FormulaDen.com

Physics Chemistry Math Chemical Engineering Civil Electrical Electronics Electronics and Instrumentation Materials Science Mechanical Production Engineering Financial Health

Depth of Flow when Width of Channel in Most Efficient Channel for Bottom Width is kept Constant Formula

GoDepth of Flow in most Efficient Channel in Trapezoidal Channel given Channel Slope Formula

GoDepth of Flow given Hydraulic Radius in Most Efficient Trapezoidal Channel Formula

Fx Copy

LaTeX Copy

Depth of Flow is the distance from the top or surface of the flow to the bottom of a channel or other waterway or Depth of Flow at the Vertical while measuring Sound Weights. Check FAQs

d f = B trap \cdot \frac{z trap}{1 - ({z trap}^{2})}

d_f - Depth of Flow?B_trap - Width of Trap Channel?z_trap - Side slope of Trapezoidal Channel?

Depth of Flow when Width of Channel in Most Efficient Channel for Bottom Width is kept Constant Example

With values

With units

Only example

Here is how the Depth of Flow when Width of Channel in Most Efficient Channel for Bottom Width is kept Constant equation looks like with Values.

Here is how the Depth of Flow when Width of Channel in Most Efficient Channel for Bottom Width is kept Constant equation looks like with Units.

Here is how the Depth of Flow when Width of Channel in Most Efficient Channel for Bottom Width is kept Constant equation looks like.

3.296 = 3.8105 \cdot \frac{0.577}{1 - ({0.577}^{2})}

3.296m = 3.8105m \cdot \frac{0.577}{1 - ({0.577}^{2})}

3.296 = 3.8105 \cdot \frac{0.577}{1 - ({0.577}^{2})}

Tip: Use pencil ( Pencil

) icon above to edit Input Values and Units.

Calculate

Recalculate

Solution

Copy

Reset

You are here -

Home » Category

Engineering » Category

Civil » Category

Hydraulics and Waterworks » fx Depth of Flow when Width of Channel in Most Efficient Channel for Bottom Width is kept Constant

Depth of Flow when Width of Channel in Most Efficient Channel for Bottom Width is kept Constant Solution

Follow our step by step solution on how to calculate Depth of Flow when Width of Channel in Most Efficient Channel for Bottom Width is kept Constant?

FIRST Step Consider the formula

d f = B trap \cdot \frac{z trap}{1 - ({z trap}^{2})}

Next Step Substitute values of Variables

∴

d f = 3.8105m \cdot \frac{0.577}{1 - ({0.577}^{2})}

Next Step Prepare to Evaluate

∴

d f = 3.8105 \cdot \frac{0.577}{1 - ({0.577}^{2})}

Next Step Evaluate

∴

d f = 3.29598873283354m

LAST Step Rounding Answer

∴

d f = 3.296m

Depth of Flow when Width of Channel in Most Efficient Channel for Bottom Width is kept Constant Formula Elements

Variables

Depth of Flow

Depth of Flow is the distance from the top or surface of the flow to the bottom of a channel or other waterway or Depth of Flow at the Vertical while measuring Sound Weights.

Symbol: d_f

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Depth of Flow

Width of Trap Channel

Width of Trap Channel is the width of the trapezoidal cross-section of the beam parallel to the axis in consideration.

Symbol: B_trap

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Width of Trap Channel

Side slope of Trapezoidal Channel

Side slope of Trapezoidal Channel is side slope of trapezoidal channel, defined as horizontal to vertical ratio.

