Support Practice Factor given Soil Loss per Unit Area in Unit Time Solution

STEP 0: Pre-Calculation Summary
Formula Used
Support Practice Factor = Soil Loss Per Unit Area in Unit Time/(Rainfall Erosivity Factor*Soil Erodibility Factor*Slope Length Factor*Cover Management Factor*Slope-Steepness Factor)
P = A/(R*K*L*C*S)
This formula uses 7 Variables
Variables Used
Support Practice Factor - Support Practice Factor is the ratio of soil loss with a support practice like strip cropping to that with a straight row farming up and down the slope.
Soil Loss Per Unit Area in Unit Time - (Measured in Kilogram per Second) - Soil Loss Per Unit Area in Unit Time is a term used in soil erosion studies which refers to the average annual rate of soil erosion, measured in tons per unit area, for a given combination of factors.
Rainfall Erosivity Factor - Rainfall Erosivity Factor is a multi-annual average index that measures rainfall's kinetic energy and intensity.
Soil Erodibility Factor - Soil Erodibility Factor is the intrinsic susceptibility of a soil to erosion by runoff and raindrop impact.
Slope Length Factor - Slope Length Factor represents the effect of slope length on erosion.
Cover Management Factor - Cover Management Factor reflects the effect of cropping and management practices on erosion rates.
Slope-Steepness Factor - Slope-Steepness Factor describes the combined effects of slope length and slope gradient.
STEP 1: Convert Input(s) to Base Unit
Soil Loss Per Unit Area in Unit Time: 0.16 Ton (metric) per Day --> 0.00185185185185185 Kilogram per Second (Check conversion ​here)
Rainfall Erosivity Factor: 0.4 --> No Conversion Required
Soil Erodibility Factor: 0.17 --> No Conversion Required
Slope Length Factor: 0.1 --> No Conversion Required
Cover Management Factor: 0.61 --> No Conversion Required
Slope-Steepness Factor: 0.6 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
P = A/(R*K*L*C*S) --> 0.00185185185185185/(0.4*0.17*0.1*0.61*0.6)
Evaluating ... ...
P = 0.744074193125944
STEP 3: Convert Result to Output's Unit
0.744074193125944 --> No Conversion Required
FINAL ANSWER
0.744074193125944 0.744074 <-- Support Practice Factor
(Calculation completed in 00.004 seconds)

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Universal Soil Loss Equation Calculators

Soil Erodibility Factor given Soil Loss Per Unit Area in Unit Time
​ LaTeX ​ Go Soil Erodibility Factor = Soil Loss Per Unit Area in Unit Time/(Rainfall Erosivity Factor*Slope Length Factor*Slope-Steepness Factor*Cover Management Factor*Support Practice Factor)
Slope Length Factor given Soil Loss Per Unit Area in Unit Time
​ LaTeX ​ Go Slope Length Factor = Soil Loss Per Unit Area in Unit Time/(Rainfall Erosivity Factor*Soil Erodibility Factor*Slope-Steepness Factor*Cover Management Factor*Support Practice Factor)
Rainfall Erosivity Factor
​ LaTeX ​ Go Rainfall Erosivity Factor = Soil Loss Per Unit Area in Unit Time/(Soil Erodibility Factor*Slope Length Factor*Slope-Steepness Factor*Cover Management Factor*Support Practice Factor)
Soil Loss Per Unit Area in Unit Time
​ LaTeX ​ Go Soil Loss Per Unit Area in Unit Time = Rainfall Erosivity Factor*Soil Erodibility Factor*Slope Length Factor*Slope-Steepness Factor*Cover Management Factor*Support Practice Factor

Support Practice Factor given Soil Loss per Unit Area in Unit Time Formula

​LaTeX ​Go
Support Practice Factor = Soil Loss Per Unit Area in Unit Time/(Rainfall Erosivity Factor*Soil Erodibility Factor*Slope Length Factor*Cover Management Factor*Slope-Steepness Factor)
P = A/(R*K*L*C*S)

What is Rainfall Erosivity?

