Maximum Area that can be Irrigated with Supply Ditch of Discharge Q Calculator

✖Discharge through the supply ditch.ⓘ Discharge Through the Supply Ditch [Q]			+10% -10%
✖Rate of infiltration of soil is a measure of how fast water enters the soil, typically expressed in inches per hour.ⓘ Rate of Infiltration of Soil [f]			+10% -10%

✖Maximum area that can be irrigated of discharge Q.ⓘ Maximum Area that can be Irrigated with Supply Ditch of Discharge Q [A_max]

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Maximum Area that can be Irrigated with Supply Ditch of Discharge Q Solution

STEP 0: Pre-Calculation Summary

Formula Used

Maximum Area that Can be Irrigated of Discharge Q = Discharge Through the Supply Ditch/Rate of Infiltration of Soil
A_max = Q/f
This formula uses 3 Variables

Variables Used

Maximum Area that Can be Irrigated of Discharge Q - (Measured in Square Meter) - Maximum area that can be irrigated of discharge Q.
Discharge Through the Supply Ditch - (Measured in Cubic Meter per Second) - Discharge through the supply ditch.
Rate of Infiltration of Soil - (Measured in Centimeter) - Rate of infiltration of soil is a measure of how fast water enters the soil, typically expressed in inches per hour.

STEP 1: Convert Input(s) to Base Unit

Discharge Through the Supply Ditch: 72 Cubic Meter per Second --> 72 Cubic Meter per Second No Conversion Required
Rate of Infiltration of Soil: 0.05 Centimeter --> 0.05 Centimeter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

A_max = Q/f --> 72/0.05

Evaluating ... ...

A_max = 1440

STEP 3: Convert Result to Output's Unit

1440 Square Meter --> No Conversion Required

FINAL ANSWER

1440 Square Meter <-- Maximum Area that Can be Irrigated of Discharge Q

(Calculation completed in 00.004 seconds)

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< Irrigation and Methods of Irrigation Calculators

Approximate Time Required to Cover Area of Land Irrigated with Water

LaTeX Go Time Required to Cover the Given Area With Water = 2.3*(Depth of Water Flowing Over the Border Strip/Rate of Infiltration of Soil)*log10(Discharge Through the Supply Ditch/(Discharge Through the Supply Ditch-Rate of Infiltration of Soil*Area of Land Strip to be Irrigated))

Determination of Supply Ditch of Discharge Q when Maximum Area is Irrigated

LaTeX Go Discharge Through the Supply Ditch = (Maximum Area that Can be Irrigated of Discharge Q)*(Rate of Infiltration of Soil)

Soil Infiltration Capacity when Maximum Area is Irrigated

LaTeX Go Rate of Infiltration of Soil = (Discharge Through the Supply Ditch)/(Maximum Area that Can be Irrigated of Discharge Q)

Maximum Area that can be Irrigated with Supply Ditch of Discharge Q

LaTeX Go Maximum Area that Can be Irrigated of Discharge Q = Discharge Through the Supply Ditch/Rate of Infiltration of Soil

Maximum Area that can be Irrigated with Supply Ditch of Discharge Q Formula

LaTeX Go

Maximum Area that Can be Irrigated of Discharge Q = Discharge Through the Supply Ditch/Rate of Infiltration of Soil
A_max = Q/f

How to calculate the Irrigated Area?

To calculate the area watered per irrigation: multiply the number of rows being watered by the row spacing (meters) and the block length (meters), then divide by 10,000 to get an area in hectares.

What is Irrigation Ditch?

Irrigation ditches are manmade channels that take water from natural streams for delivery to homes, farms, businesses, industries and other uses. The water flowing in streams is generally naturally occurring. The flow of water in a ditch is controlled by people who work for a ditch company.

How to Calculate Maximum Area that can be Irrigated with Supply Ditch of Discharge Q?

Maximum Area that can be Irrigated with Supply Ditch of Discharge Q calculator uses Maximum Area that Can be Irrigated of Discharge Q = Discharge Through the Supply Ditch/Rate of Infiltration of Soil to calculate the Maximum Area that Can be Irrigated of Discharge Q, The Maximum Area that can be Irrigated with Supply Ditch of Discharge Q formula is defined as the area assumed to be irrigated for cultivation through such sources as canals (Govt. & Private), tanks, tube wells, other wells and other sources. Maximum Area that Can be Irrigated of Discharge Q is denoted by A_max symbol.

How to calculate Maximum Area that can be Irrigated with Supply Ditch of Discharge Q using this online calculator? To use this online calculator for Maximum Area that can be Irrigated with Supply Ditch of Discharge Q, enter Discharge Through the Supply Ditch (Q) & Rate of Infiltration of Soil (f) and hit the calculate button. Here is how the Maximum Area that can be Irrigated with Supply Ditch of Discharge Q calculation can be explained with given input values -> 1440 = 72/0.0005.

FAQ

What is Maximum Area that can be Irrigated with Supply Ditch of Discharge Q?

The Maximum Area that can be Irrigated with Supply Ditch of Discharge Q formula is defined as the area assumed to be irrigated for cultivation through such sources as canals (Govt. & Private), tanks, tube wells, other wells and other sources and is represented as A_max = Q/f or Maximum Area that Can be Irrigated of Discharge Q = Discharge Through the Supply Ditch/Rate of Infiltration of Soil. Discharge through the supply ditch & Rate of infiltration of soil is a measure of how fast water enters the soil, typically expressed in inches per hour.

How to calculate Maximum Area that can be Irrigated with Supply Ditch of Discharge Q?

The Maximum Area that can be Irrigated with Supply Ditch of Discharge Q formula is defined as the area assumed to be irrigated for cultivation through such sources as canals (Govt. & Private), tanks, tube wells, other wells and other sources is calculated using Maximum Area that Can be Irrigated of Discharge Q = Discharge Through the Supply Ditch/Rate of Infiltration of Soil. To calculate Maximum Area that can be Irrigated with Supply Ditch of Discharge Q, you need Discharge Through the Supply Ditch (Q) & Rate of Infiltration of Soil (f). With our tool, you need to enter the respective value for Discharge Through the Supply Ditch & Rate of Infiltration of Soil 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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