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Support Cultivation Practice given Sediment Yield from Individual Storm Formula

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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. Check FAQs

P = \frac{Y}{11.8 \cdot {(Q V \cdot q p)}^{0.56} \cdot K \cdot K zt \cdot C}

P - Support Practice Factor?Y - Sediment Yield from an Individual Storm?Q_V - Runoff Volume?q_p - Peak Rate of Runoff?K - Soil Erodibility Factor?K_zt - Topographic factor?C - Cover Management Factor?

Support Cultivation Practice given Sediment Yield from Individual Storm Example

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Here is how the Support Cultivation Practice given Sediment Yield from Individual Storm equation looks like with Values.

Here is how the Support Cultivation Practice given Sediment Yield from Individual Storm equation looks like with Units.

Here is how the Support Cultivation Practice given Sediment Yield from Individual Storm equation looks like.

0.74 = \frac{135.7332}{11.8 \cdot {(19.5 \cdot 1.256)}^{0.56} \cdot 0.17 \cdot 25 \cdot 0.61}

0.74 = \frac{135.7332kg}{11.8 \cdot {(19.5m³ \cdot 1.256m³/s)}^{0.56} \cdot 0.17 \cdot 25 \cdot 0.61}

0.74 = \frac{135.7332}{11.8 \cdot {(19.5 \cdot 1.256)}^{0.56} \cdot 0.17 \cdot 25 \cdot 0.61}

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Support Cultivation Practice given Sediment Yield from Individual Storm Solution

Follow our step by step solution on how to calculate Support Cultivation Practice given Sediment Yield from Individual Storm?

FIRST Step Consider the formula

P = \frac{Y}{11.8 \cdot {(Q V \cdot q p)}^{0.56} \cdot K \cdot K zt \cdot C}

Next Step Substitute values of Variables

∴

P = \frac{135.7332kg}{11.8 \cdot {(19.5m³ \cdot 1.256m³/s)}^{0.56} \cdot 0.17 \cdot 25 \cdot 0.61}

Next Step Prepare to Evaluate

∴

P = \frac{135.7332}{11.8 \cdot {(19.5 \cdot 1.256)}^{0.56} \cdot 0.17 \cdot 25 \cdot 0.61}

Next Step Evaluate

∴

P = 0.740000026355404

LAST Step Rounding Answer

∴

P = 0.74

Support Cultivation Practice given Sediment Yield from Individual Storm Formula Elements

Variables

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.

Symbol: P

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Support Practice Factor

Sediment Yield from an Individual Storm

Sediment Yield from an Individual Storm is the amount of sediment leaving the watershed or catchment, and gross erosion is defined as the absolute amount of erosion occurring within the catchment.

Symbol: Y

Measurement: WeightUnit: kg

Note: Value can be positive or negative.

Formulas to find Sediment Yield from an Individual Storm

Runoff Volume

Runoff Volume is the average amount of water that flows down a particular river, per year, expressed as a volume of water flowing past a given point.

Symbol: Q_V

Measurement: VolumeUnit: m³

Note: Value should be greater than 0.

Formulas to find Runoff Volume

Peak Rate of Runoff

Peak Rate of Runoff is the maximum rate of discharge during the period of runoff caused by a storm.

Symbol: q_p

Measurement: Volumetric Flow RateUnit: m³/s

Note: Value should be greater than 0.

Formulas to find Peak Rate of Runoff

Soil Erodibility Factor

Soil Erodibility Factor is the intrinsic susceptibility of a soil to erosion by runoff and raindrop impact.

Symbol: K

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Soil Erodibility Factor

Topographic factor

Topographic Factor also called indirect factors as they influence the growth and development of organisms by bringing variations in climatic factors.

Symbol: K_zt

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Topographic factor

Cover Management Factor

Cover Management Factor reflects the effect of cropping and management practices on erosion rates.

Symbol: C

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Cover Management Factor

Other formulas in Modified Universal Soil Loss Equation category

Go Sediment Yield from Individual Storm

Y = 11.8 \cdot ({(Q V \cdot q p)}^{0.56}) \cdot K \cdot K zt \cdot C \cdot P

Go Storm Runoff Volume given Sediment Yield from Individual Storm

Q V = \frac{{(\frac{Y}{11.8 \cdot K \cdot K zt \cdot C \cdot P})}^{\frac{1}{0.56}}}{q p}

How to Evaluate Support Cultivation Practice given Sediment Yield from Individual Storm?

Support Cultivation Practice given Sediment Yield from Individual Storm evaluator uses Support Practice Factor = Sediment Yield from an Individual Storm/(11.8*(Runoff Volume*Peak Rate of Runoff)^0.56*Soil Erodibility Factor*Topographic factor*Cover Management Factor) to evaluate the Support Practice Factor, The Support Cultivation Practice given Sediment Yield from Individual Storm formula is defined as the ratio of soil loss with support practices like contouring, strip-cropping or terracing to that with straight row farming up and down slope. Support Practice Factor is denoted by P symbol.

How to evaluate Support Cultivation Practice given Sediment Yield from Individual Storm using this online evaluator? To use this online evaluator for Support Cultivation Practice given Sediment Yield from Individual Storm, enter Sediment Yield from an Individual Storm (Y), Runoff Volume (Q_V), Peak Rate of Runoff (q_p), Soil Erodibility Factor (K), Topographic factor (K_zt) & Cover Management Factor (C) and hit the calculate button.

FAQs on Support Cultivation Practice given Sediment Yield from Individual Storm

What is the formula to find Support Cultivation Practice given Sediment Yield from Individual Storm?

The formula of Support Cultivation Practice given Sediment Yield from Individual Storm is expressed as Support Practice Factor = Sediment Yield from an Individual Storm/(11.8*(Runoff Volume*Peak Rate of Runoff)^0.56*Soil Erodibility Factor*Topographic factor*Cover Management Factor). Here is an example- 0.638886 = 135.7332/(11.8*(19.5*1.256)^0.56*0.17*25*0.61).

How to calculate Support Cultivation Practice given Sediment Yield from Individual Storm?

With Sediment Yield from an Individual Storm (Y), Runoff Volume (Q_V), Peak Rate of Runoff (q_p), Soil Erodibility Factor (K), Topographic factor (K_zt) & Cover Management Factor (C) we can find Support Cultivation Practice given Sediment Yield from Individual Storm using the formula - Support Practice Factor = Sediment Yield from an Individual Storm/(11.8*(Runoff Volume*Peak Rate of Runoff)^0.56*Soil Erodibility Factor*Topographic factor*Cover Management Factor).

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Support Cultivation Practice given Sediment Yield from Individual Storm Formula

Support Cultivation Practice given Sediment Yield from Individual Storm Example

Support Cultivation Practice given Sediment Yield from Individual Storm Solution

Support Cultivation Practice given Sediment Yield from Individual Storm Formula Elements

Other formulas in Modified Universal Soil Loss Equation category

How to Evaluate Support Cultivation Practice given Sediment Yield from Individual Storm?

FAQs on Support Cultivation Practice given Sediment Yield from Individual Storm

Variable Name