Symbol: z_trap

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Side slope of Trapezoidal Channel

Other Formulas to find Depth of Flow

Go Depth of Flow in most Efficient Channel in Trapezoidal Channel given Channel Slope

d f = \frac{B trap \cdot 0.5}{\sqrt{({z trap}^{2}) + 1} - z trap}

Go Depth of Flow given Hydraulic Radius in Most Efficient Trapezoidal Channel

d f = R H \cdot 2

Go Depth of Flow given Wetted Area in Most Efficient Channel for Bottom Width is kept Constant

d f = {(z trap \cdot S Trap)}^{\frac{1}{2}}

Go Depth of Flow in most Efficient Channel in Trapezoidal Channel

d f = \frac{B trap}{\frac{2}{\sqrt{3}}}

Other formulas in Trapezoidal Section category

Go Width of Channel given Depth of Flow in Efficient Channel

B trap = (\sqrt{({z trap}^{2}) + 1}) \cdot 2 \cdot d f - 2 \cdot d f \cdot z trap

Go Hydraulic Radius of Most Efficient Channel

R H = \frac{d f}{2}

Go Width of Channel in Most Efficient Channel when Bottom width is kept constant

B trap = d f \cdot (\frac{1 - ({z trap}^{2})}{z trap})

Go Wetted Area in Most Efficient Channel for Bottom Width is kept Constant

S Trap = d f \cdot \frac{d f}{z trap}

How to Evaluate Depth of Flow when Width of Channel in Most Efficient Channel for Bottom Width is kept Constant?

Depth of Flow when Width of Channel in Most Efficient Channel for Bottom Width is kept Constant evaluator uses Depth of Flow = Width of Trap Channel*Side slope of Trapezoidal Channel/(1-(Side slope of Trapezoidal Channel^2)) to evaluate the Depth of Flow, The Depth of flow when Width of Channel in Most Efficient Channel for Bottom Width is kept Constant is defined as the amount of water in channel at any point. Depth of Flow is denoted by d_f symbol.

How to evaluate Depth of Flow when Width of Channel in Most Efficient Channel for Bottom Width is kept Constant using this online evaluator? To use this online evaluator for Depth of Flow when Width of Channel in Most Efficient Channel for Bottom Width is kept Constant, enter Width of Trap Channel (B_trap) & Side slope of Trapezoidal Channel (z_trap) and hit the calculate button.

FAQs on Depth of Flow when Width of Channel in Most Efficient Channel for Bottom Width is kept Constant

What is the formula to find Depth of Flow when Width of Channel in Most Efficient Channel for Bottom Width is kept Constant?

The formula of Depth of Flow when Width of Channel in Most Efficient Channel for Bottom Width is kept Constant is expressed as Depth of Flow = Width of Trap Channel*Side slope of Trapezoidal Channel/(1-(Side slope of Trapezoidal Channel^2)). Here is an example- 3.295989 = 3.8105*0.577/(1-(0.577^2)).

How to calculate Depth of Flow when Width of Channel in Most Efficient Channel for Bottom Width is kept Constant?

With Width of Trap Channel (B_trap) & Side slope of Trapezoidal Channel (z_trap) we can find Depth of Flow when Width of Channel in Most Efficient Channel for Bottom Width is kept Constant using the formula - Depth of Flow = Width of Trap Channel*Side slope of Trapezoidal Channel/(1-(Side slope of Trapezoidal Channel^2)).

What are the other ways to Calculate Depth of Flow?

Here are the different ways to Calculate Depth of Flow-

Depth of Flow=(Width of Trap Channel*0.5)/(sqrt((Side slope of Trapezoidal Channel^2)+1)-Side slope of Trapezoidal Channel)
Depth of Flow=Hydraulic Radius of Channel*2
Depth of Flow=(Side slope of Trapezoidal Channel*Wetted Surface Area of Trapezoidal Channel)^(1/2)

Can the Depth of Flow when Width of Channel in Most Efficient Channel for Bottom Width is kept Constant be negative?

No, the Depth of Flow when Width of Channel in Most Efficient Channel for Bottom Width is kept Constant, measured in Length cannot be negative.

Which unit is used to measure Depth of Flow when Width of Channel in Most Efficient Channel for Bottom Width is kept Constant?

Depth of Flow when Width of Channel in Most Efficient Channel for Bottom Width is kept Constant is usually measured using the Meter[m] for Length. Millimeter[m], Kilometer[m], Decimeter[m] are the few other units in which Depth of Flow when Width of Channel in Most Efficient Channel for Bottom Width is kept Constant can be measured.

Let Others Know

✖

Facebook

Twitter

Copied!

: Value
: Unit