✖Area of Computation for Recharge is the catchment area where the amount of water infiltrating the ground and replenishing aquifers is calculated, crucial for managing groundwater resources.ⓘ Area of Computation for Recharge [A_cr]			+10% -10%
✖Normal Rainfall in Monsoon Season is the statistical average of rainfall measured over a specified period, typically 30 years, during the monsoon months in a given region.ⓘ Normal Rainfall in Monsoon Season [P_nm]			+10% -10%

✖Recharge from Rainfall in Hard Rock Laterite is the process of water infiltrating through hard rock laterite formations due to precipitation.ⓘ Recharge from Rainfall in Hard Rock Areas with Laterite [R_hrl]

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Recharge from Rainfall in Hard Rock Areas with Laterite

Formula

`"R"_{"hrl"} = 13*"A"_{"cr"}*"P"_{"nm"}`

Example

`"4.1496m³/s"=13*"13.3m²"*"0.024m"`

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Recharge from Rainfall in Hard Rock Areas with Laterite Solution

STEP 0: Pre-Calculation Summary

Formula Used

Recharge from Rainfall in Hard Rock Laterite = 13*Area of Computation for Recharge*Normal Rainfall in Monsoon Season
R_hrl = 13*A_cr*P_nm
This formula uses 3 Variables

Variables Used

Recharge from Rainfall in Hard Rock Laterite - (Measured in Cubic Meter per Second) - Recharge from Rainfall in Hard Rock Laterite is the process of water infiltrating through hard rock laterite formations due to precipitation.
Area of Computation for Recharge - (Measured in Square Meter) - Area of Computation for Recharge is the catchment area where the amount of water infiltrating the ground and replenishing aquifers is calculated, crucial for managing groundwater resources.
Normal Rainfall in Monsoon Season - (Measured in Meter) - Normal Rainfall in Monsoon Season is the statistical average of rainfall measured over a specified period, typically 30 years, during the monsoon months in a given region.

STEP 1: Convert Input(s) to Base Unit

Area of Computation for Recharge: 13.3 Square Meter --> 13.3 Square Meter No Conversion Required
Normal Rainfall in Monsoon Season: 0.024 Meter --> 0.024 Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

R_hrl = 13*A_cr*P_nm --> 13*13.3*0.024

Evaluating ... ...

R_hrl = 4.1496

STEP 3: Convert Result to Output's Unit

4.1496 Cubic Meter per Second --> No Conversion Required

FINAL ANSWER

4.1496 Cubic Meter per Second <-- Recharge from Rainfall in Hard Rock Laterite

(Calculation completed in 00.004 seconds)

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< 13 Recommended Value for Rainfall Factor for Various Hydrogeologic Conditions based on Norms Calculators

Recharge from Rainfall in Hard Rock Areas consisting Massive Poorly Fractured Rocks

Go Rainfall Recharge in Hard Rock Poorly Fractured = 6*Area of Computation for Recharge*Normal Rainfall in Monsoon Season

Recharge from Rainfall in Hard Rock Areas with Granulite Facies

Go Rainfall Recharge in Hard Rock Granulite Facies = 5*Area of Computation for Recharge*Normal Rainfall in Monsoon Season

Recharge from Rainfall in Hard Rock Areas with Weathered Basalt

Go Rainfall Recharge in Hard Rock Weathered Basalt = 5*Area of Computation for Recharge*Normal Rainfall in Monsoon Season

Recharge from Rainfall in West Coast Areas based on Recommended Rainfall Infiltration Factor

Go Recharge from Rainfall in Alluvial West Coast = 10*Area of Computation for Recharge*Normal Rainfall in Monsoon Season

Recharge from Rainfall in Hard Rock Areas with Phyllites, Shales

Go Recharge from Rainfall in Hard Rock Phyllites = 12*Area of Computation for Recharge*Normal Rainfall in Monsoon Season

Recharge from Rainfall in East Coast Alluvial Areas

Go Recharge from Rainfall in Alluvial East Coast = 16*Area of Computation for Recharge*Normal Rainfall in Monsoon Season

Recharge from Rainfall in Hard Rock Areas with Low Clay Content

Go Recharge from Rainfall in Hard Rock Low Clay = 11*Area of Computation for Recharge*Normal Rainfall in Monsoon Season

Recharge from Rainfall in Hard Rock Areas with Laterite

Go Recharge from Rainfall in Hard Rock Laterite = 13*Area of Computation for Recharge*Normal Rainfall in Monsoon Season