Rainfall Erosivity is the kinetic energy of a raindrop's impact and the rate of associated runoff. The R-factor is a multi-annual average index that measures rainfall's kinetic energy and intensity to describe the effect of rainfall on sheet and rill erosion.

What is Soil Erodibility?

Soil Erodibility (K) is the intrinsic susceptibility of soil to erosion by runoff and raindrop impact. Values of K range from the lowest erodibility, 0.02, to the highest, 0.69. All other factors being equal, the higher the K value, the greater the susceptibility of the soil to rill and sheet erosion by rainfall.

How to Calculate Support Practice Factor given Soil Loss per Unit Area in Unit Time?

Support Practice Factor given Soil Loss per Unit Area in Unit Time calculator uses Support Practice Factor = Soil Loss Per Unit Area in Unit Time/(Rainfall Erosivity Factor*Soil Erodibility Factor*Slope Length Factor*Cover Management Factor*Slope-Steepness Factor) to calculate the Support Practice Factor, The Support Practice Factor given Soil Loss per Unit Area in Unit Time formula is defined as the ratio of soil loss with support practice representing the effects of those practices such as contouring, strip cropping, terracing, etc. to that with straight row farming up and down the slope. Support Practice Factor is denoted by P symbol.

How to calculate Support Practice Factor given Soil Loss per Unit Area in Unit Time using this online calculator? To use this online calculator for Support Practice Factor given Soil Loss per Unit Area in Unit Time, enter Soil Loss Per Unit Area in Unit Time (A), Rainfall Erosivity Factor (R), Soil Erodibility Factor (K), Slope Length Factor (L), Cover Management Factor (C) & Slope-Steepness Factor (S) and hit the calculate button. Here is how the Support Practice Factor given Soil Loss per Unit Area in Unit Time calculation can be explained with given input values -> 0.744074 = 0.00185185185185185/(0.4*0.17*0.1*0.61*0.6).

FAQ

What is Support Practice Factor given Soil Loss per Unit Area in Unit Time?
The Support Practice Factor given Soil Loss per Unit Area in Unit Time formula is defined as the ratio of soil loss with support practice representing the effects of those practices such as contouring, strip cropping, terracing, etc. to that with straight row farming up and down the slope and is represented as P = A/(R*K*L*C*S) or Support Practice Factor = Soil Loss Per Unit Area in Unit Time/(Rainfall Erosivity Factor*Soil Erodibility Factor*Slope Length Factor*Cover Management Factor*Slope-Steepness Factor). Soil Loss Per Unit Area in Unit Time is a term used in soil erosion studies which refers to the average annual rate of soil erosion, measured in tons per unit area, for a given combination of factors, Rainfall Erosivity Factor is a multi-annual average index that measures rainfall's kinetic energy and intensity, Soil Erodibility Factor is the intrinsic susceptibility of a soil to erosion by runoff and raindrop impact, Slope Length Factor represents the effect of slope length on erosion, Cover Management Factor reflects the effect of cropping and management practices on erosion rates & Slope-Steepness Factor describes the combined effects of slope length and slope gradient.
How to calculate Support Practice Factor given Soil Loss per Unit Area in Unit Time?
The Support Practice Factor given Soil Loss per Unit Area in Unit Time formula is defined as the ratio of soil loss with support practice representing the effects of those practices such as contouring, strip cropping, terracing, etc. to that with straight row farming up and down the slope is calculated using Support Practice Factor = Soil Loss Per Unit Area in Unit Time/(Rainfall Erosivity Factor*Soil Erodibility Factor*Slope Length Factor*Cover Management Factor*Slope-Steepness Factor). To calculate Support Practice Factor given Soil Loss per Unit Area in Unit Time, you need Soil Loss Per Unit Area in Unit Time (A), Rainfall Erosivity Factor (R), Soil Erodibility Factor (K), Slope Length Factor (L), Cover Management Factor (C) & Slope-Steepness Factor (S). With our tool, you need to enter the respective value for Soil Loss Per Unit Area in Unit Time, Rainfall Erosivity Factor, Soil Erodibility Factor, Slope Length Factor, Cover Management Factor & Slope-Steepness Factor 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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