Darcy's Hydraulic Conductivity given Infiltration Capacity from Philip's Equation Solution

STEP 0: Pre-Calculation Summary
Formula Used
Hydraulic Conductivity = (Cumulative Infiltration Capacity-(Sorptivity*Time^(1/2)))/Time
k = (Fp-(s*t^(1/2)))/t
This formula uses 4 Variables
Variables Used
Hydraulic Conductivity - (Measured in Centimeter per Hour) - Hydraulic Conductivity depends on the size and arrangement of the water-transmitting openings and on the dynamic characteristics of the fluid.
Cumulative Infiltration Capacity - (Measured in Centimeter per Hour) - Cumulative Infiltration Capacity is calculated by subtracting the cumulative runoff from the cumulative rainfall.
Sorptivity - Sorptivity is a function of soil suction potential and measures the capacity of the medium to absorb or desorb liquid by capillarity.
Time - (Measured in Hour) - Time is an ongoing and continuous sequence of events that occur in succession, from the past through the present, and to the future. Here it is for rainfall.
STEP 1: Convert Input(s) to Base Unit
Cumulative Infiltration Capacity: 20 Centimeter per Hour --> 20 Centimeter per Hour No Conversion Required
Sorptivity: 10 --> No Conversion Required
Time: 2 Hour --> 2 Hour No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
k = (Fp-(s*t^(1/2)))/t --> (20-(10*2^(1/2)))/2
Evaluating ... ...
k = 2.92893218813452
STEP 3: Convert Result to Output's Unit
8.13592274481812E-06 Meter per Second -->2.92893218813452 Centimeter per Hour (Check conversion here)
FINAL ANSWER
2.92893218813452 2.928932 Centimeter per Hour <-- Hydraulic Conductivity
(Calculation completed in 00.004 seconds)

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8 Infiltration Capacity Equation Calculators

Infiltration rate by Horton's equation
Go Infiltration Capacity at Any Time t = Final Steady State Infiltration Capacity+(Initial Infiltration Capacity-Final Steady State Infiltration Capacity)*exp(-(Decay Coefficient*Time))
Darcy's Hydraulic Conductivity given Infiltration Capacity from Philip's Equation
Go Hydraulic Conductivity = (Cumulative Infiltration Capacity-(Sorptivity*Time^(1/2)))/Time
Sorptivity for Cumulative Infiltration Capacity is from Philip's Equation
Go Sorptivity = (Cumulative Infiltration Capacity-Hydraulic Conductivity*Time)/(Time^(1/2))
Philip's Equation
Go Cumulative Infiltration Capacity = Sorptivity*Time^(1/2)+Hydraulic Conductivity*Time
Sorptivity given Infiltration Capacity
Go Sorptivity = ((Infiltration Capacity at Any Time t-Hydraulic Conductivity)*2)/(Time^(-1/2))
Equation for Infiltration Capacity
Go Infiltration Capacity at Any Time t = (1/2)*Sorptivity*Time^(-1/2)+Hydraulic Conductivity
Darcy's Hydraulic Conductivity given Infiltration Capacity
Go Hydraulic Conductivity = Infiltration Capacity at Any Time t-(1/2)*Sorptivity*Time^-1/2
Kostiakov Equation
Go Cumulative Infiltration Capacity = Local Parameter a*Time^Local Parameter b

Darcy's Hydraulic Conductivity given Infiltration Capacity from Philip's Equation Formula

Hydraulic Conductivity = (Cumulative Infiltration Capacity-(Sorptivity*Time^(1/2)))/Time
k = (Fp-(s*t^(1/2)))/t

What is Infiltration rate?

The Infiltration rate is the velocity or speed at which water enters into the soil. It is usually measured by the depth (in mm) of the water layer that can enter the soil in one hour.

How to Calculate Darcy's Hydraulic Conductivity given Infiltration Capacity from Philip's Equation?

Darcy's Hydraulic Conductivity given Infiltration Capacity from Philip's Equation calculator uses Hydraulic Conductivity = (Cumulative Infiltration Capacity-(Sorptivity*Time^(1/2)))/Time to calculate the Hydraulic Conductivity, The Darcy's Hydraulic Conductivity given Infiltration Capacity from Philip's Equation formula is defined as a constant (or proportionality constant) that defines the linear relationship between the variables. Hydraulic Conductivity is denoted by k symbol.

How to calculate Darcy's Hydraulic Conductivity given Infiltration Capacity from Philip's Equation using this online calculator? To use this online calculator for Darcy's Hydraulic Conductivity given Infiltration Capacity from Philip's Equation, enter Cumulative Infiltration Capacity (Fp), Sorptivity (s) & Time (t) and hit the calculate button. Here is how the Darcy's Hydraulic Conductivity given Infiltration Capacity from Philip's Equation calculation can be explained with given input values -> 1.1E+6 = (5.55555555555556E-05-(10*7200^(1/2)))/7200.

FAQ

What is Darcy's Hydraulic Conductivity given Infiltration Capacity from Philip's Equation?
The Darcy's Hydraulic Conductivity given Infiltration Capacity from Philip's Equation formula is defined as a constant (or proportionality constant) that defines the linear relationship between the variables and is represented as k = (Fp-(s*t^(1/2)))/t or Hydraulic Conductivity = (Cumulative Infiltration Capacity-(Sorptivity*Time^(1/2)))/Time. Cumulative Infiltration Capacity is calculated by subtracting the cumulative runoff from the cumulative rainfall, Sorptivity is a function of soil suction potential and measures the capacity of the medium to absorb or desorb liquid by capillarity & Time is an ongoing and continuous sequence of events that occur in succession, from the past through the present, and to the future. Here it is for rainfall.
How to calculate Darcy's Hydraulic Conductivity given Infiltration Capacity from Philip's Equation?
The Darcy's Hydraulic Conductivity given Infiltration Capacity from Philip's Equation formula is defined as a constant (or proportionality constant) that defines the linear relationship between the variables is calculated using Hydraulic Conductivity = (Cumulative Infiltration Capacity-(Sorptivity*Time^(1/2)))/Time. To calculate Darcy's Hydraulic Conductivity given Infiltration Capacity from Philip's Equation, you need Cumulative Infiltration Capacity (Fp), Sorptivity (s) & Time (t). With our tool, you need to enter the respective value for Cumulative Infiltration Capacity, Sorptivity & Time 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 Hydraulic Conductivity?
In this formula, Hydraulic Conductivity uses Cumulative Infiltration Capacity, Sorptivity & Time. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Hydraulic Conductivity = Infiltration Capacity at Any Time t-(1/2)*Sorptivity*Time^-1/2
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