Recharge from Rainfall in Hard Rock Areas with Vesicular and Jointed Basalt

Go Recharge from Rainfall in Hard Rock Areas = 8*Area of Computation for Recharge*Normal Rainfall in Monsoon Season

Recharge from Rainfall in Hard Rock Areas with Significant Clay Content

Go Recharge from Rainfall in Hard Rock Areas = 8*Area of Computation for Recharge*Normal Rainfall in Monsoon Season

Recharge from Rainfall in Hard Rock Areas with Semi Consolidated Sandstone

Go Rainfall Recharge in Hard Rock Sandstone = 7*Area of Computation for Recharge*Normal Rainfall in Monsoon Season

Recharge from Rainfall in Hard Rock Areas of Consolidated Sandstone

Go Rainfall Recharge in Hard Rock Sandstone = 7*Area of Computation for Recharge*Normal Rainfall in Monsoon Season

Recharge from Rainfall in Alluvial Indo Gangetic and Inland Areas

Go Recharge from Rainfall in Alluvial Indo = 22*Area of Computation for Recharge*Normal Rainfall in Monsoon Season

Recharge from Rainfall in Hard Rock Areas with Laterite Formula

Recharge from Rainfall in Hard Rock Laterite = 13*Area of Computation for Recharge*Normal Rainfall in Monsoon Season
R_hrl = 13*A_cr*P_nm

What is Groundwater Flow?

Groundwater flow is defined as the part of streamflow that has infiltrated the ground, entered the phreatic zone, and has been discharged into a stream channel or springs; and seepage water.

How to Calculate Recharge from Rainfall in Hard Rock Areas with Laterite?

Recharge from Rainfall in Hard Rock Areas with Laterite calculator uses Recharge from Rainfall in Hard Rock Laterite = 13*Area of Computation for Recharge*Normal Rainfall in Monsoon Season to calculate the Recharge from Rainfall in Hard Rock Laterite, The Recharge from Rainfall in Hard Rock Areas with Laterite formula is defined as the process by which rainwater infiltrates the ground and replenishes the groundwater reserves in regions characterized by hard, impermeable bedrock covered with a layer of laterite soil. Laterite is a type of soil and rock rich in iron and aluminum, formed in hot and wet tropical areas. Recharge from Rainfall in Hard Rock Laterite is denoted by R_hrl symbol.

How to calculate Recharge from Rainfall in Hard Rock Areas with Laterite using this online calculator? To use this online calculator for Recharge from Rainfall in Hard Rock Areas with Laterite, enter Area of Computation for Recharge (A_cr) & Normal Rainfall in Monsoon Season (P_nm) and hit the calculate button. Here is how the Recharge from Rainfall in Hard Rock Areas with Laterite calculation can be explained with given input values -> 4.1496 = 13*13.3*0.024.

FAQ

What is Recharge from Rainfall in Hard Rock Areas with Laterite?

The Recharge from Rainfall in Hard Rock Areas with Laterite formula is defined as the process by which rainwater infiltrates the ground and replenishes the groundwater reserves in regions characterized by hard, impermeable bedrock covered with a layer of laterite soil. Laterite is a type of soil and rock rich in iron and aluminum, formed in hot and wet tropical areas and is represented as R_hrl = 13*A_cr*P_nm or Recharge from Rainfall in Hard Rock Laterite = 13*Area of Computation for Recharge*Normal Rainfall in Monsoon Season. Area of Computation for Recharge is the catchment area where the amount of water infiltrating the ground and replenishing aquifers is calculated, crucial for managing groundwater resources & Normal Rainfall in Monsoon Season is the statistical average of rainfall measured over a specified period, typically 30 years, during the monsoon months in a given region.

How to calculate Recharge from Rainfall in Hard Rock Areas with Laterite?

The Recharge from Rainfall in Hard Rock Areas with Laterite formula is defined as the process by which rainwater infiltrates the ground and replenishes the groundwater reserves in regions characterized by hard, impermeable bedrock covered with a layer of laterite soil. Laterite is a type of soil and rock rich in iron and aluminum, formed in hot and wet tropical areas is calculated using Recharge from Rainfall in Hard Rock Laterite = 13*Area of Computation for Recharge*Normal Rainfall in Monsoon Season. To calculate Recharge from Rainfall in Hard Rock Areas with Laterite, you need Area of Computation for Recharge (A_cr) & Normal Rainfall in Monsoon Season (P_nm). With our tool, you need to enter the respective value for Area of Computation for Recharge & Normal Rainfall in Monsoon Season 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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