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Discharge for Triangular Weir if Coefficient Discharge is Constant Formula

GoDischarge for Entire Triangular Weir Formula

GoDischarge for Triangular Weir if Angle is at 90 Formula

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Discharge through Triangular Weir is discharge calculated considering the channel as triangular. Check FAQs

Q tri = 1.418 \cdot {S w}^{\frac{5}{2}}

Q_tri - Discharge through Triangular Weir?S_w - Height of Water above Crest of Weir?

Discharge for Triangular Weir if Coefficient Discharge is Constant Example

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Here is how the Discharge for Triangular Weir if Coefficient Discharge is Constant equation looks like with Values.

Here is how the Discharge for Triangular Weir if Coefficient Discharge is Constant equation looks like with Units.

Here is how the Discharge for Triangular Weir if Coefficient Discharge is Constant equation looks like.

8.0214 = 1.418 \cdot 2^{\frac{5}{2}}

8.0214m³/s = 1.418 \cdot {2m}^{\frac{5}{2}}

8.0214 = 1.418 \cdot 2^{\frac{5}{2}}

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Discharge for Triangular Weir if Coefficient Discharge is Constant Solution

Follow our step by step solution on how to calculate Discharge for Triangular Weir if Coefficient Discharge is Constant?

FIRST Step Consider the formula

Q tri = 1.418 \cdot {S w}^{\frac{5}{2}}

Next Step Substitute values of Variables

∴

Q tri = 1.418 \cdot {2m}^{\frac{5}{2}}

Next Step Prepare to Evaluate

∴

Q tri = 1.418 \cdot 2^{\frac{5}{2}}

Next Step Evaluate

∴

Q tri = 8.0214193257802m³/s

LAST Step Rounding Answer

∴

Q tri = 8.0214m³/s

Discharge for Triangular Weir if Coefficient Discharge is Constant Formula Elements

Variables

Discharge through Triangular Weir

Discharge through Triangular Weir is discharge calculated considering the channel as triangular.

Symbol: Q_tri

Measurement: Volumetric Flow RateUnit: m³/s

Note: Value can be positive or negative.

Formulas to find Discharge through Triangular Weir

Height of Water above Crest of Weir

Height of Water above Crest of Weir is defined as the water surface height above crest.

Symbol: S_w

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Height of Water above Crest of Weir

Other Formulas to find Discharge through Triangular Weir

Go Discharge for Entire Triangular Weir

Q tri = (\frac{8}{15}) \cdot C d \cdot \sqrt{2 \cdot g} \cdot \tan (\frac{θ}{2}) \cdot {S w}^{\frac{5}{2}}

Go Discharge for Triangular Weir if Angle is at 90

Q tri = (\frac{8}{15}) \cdot C d \cdot \sqrt{2 \cdot g} \cdot {S w}^{\frac{3}{2}}

Go Discharge for Triangular Weir if Velocity is Considered

Q tri = (\frac{8}{15}) \cdot C d \cdot \sqrt{2 \cdot g} \cdot \tan (\frac{θ}{2}) \cdot ({(S w + H V)}^{\frac{5}{2}} - {H V}^{\frac{5}{2}})

Other formulas in Flow over a Triangular Weir or Notch category

Go Head for Discharge for Entire Triangular Weir

S w = {(\frac{Q tri}{(\frac{8}{15}) \cdot C d \cdot \sqrt{2 \cdot g} \cdot \tan (\frac{θ}{2})})}^{\frac{2}{5}}

Go Coefficient of Discharge when Discharge for Triangular Weir when Angle is 90

C d = \frac{Q tri}{(\frac{8}{15}) \cdot \sqrt{2 \cdot g} \cdot {S w}^{\frac{5}{2}}}

Go Head when Discharge for Triangular Weir Angle is 90

S w = \frac{Q tri}{{((\frac{8}{15}) \cdot C d \cdot \sqrt{2 \cdot g})}^{\frac{2}{5}}}

Go Head when Coefficient Discharge is Constant

S w = {(\frac{Q tri}{1.418})}^{\frac{2}{5}}

How to Evaluate Discharge for Triangular Weir if Coefficient Discharge is Constant?

Discharge for Triangular Weir if Coefficient Discharge is Constant evaluator uses Discharge through Triangular Weir = 1.418*Height of Water above Crest of Weir^(5/2) to evaluate the Discharge through Triangular Weir, The Discharge for triangular weir if coefficient Discharge is constant is a measure of the quantity of any fluid flow over unit time. The quantity may be either volume or mass. Discharge through Triangular Weir is denoted by Q_tri symbol.

How to evaluate Discharge for Triangular Weir if Coefficient Discharge is Constant using this online evaluator? To use this online evaluator for Discharge for Triangular Weir if Coefficient Discharge is Constant, enter Height of Water above Crest of Weir (S_w) and hit the calculate button.

FAQs on Discharge for Triangular Weir if Coefficient Discharge is Constant

What is the formula to find Discharge for Triangular Weir if Coefficient Discharge is Constant?

The formula of Discharge for Triangular Weir if Coefficient Discharge is Constant is expressed as Discharge through Triangular Weir = 1.418*Height of Water above Crest of Weir^(5/2). Here is an example- 8.021419 = 1.418*2^(5/2).

How to calculate Discharge for Triangular Weir if Coefficient Discharge is Constant?

With Height of Water above Crest of Weir (S_w) we can find Discharge for Triangular Weir if Coefficient Discharge is Constant using the formula - Discharge through Triangular Weir = 1.418*Height of Water above Crest of Weir^(5/2).

What are the other ways to Calculate Discharge through Triangular Weir?

Here are the different ways to Calculate Discharge through Triangular Weir-

Discharge through Triangular Weir=(8/15)*Coefficient of Discharge*sqrt(2*Acceleration due to Gravity)*tan(Theta/2)*Height of Water above Crest of Weir^(5/2)
Discharge through Triangular Weir=(8/15)*Coefficient of Discharge*sqrt(2*Acceleration due to Gravity)*Height of Water above Crest of Weir^(3/2)
Discharge through Triangular Weir=(8/15)*Coefficient of Discharge*sqrt(2*Acceleration due to Gravity)*tan(Theta/2)*((Height of Water above Crest of Weir+Velocity Head)^(5/2)-Velocity Head^(5/2))

Can the Discharge for Triangular Weir if Coefficient Discharge is Constant be negative?

Yes, the Discharge for Triangular Weir if Coefficient Discharge is Constant, measured in Volumetric Flow Rate can be negative.

Which unit is used to measure Discharge for Triangular Weir if Coefficient Discharge is Constant?

Discharge for Triangular Weir if Coefficient Discharge is Constant is usually measured using the Cubic Meter per Second[m³/s] for Volumetric Flow Rate. Cubic Meter per Day[m³/s], Cubic Meter per Hour[m³/s], Cubic Meter per Minute[m³/s] are the few other units in which Discharge for Triangular Weir if Coefficient Discharge is Constant can be measured.

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