cm/h

Note: Value should be greater than 0.

Formulas to find Infiltration Capacity at Any Time t

Porosity

Porosity is the ratio of volume of voids to volume of soil.

Symbol: η

Measurement: NAUnit: Unitless

Note: Value should be between 0 to 1.

Formulas to find Porosity

Capillary Suction at Wetting Front

Capillary Suction at Wetting Front is due to capillary attraction in the soil voids and is large for fine grained soils such as clays and small for sandy soils.

Symbol: S_c

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Capillary Suction at Wetting Front

Cumulative Infiltration Capacity

Cumulative Infiltration Capacity is calculated by subtracting the cumulative runoff from the cumulative rainfall.

Symbol: F_p

Measurement: SpeedUnit: cm/h

Note: Value should be greater than 0.

Formulas to find Cumulative Infiltration Capacity

Other formulas in Green Ampt Equation (1911) category

Go Green Ampt Equation

f p = K \cdot (1 + \frac{η \cdot S c}{F p})

Go Porosity of Soil given Infiltration Capacity from Green-Ampt Equation

η = (\frac{f p}{K} - 1) \cdot \frac{F p}{S c}

Go Capillary Suction given Infiltration Capacity

S c = (\frac{f p}{K} - 1) \cdot \frac{F p}{η}

Go Infiltration Capacity given Green-Ampt Parameters of Infiltration Model

f p = m + \frac{n}{F p}

How to Evaluate Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation?

Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation evaluator uses Darcy's Hydraulic Conductivity = Infiltration Capacity at Any Time t/(1+(Porosity*Capillary Suction at Wetting Front)/Cumulative Infiltration Capacity) to evaluate the Darcy's Hydraulic Conductivity, The Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation formula is defined as the determination of the vertical position of the water table in a well relative to a reference surface. Darcy's Hydraulic Conductivity is denoted by K symbol.

How to evaluate Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation using this online evaluator? To use this online evaluator for Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation, enter Infiltration Capacity at Any Time t (f_p), Porosity (η), Capillary Suction at Wetting Front (S_c) & Cumulative Infiltration Capacity (F_p) and hit the calculate button.

FAQs on Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation

What is the formula to find Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation?

The formula of Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation is expressed as Darcy's Hydraulic Conductivity = Infiltration Capacity at Any Time t/(1+(Porosity*Capillary Suction at Wetting Front)/Cumulative Infiltration Capacity). Here is an example- 5E+6 = 4.44444444444444E-05/(1+(0.5*6)/5.55555555555556E-05).

How to calculate Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation?

With Infiltration Capacity at Any Time t (f_p), Porosity (η), Capillary Suction at Wetting Front (S_c) & Cumulative Infiltration Capacity (F_p) we can find Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation using the formula - Darcy's Hydraulic Conductivity = Infiltration Capacity at Any Time t/(1+(Porosity*Capillary Suction at Wetting Front)/Cumulative Infiltration Capacity).

Can the Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation be negative?

Yes, the Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation, measured in Speed can be negative.

Which unit is used to measure Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation?

Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation is usually measured using the Centimeter per Hour[cm/h] for Speed. Meter per Second[cm/h], Meter per Minute[cm/h], Meter per Hour[cm/h] are the few other units in which Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation can be measured.

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Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation Formula

Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation Example

Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation Solution

Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation Formula Elements

Other formulas in Green Ampt Equation (1911) category

How to Evaluate Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation?

FAQs on Darcy's Hydraulic Conductivity given Infiltration Capacity from Green-Ampt Equation

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