Wetted Area for Triangular Solution

STEP 0: Pre-Calculation Summary
Formula Used
Wetted Surface Area of Triangular Channel = Side Slope of Triangular Channel*Depth of Flow of Triangle Channel^2
ATri = zTri*df(Δ)^2
This formula uses 3 Variables
Variables Used
Wetted Surface Area of Triangular Channel - (Measured in Square Meter) - Wetted Surface Area of Triangular Channel [length^2] is the total area of outer surface in contact with the surrounding water.
Side Slope of Triangular Channel - Side Slope of Triangular Channel is how far a channel drops over a horizontal distance.
Depth of Flow of Triangle Channel - (Measured in Meter) - Depth of Flow of Triangle Channel 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.
STEP 1: Convert Input(s) to Base Unit
Side Slope of Triangular Channel: 0.99 --> No Conversion Required
Depth of Flow of Triangle Channel: 3.33 Meter --> 3.33 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
ATri = zTri*df(Δ)^2 --> 0.99*3.33^2
Evaluating ... ...
ATri = 10.978011
STEP 3: Convert Result to Output's Unit
10.978011 Square Meter --> No Conversion Required
FINAL ANSWER
10.978011 10.97801 Square Meter <-- Wetted Surface Area of Triangular Channel
(Calculation completed in 00.004 seconds)

Credits

Created by Rithik Agrawal
National Institute of Technology Karnataka (NITK), Surathkal
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Meerut Institute of Engineering and Technology (MIET), Meerut
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17 Geometrical Properties of Triangular Channel Section Calculators

Side Slope of Section given Hydraulic Radius
Go Side Slope of Triangular Channel = sqrt((4*(Hydraulic Radius of Triangular Channel^2))/((Depth of Flow of Triangle Channel^2)-(4*Hydraulic Radius of Triangular Channel^2)))
Hydraulic Radius of Flow
Go Hydraulic Radius of Triangular Channel = (Depth of Flow of Triangle Channel*Side Slope of Triangular Channel)/(2*sqrt(Side Slope of Triangular Channel^2+1))
Depth of Flow given Hydraulic Radius for Triangle
Go Depth of Flow of Triangle Channel = Hydraulic Radius of Triangular Channel*2*(sqrt(Side Slope of Triangular Channel^2+1))/Side Slope of Triangular Channel
Wetted Perimeter for Triangular Section
Go Wetted Perimeter of Triangular Channel = 2*Depth of Flow of Triangle Channel*(sqrt(Side Slope of Triangular Channel*Side Slope of Triangular Channel+1))
Side Slope of Section given Wetted Area
Go Side Slope of Triangular Channel = Wetted Surface Area of Triangular Channel/(Depth of Flow of Triangle Channel*Depth of Flow of Triangle Channel)
Depth of Flow for Wetted Perimeter for Triangle
Go Depth of Flow of Triangle Channel = (Wetted Perimeter of Triangular Channel)/(2*(sqrt(Side Slope of Triangular Channel^2+1)))
Side Slope of Section given Wetted Perimeters
Go Side Slope of Triangular Channel = sqrt(((Wetted Perimeter of Triangular Channel/(2*Depth of Flow of Triangle Channel))^2)-1)
Side Slope of Section given Section Factor
Go Side Slope of Triangular Channel = Section Factor of Triangular Channel/(((Depth of Flow of Triangle Channel^2.5))/sqrt(2))
Depth of Flow given Section Factor for Triangle Channel
Go Depth of Flow of Triangle Channel = (Section Factor of Triangular Channel*sqrt(2)/Side Slope of Triangular Channel)^(2/5)
Section Factor for Triangle
Go Section Factor of Triangular Channel = (Side Slope of Triangular Channel*(Depth of Flow of Triangle Channel^2.5))/sqrt(2)
Depth of Flow given Wetted Area for Triangle
Go Depth of Flow of Triangle Channel = sqrt(Wetted Surface Area of Triangular Channel/Side Slope of Triangular Channel)
Wetted Area for Triangular
Go Wetted Surface Area of Triangular Channel = Side Slope of Triangular Channel*Depth of Flow of Triangle Channel^2
Side Slope of Section given Top Width for Triangle
Go Side Slope of Triangular Channel = Top Width of Triangular Channel/(2*Depth of Flow of Triangle Channel)
Depth of Flow given Top Width for Triangle
Go Depth of Flow of Triangle Channel = Top Width of Triangular Channel/(2*Side Slope of Triangular Channel)
Top Width for Triangle
Go Top Width of Triangular Channel = 2*Depth of Flow of Triangle Channel*Side Slope of Triangular Channel
Hydraulic Depth for Triangle
Go Hydraulic Depth of Triangular Channel = 0.5*Depth of Flow of Triangle Channel
Depth of Flow given Hydraulic Depth for Triangle
Go Depth of Flow of Triangle Channel = Hydraulic Depth of Triangular Channel*2

Wetted Area for Triangular Formula

Wetted Surface Area of Triangular Channel = Side Slope of Triangular Channel*Depth of Flow of Triangle Channel^2
ATri = zTri*df(Δ)^2

What is Triangular Section?

The most economical section of a trapezoidal channel is one which has hydraulic mean depth equal to half the depth of flow. The most economical section of a triangular channel is one which has its sloping sides at an angle of 45 degree with the vertical.

How to Calculate Wetted Area for Triangular?

Wetted Area for Triangular calculator uses Wetted Surface Area of Triangular Channel = Side Slope of Triangular Channel*Depth of Flow of Triangle Channel^2 to calculate the Wetted Surface Area of Triangular Channel, The Wetted Area for Triangular formula is defined as the area of section which is in contact with water in triangular form in open channel flow. Wetted Surface Area of Triangular Channel is denoted by ATri symbol.

How to calculate Wetted Area for Triangular using this online calculator? To use this online calculator for Wetted Area for Triangular, enter Side Slope of Triangular Channel (zTri) & Depth of Flow of Triangle Channel (df(Δ)) and hit the calculate button. Here is how the Wetted Area for Triangular calculation can be explained with given input values -> 11.09001 = 0.99*3.33^2.

FAQ

What is Wetted Area for Triangular?
The Wetted Area for Triangular formula is defined as the area of section which is in contact with water in triangular form in open channel flow and is represented as ATri = zTri*df(Δ)^2 or Wetted Surface Area of Triangular Channel = Side Slope of Triangular Channel*Depth of Flow of Triangle Channel^2. Side Slope of Triangular Channel is how far a channel drops over a horizontal distance & Depth of Flow of Triangle Channel 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.
How to calculate Wetted Area for Triangular?
The Wetted Area for Triangular formula is defined as the area of section which is in contact with water in triangular form in open channel flow is calculated using Wetted Surface Area of Triangular Channel = Side Slope of Triangular Channel*Depth of Flow of Triangle Channel^2. To calculate Wetted Area for Triangular, you need Side Slope of Triangular Channel (zTri) & Depth of Flow of Triangle Channel (df(Δ)). With our tool, you need to enter the respective value for Side Slope of Triangular Channel & Depth of Flow of Triangle Channel 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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