Precipitation given Maximum Potential Runoff Calculator

✖Maximum Potential Runoff is generated when the movement of water into the soil is slow enough to result in water flow along the land surface and into water bodies.ⓘ Maximum Potential Runoff [R_max]			+10% -10%
✖Initial Abstraction is a parameter that accounts for all losses prior to runoff and consists mainly of interception, infiltration, evaporation, and surface depression storage.ⓘ Initial Abstraction [I_a]			+10% -10%

✖Total Precipitation is the sum of rainfall and the assumed water equivalent of snowfall for a given year.ⓘ Precipitation given Maximum Potential Runoff [P_T]

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Precipitation given Maximum Potential Runoff

Formula

`"P"_{"T"} = "R"_{"max"}+"I"_{"a"}`

Example

`"16m³"="11m³"+"5m³"`

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Precipitation given Maximum Potential Runoff Solution

STEP 0: Pre-Calculation Summary

Formula Used

Total Precipitation = Maximum Potential Runoff+Initial Abstraction
P_T = R_max+I_a
This formula uses 3 Variables

Variables Used

Total Precipitation - (Measured in Cubic Meter) - Total Precipitation is the sum of rainfall and the assumed water equivalent of snowfall for a given year.
Maximum Potential Runoff - (Measured in Cubic Meter) - Maximum Potential Runoff is generated when the movement of water into the soil is slow enough to result in water flow along the land surface and into water bodies.
Initial Abstraction - (Measured in Cubic Meter) - Initial Abstraction is a parameter that accounts for all losses prior to runoff and consists mainly of interception, infiltration, evaporation, and surface depression storage.

STEP 1: Convert Input(s) to Base Unit

Maximum Potential Runoff: 11 Cubic Meter --> 11 Cubic Meter No Conversion Required
Initial Abstraction: 5 Cubic Meter --> 5 Cubic Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

P_T = R_max+I_a --> 11+5

Evaluating ... ...

P_T = 16

STEP 3: Convert Result to Output's Unit

16 Cubic Meter --> No Conversion Required

FINAL ANSWER

16 Cubic Meter <-- Total Precipitation

(Calculation completed in 00.004 seconds)

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< 11 Basic Theory Calculators

Equation for Potential Maximum Retention

Go Potential Maximum Retention = Cumulative Infiltration*((Total Precipitation-Initial Abstraction)/Direct Surface Runoff)

Actual Infiltration

Go Cumulative Infiltration = Potential Maximum Retention*(Direct Surface Runoff/(Total Precipitation-Initial Abstraction))

Initial Abstraction given Ratio of Infiltration to Retention

Go Initial Abstraction = Total Precipitation-(Direct Surface Runoff*Potential Maximum Retention/Cumulative Infiltration)

Precipitation given Potential Maximum Retention

Go Total Precipitation = (Direct Surface Runoff*Potential Maximum Retention/Cumulative Infiltration)+Initial Abstraction

Cumulative Infiltration given Total Precipitation

Go Cumulative Infiltration = Total Precipitation-Initial Abstraction-Direct Surface Runoff

Direct Surface Runoff given Total Precipitation

Go Direct Surface Runoff = Total Precipitation-Initial Abstraction-Cumulative Infiltration

Water Balance Equation for Rainfall

Go Total Precipitation = Initial Abstraction+Cumulative Infiltration+Direct Surface Runoff

Initial Abstraction

Go Initial Abstraction = Total Precipitation-Cumulative Infiltration-Direct Surface Runoff

Initial Abstraction given Total Precipitation

Go Initial Abstraction = Total Precipitation-Maximum Potential Runoff

Precipitation given Maximum Potential Runoff

Go Total Precipitation = Maximum Potential Runoff+Initial Abstraction

Maximum Potential Runoff

Go Maximum Potential Runoff = Total Precipitation-Initial Abstraction

Precipitation given Maximum Potential Runoff Formula

Total Precipitation = Maximum Potential Runoff+Initial Abstraction
P_T = R_max+I_a

What is Water Balance Model?

Water Balance Model is a conceptual representation of the hydrologic cycle typically used to apply water balance principles at atmospheric, surface, soil water media, and subsurface scales.

What is Initial Abstraction?

Initial Abstraction is a parameter that accounts for all losses prior to runoff and consists mainly of interception, infiltration, evaporation, and surface depression storage.

How to Calculate Precipitation given Maximum Potential Runoff?

Precipitation given Maximum Potential Runoff calculator uses Total Precipitation = Maximum Potential Runoff+Initial Abstraction to calculate the Total Precipitation, The Precipitation given Maximum Potential Runoff formula is defined as the greatest depth of precipitation for a given duration meteorologically possible for a given size storm area at a particular location at a particular time of year. Total Precipitation is denoted by P_T symbol.

How to calculate Precipitation given Maximum Potential Runoff using this online calculator? To use this online calculator for Precipitation given Maximum Potential Runoff, enter Maximum Potential Runoff (R_max) & Initial Abstraction (I_a) and hit the calculate button. Here is how the Precipitation given Maximum Potential Runoff calculation can be explained with given input values -> 16 = 11+5.

FAQ

What is Precipitation given Maximum Potential Runoff?

The Precipitation given Maximum Potential Runoff formula is defined as the greatest depth of precipitation for a given duration meteorologically possible for a given size storm area at a particular location at a particular time of year and is represented as P_T = R_max+I_a or Total Precipitation = Maximum Potential Runoff+Initial Abstraction. Maximum Potential Runoff is generated when the movement of water into the soil is slow enough to result in water flow along the land surface and into water bodies & Initial Abstraction is a parameter that accounts for all losses prior to runoff and consists mainly of interception, infiltration, evaporation, and surface depression storage.

How to calculate Precipitation given Maximum Potential Runoff?

The Precipitation given Maximum Potential Runoff formula is defined as the greatest depth of precipitation for a given duration meteorologically possible for a given size storm area at a particular location at a particular time of year is calculated using Total Precipitation = Maximum Potential Runoff+Initial Abstraction. To calculate Precipitation given Maximum Potential Runoff, you need Maximum Potential Runoff (R_max) & Initial Abstraction (I_a). With our tool, you need to enter the respective value for Maximum Potential Runoff & Initial Abstraction 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 Total Precipitation?

In this formula, Total Precipitation uses Maximum Potential Runoff & Initial Abstraction. We can use 2 other way(s) to calculate the same, which is/are as follows -

Total Precipitation = Initial Abstraction+Cumulative Infiltration+Direct Surface Runoff
Total Precipitation = (Direct Surface Runoff*Potential Maximum Retention/Cumulative Infiltration)+Initial Abstraction

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