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First Moment of DRH about Time Origin divided by Total Direct Runoff Formula

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First Moment of the DRH about the time origin divided by the total direct runoff. Check FAQs

M Q1 = (n \cdot K) + M I1

M_Q1 - First Moment of the DRH?n - Constant n?K - Constant K?M_I1 - First Moment of the ERH?

First Moment of DRH about Time Origin divided by Total Direct Runoff Example

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Here is how the First Moment of DRH about Time Origin divided by Total Direct Runoff equation looks like with Values.

Here is how the First Moment of DRH about Time Origin divided by Total Direct Runoff equation looks like with Units.

Here is how the First Moment of DRH about Time Origin divided by Total Direct Runoff equation looks like.

22 = (3 \cdot 4) + 10

22 = (3 \cdot 4) + 10

22 = (3 \cdot 4) + 10

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First Moment of DRH about Time Origin divided by Total Direct Runoff Solution

Follow our step by step solution on how to calculate First Moment of DRH about Time Origin divided by Total Direct Runoff?

FIRST Step Consider the formula

M Q1 = (n \cdot K) + M I1

Next Step Substitute values of Variables

∴

M Q1 = (3 \cdot 4) + 10

Next Step Prepare to Evaluate

∴

M Q1 = (3 \cdot 4) + 10

LAST Step Evaluate

∴

M Q1 = 22

First Moment of DRH about Time Origin divided by Total Direct Runoff Formula Elements

Variables

First Moment of the DRH

First Moment of the DRH about the time origin divided by the total direct runoff.

Symbol: M_Q1

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find First Moment of the DRH

Constant n

Constant n is for the catchment to be determined by the effective rainfall of the catchment.

Symbol: n

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Constant n

Constant K

Constant K is for the catchment to be determined by flood hydrograph characteristics of the catchment.

Symbol: K

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Constant K

First Moment of the ERH

First Moment of the ERH about the time origin divided by the total effective rainfall.

Symbol: M_I1

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find First Moment of the ERH

Other formulas in Determination of n and S of Nash's Model category

Go First Moment of ERH about Time Origin divided by Total Effective Rainfall

M I1 = M Q1 - (n \cdot K)

Go Second Moment of ERH about Time Origin divided by Total Excess Rainfall

M I2 = M Q2 - (n \cdot (n + 1) \cdot K^{2}) - (2 \cdot n \cdot K \cdot M I1)

Go Second Moment of DRH about Time Origin divided by Total Direct Runoff

M Q2 = (n \cdot (n + 1) \cdot K^{2}) + (2 \cdot n \cdot K \cdot M I1) + M I2

Go First Moment of ERH given Second Moment of DRH

M I1 = \frac{M Q2 - M I2 - (n \cdot (n + 1) \cdot K^{2})}{2 \cdot n \cdot K}

How to Evaluate First Moment of DRH about Time Origin divided by Total Direct Runoff?

First Moment of DRH about Time Origin divided by Total Direct Runoff evaluator uses First Moment of the DRH = (Constant n*Constant K)+First Moment of the ERH to evaluate the First Moment of the DRH, The First Moment of DRH about Time Origin divided by Total Direct Runoff formula is defined as the moment of Direct Runoff Hydrograph corresponding to the moment of effective rainfall hyetograph. First Moment of the DRH is denoted by M_Q1 symbol.

How to evaluate First Moment of DRH about Time Origin divided by Total Direct Runoff using this online evaluator? To use this online evaluator for First Moment of DRH about Time Origin divided by Total Direct Runoff, enter Constant n (n), Constant K (K) & First Moment of the ERH (M_I1) and hit the calculate button.

FAQs on First Moment of DRH about Time Origin divided by Total Direct Runoff

What is the formula to find First Moment of DRH about Time Origin divided by Total Direct Runoff?

The formula of First Moment of DRH about Time Origin divided by Total Direct Runoff is expressed as First Moment of the DRH = (Constant n*Constant K)+First Moment of the ERH. Here is an example- 10.33 = (3*4)+10.

How to calculate First Moment of DRH about Time Origin divided by Total Direct Runoff?

With Constant n (n), Constant K (K) & First Moment of the ERH (M_I1) we can find First Moment of DRH about Time Origin divided by Total Direct Runoff using the formula - First Moment of the DRH = (Constant n*Constant K)+First Moment of the ERH.

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First Moment of DRH about Time Origin divided by Total Direct Runoff Formula

First Moment of DRH about Time Origin divided by Total Direct Runoff Example

First Moment of DRH about Time Origin divided by Total Direct Runoff Solution

First Moment of DRH about Time Origin divided by Total Direct Runoff Formula Elements

Other formulas in Determination of n and S of Nash's Model category

How to Evaluate First Moment of DRH about Time Origin divided by Total Direct Runoff?

FAQs on First Moment of DRH about Time Origin divided by Total Direct Runoff

Variable Name