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Depth of flow1 when Celerity of the Wave is Given Solution

STEP 0: Pre-Calculation Summary
Formula Used
depth1 = -((((Height*[g])/(Celerity of the Wave*Velocity_of the fluid at 1))-2)/(((Height*[g])/(Celerity of the Wave*Velocity_of the fluid at 1))*Depth of Point 2))
h 1 = -((((h*[g])/(C*V1))-2)/(((h*[g])/(C*V1))*h 2))
This formula uses 1 Constants, 4 Variables
Constants Used
[g] - Gravitational acceleration on Earth Value Taken As 9.80665 Meter/Second²
Variables Used
Height - Height is the distance between the lowest and highest points of a person standing upright. (Measured in Meter)
Celerity of the Wave - Celerity of the Wave is the addition to the normal water velocity of the channels. (Measured in Meter per Second)
Velocity_of the fluid at 1 - Velocity_of the fluid at 1 is defined as the velocity of the flowing liquid at a point 1 (Measured in Meter per Second)
Depth of Point 2 - Depth of Point 2 is the depth of point below the free surface in a static mass of liquid. (Measured in Meter)
STEP 1: Convert Input(s) to Base Unit
Height: 12 Meter --> 12 Meter No Conversion Required
Celerity of the Wave: 10 Meter per Second --> 10 Meter per Second No Conversion Required
Velocity_of the fluid at 1: 10 Meter per Second --> 10 Meter per Second No Conversion Required
Depth of Point 2: 15 Meter --> 15 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
h 1 = -((((h*[g])/(C*V1))-2)/(((h*[g])/(C*V1))*h 2)) --> -((((12*[g])/(10*10))-2)/(((12*[g])/(10*10))*15))
Evaluating ... ...
h 1 = 0.0466351347753254
STEP 3: Convert Result to Output's Unit
0.0466351347753254 Meter --> No Conversion Required
FINAL ANSWER
0.0466351347753254 Meter <-- Depth of Point 1
(Calculation completed in 00.047 seconds)

11 Other formulas that you can solve using the same Inputs

Volume of a Conical Frustum
volume = (1/3)*pi*Height*(Radius 1^2+Radius 2^2+(Radius 1*Radius 2)) Go
Total Surface Area of a Cone
total_surface_area = pi*Radius*(Radius+sqrt(Radius^2+Height^2)) Go
Lateral Surface Area of a Cone
lateral_surface_area = pi*Radius*sqrt(Radius^2+Height^2) Go
Total Surface Area of a Cylinder
total_surface_area = 2*pi*Radius*(Height+Radius) Go
Lateral Surface Area of a Cylinder
lateral_surface_area = 2*pi*Radius*Height Go
Volume of a Circular Cone
volume = (1/3)*pi*(Radius)^2*Height Go
Area of a Trapezoid
area = ((Base A+Base B)/2)*Height Go
Volume of a Circular Cylinder
volume = pi*(Radius)^2*Height Go
Volume of a Pyramid
volume = (1/3)*Side^2*Height Go
Area of a Triangle when base and height are given
area = 1/2*Base*Height Go
Area of a Parallelogram when base and height are given
area = Base*Height Go

7 Other formulas that calculate the same Output

Conjugate Depth y1 when Critical Depth is Given
depth1 = 0.5*Depth of Point 2*(-1+sqrt(1+(8*(critical depth*critical depth*critical depth))/(Depth of Point 2*Depth of Point 2*Depth of Point 2))) Go
Conjugate Depth y1 when Discharge per unit width of channel is Given
depth1 = 0.5*Depth of Point 2*(-1+sqrt(1+(8*(discharge per unit width ^2))/([g]*Depth of Point 2*Depth of Point 2*Depth of Point 2))) Go
Depth of flow1 when Absolute velocity of the surge moving towards right is Given
depth1 = ((Absolute Velocity of the Issuing Jet-Velocity_of the fluid at 2)/(Absolute Velocity of the Issuing Jet-Velocity_of the fluid at 1))*Depth of Point 2 Go
Depth of flow1 when Absolute velocity of the surge moving towards right is Given
depth1 = ((Absolute Velocity of the Issuing Jet+Velocity_of the fluid at 2)/(Absolute Velocity of the Issuing Jet+Velocity_of the fluid at 1))*Depth of Point 2 Go
Depth of flow1 when Absolute velocity of the surge when the flow is completely stopped
depth1 = ((Absolute Velocity of the Issuing Jet)/(Absolute Velocity of the Issuing Jet-Velocity_of the fluid at 1))*Depth of Point 2 Go
Conjugate Depth y1 when Froude Number Fr1 is Given
depth1 = Depth of Point 2/(0.5*(-1+sqrt(1+(8*(Froude number^2))))) Go
Conjugate Depth y1 when Froude Number Fr2 is Given
depth1 = Depth of Point 2*(0.5*(-1+sqrt(1+(8*(Froude number^2))))) Go

Depth of flow1 when Celerity of the Wave is Given Formula

depth1 = -((((Height*[g])/(Celerity of the Wave*Velocity_of the fluid at 1))-2)/(((Height*[g])/(Celerity of the Wave*Velocity_of the fluid at 1))*Depth of Point 2))
h 1 = -((((h*[g])/(C*V1))-2)/(((h*[g])/(C*V1))*h 2))

What is Depth of Flow ?

