Conveyance of Channel at End Sections at 2 Solution

STEP 0: Pre-Calculation Summary
Formula Used
Conveyance of Channel at End Sections at (2) = (1/Manning’s Roughness Coefficient)*Area of Channel Section 2*Hydraulics Radius of Channel Section 2^(2/3)
K2 = (1/n)*A2*R2^(2/3)
This formula uses 4 Variables
Variables Used
Conveyance of Channel at End Sections at (2) - Conveyance of Channel at End Sections at (2) represents the carrying capacity of a stream cross-section based upon its geometry and roughness characteristics.
Manning’s Roughness Coefficient - Manning’s Roughness Coefficient represents the roughness or friction applied to the flow by the channel.
Area of Channel Section 2 - (Measured in Square Meter) - Area of Channel Section 2 is the enclosed surface area, the product of length and breadth.
Hydraulics Radius of Channel Section 2 - (Measured in Meter) - Hydraulics Radius of Channel Section 2 is the ratio of the cross-sectional area of a channel or pipe in which a fluid is flowing to the wet perimeter of the conduit.
STEP 1: Convert Input(s) to Base Unit
Manning’s Roughness Coefficient: 0.412 --> No Conversion Required
Area of Channel Section 2: 478 Square Meter --> 478 Square Meter No Conversion Required
Hydraulics Radius of Channel Section 2: 1.835 Meter --> 1.835 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
K2 = (1/n)*A2*R2^(2/3) --> (1/0.412)*478*1.835^(2/3)
Evaluating ... ...
K2 = 1738.95386281027
STEP 3: Convert Result to Output's Unit
1738.95386281027 --> No Conversion Required
FINAL ANSWER
1738.95386281027 1738.954 <-- Conveyance of Channel at End Sections at (2)
(Calculation completed in 00.004 seconds)

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Non Uniform Flow Calculators

Conveyance of Channel at End Sections at 1
​ LaTeX ​ Go Conveyance of Channel at End Sections at (1) = (1/Manning’s Roughness Coefficient)*Area of Channel Section 1*Hydraulics Radius of Channel Section 1^(2/3)
Length of Reach given Average Energy Slope for Non-Uniform Flow
​ LaTeX ​ Go Reach = Frictional Loss/Average Energy Slope
Frictional Loss given Average Energy Slope
​ LaTeX ​ Go Frictional Loss = Average Energy Slope*Reach
Average Energy Slope given Frictional Loss
​ LaTeX ​ Go Average Energy Slope = Frictional Loss/Reach

Conveyance of Channel at End Sections at 2 Formula

​LaTeX ​Go
Conveyance of Channel at End Sections at (2) = (1/Manning’s Roughness Coefficient)*Area of Channel Section 2*Hydraulics Radius of Channel Section 2^(2/3)
K2 = (1/n)*A2*R2^(2/3)

What is Slope Area method?

Slope Area method is when discharge is computed on the basis of a uniform flow equation involving channel characteristics, water surface profile and a roughness coefficient. The drop in water surface profile for a uniform reach of channel represents losses caused by bed roughness.

What is non-uniform flow?

Flow is said to be non-uniform, when there is a change in the velocity of the flow at different points in a flowing fluid, for a given time. For example, the flow of liquids under pressure through long pipelines of varying diameters is referred to as non-uniform flow.

How to Calculate Conveyance of Channel at End Sections at 2?

Conveyance of Channel at End Sections at 2 calculator uses Conveyance of Channel at End Sections at (2) = (1/Manning’s Roughness Coefficient)*Area of Channel Section 2*Hydraulics Radius of Channel Section 2^(2/3) to calculate the Conveyance of Channel at End Sections at (2), The Conveyance of Channel at End Sections at 2 formula is defined as the carrying capacity of a stream cross-section based upon its geometry and roughness characteristics alone and is independent of the streambed slope. Conveyance of Channel at End Sections at (2) is denoted by K2 symbol.

How to calculate Conveyance of Channel at End Sections at 2 using this online calculator? To use this online calculator for Conveyance of Channel at End Sections at 2, enter Manning’s Roughness Coefficient (n), Area of Channel Section 2 (A2) & Hydraulics Radius of Channel Section 2 (R2) and hit the calculate button. Here is how the Conveyance of Channel at End Sections at 2 calculation can be explained with given input values -> 105.5014 = (1/0.412)*478*1.835^(2/3).

FAQ

What is Conveyance of Channel at End Sections at 2?
The Conveyance of Channel at End Sections at 2 formula is defined as the carrying capacity of a stream cross-section based upon its geometry and roughness characteristics alone and is independent of the streambed slope and is represented as K2 = (1/n)*A2*R2^(2/3) or Conveyance of Channel at End Sections at (2) = (1/Manning’s Roughness Coefficient)*Area of Channel Section 2*Hydraulics Radius of Channel Section 2^(2/3). Manning’s Roughness Coefficient represents the roughness or friction applied to the flow by the channel, Area of Channel Section 2 is the enclosed surface area, the product of length and breadth & Hydraulics Radius of Channel Section 2 is the ratio of the cross-sectional area of a channel or pipe in which a fluid is flowing to the wet perimeter of the conduit.
How to calculate Conveyance of Channel at End Sections at 2?
The Conveyance of Channel at End Sections at 2 formula is defined as the carrying capacity of a stream cross-section based upon its geometry and roughness characteristics alone and is independent of the streambed slope is calculated using Conveyance of Channel at End Sections at (2) = (1/Manning’s Roughness Coefficient)*Area of Channel Section 2*Hydraulics Radius of Channel Section 2^(2/3). To calculate Conveyance of Channel at End Sections at 2, you need Manning’s Roughness Coefficient (n), Area of Channel Section 2 (A2) & Hydraulics Radius of Channel Section 2 (R2). With our tool, you need to enter the respective value for Manning’s Roughness Coefficient, Area of Channel Section 2 & Hydraulics Radius of Channel Section 2 and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Conveyance of Channel at End Sections at (2)?
In this formula, Conveyance of Channel at End Sections at (2) uses Manning’s Roughness Coefficient, Area of Channel Section 2 & Hydraulics Radius of Channel Section 2. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Conveyance of Channel at End Sections at (2) = Average Conveyance of Channel^2/Conveyance of Channel at End Sections at (1)
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