Normal depth is the depth of flow in a channel or culvert when the slope of the water surface and channel bottom is the same and the water depth remains constant. ... Note: Flow at normal depth in culverts often presents the highest average velocities and shallowest depths at that flow.

How to Calculate Depth of flow1 when Celerity of the Wave is Given?

Depth of flow1 when Celerity of the Wave is Given calculator uses depth1 = -((((Height*[g])/(Celerity of the Wave*Velocity_of the fluid at 1))-2)/(((Height*[g])/(Celerity of the Wave*Velocity_of the fluid at 1))*Depth of Point 2)) to calculate the Depth of Point 1, The Depth of flow1 when Celerity of the Wave is Given formula is defined as amount of water flowing in through the channel. Depth of Point 1 and is denoted by h 1 symbol.

How to calculate Depth of flow1 when Celerity of the Wave is Given using this online calculator? To use this online calculator for Depth of flow1 when Celerity of the Wave is Given, enter Height (h), Celerity of the Wave (C), Velocity_of the fluid at 1 (V1) and Depth of Point 2 (h 2) and hit the calculate button. Here is how the Depth of flow1 when Celerity of the Wave is Given calculation can be explained with given input values -> 0.046635 = -((((12*[g])/(10*10))-2)/(((12*[g])/(10*10))*15)).

FAQ

What is Depth of flow1 when Celerity of the Wave is Given?
The Depth of flow1 when Celerity of the Wave is Given formula is defined as amount of water flowing in through the channel and is represented as h 1 = -((((h*[g])/(C*V1))-2)/(((h*[g])/(C*V1))*h 2)) or depth1 = -((((Height*[g])/(Celerity of the Wave*Velocity_of the fluid at 1))-2)/(((Height*[g])/(Celerity of the Wave*Velocity_of the fluid at 1))*Depth of Point 2)). Height is the distance between the lowest and highest points of a person standing upright, Celerity of the Wave is the addition to the normal water velocity of the channels. , Velocity_of the fluid at 1 is defined as the velocity of the flowing liquid at a point 1 and Depth of Point 2 is the depth of point below the free surface in a static mass of liquid.
How to calculate Depth of flow1 when Celerity of the Wave is Given?
The Depth of flow1 when Celerity of the Wave is Given formula is defined as amount of water flowing in through the channel is calculated using depth1 = -((((Height*[g])/(Celerity of the Wave*Velocity_of the fluid at 1))-2)/(((Height*[g])/(Celerity of the Wave*Velocity_of the fluid at 1))*Depth of Point 2)). To calculate Depth of flow1 when Celerity of the Wave is Given, you need Height (h), Celerity of the Wave (C), Velocity_of the fluid at 1 (V1) and Depth of Point 2 (h 2). With our tool, you need to enter the respective value for Height, Celerity of the Wave, Velocity_of the fluid at 1 and Depth of Point 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 Depth of Point 1?
In this formula, Depth of Point 1 uses Height, Celerity of the Wave, Velocity_of the fluid at 1 and Depth of Point 2. We can use 7 other way(s) to calculate the same, which is/are as follows -
  • depth1 = 0.5*Depth of Point 2*(-1+sqrt(1+(8*(discharge per unit width ^2))/([g]*Depth of Point 2*Depth of Point 2*Depth of Point 2)))
  • depth1 = 0.5*Depth of Point 2*(-1+sqrt(1+(8*(critical depth*critical depth*critical depth))/(Depth of Point 2*Depth of Point 2*Depth of Point 2)))
  • depth1 = Depth of Point 2/(0.5*(-1+sqrt(1+(8*(Froude number^2)))))
  • depth1 = Depth of Point 2*(0.5*(-1+sqrt(1+(8*(Froude number^2)))))
  • depth1 = ((Absolute Velocity of the Issuing Jet-Velocity_of the fluid at 2)/(Absolute Velocity of the Issuing Jet-Velocity_of the fluid at 1))*Depth of Point 2
  • depth1 = ((Absolute Velocity of the Issuing Jet+Velocity_of the fluid at 2)/(Absolute Velocity of the Issuing Jet+Velocity_of the fluid at 1))*Depth of Point 2
  • depth1 = ((Absolute Velocity of the Issuing Jet)/(Absolute Velocity of the Issuing Jet-Velocity_of the fluid at 1))*Depth of Point 2
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