Height of Surges given Celerity of Wave Solution

STEP 0: Pre-Calculation Summary
Formula Used
Height of Channel = (Velocity of Fluid at Negative Surges)/(((([g]*(Depth of Point 2+Depth of Point 1))/(2*Depth of Point 1))/Celerity of Wave))
Hch = (VNegativesurges)/(((([g]*(D2+h 1))/(2*h 1))/Cw))
This formula uses 1 Constants, 5 Variables
Constants Used
[g] - Gravitational acceleration on Earth Value Taken As 9.80665
Variables Used
Height of Channel - (Measured in Meter) - Height of Channel is the distance between the lowest and highest points of a person/ shape/ object standing upright.
Velocity of Fluid at Negative Surges - (Measured in Meter per Second) - Velocity of Fluid at Negative Surges is defined as the velocity of the flowing liquid at a Negative Surges.
Depth of Point 2 - (Measured in Meter) - Depth of Point 2 is the depth of point below the free surface in a static mass of liquid.
Depth of Point 1 - (Measured in Meter) - Depth of Point 1 is the depth of point below the free surface in a static mass of liquid.
Celerity of Wave - (Measured in Meter per Second) - Celerity of Wave is the addition to the normal water velocity of the channels.
STEP 1: Convert Input(s) to Base Unit
Velocity of Fluid at Negative Surges: 3 Meter per Second --> 3 Meter per Second No Conversion Required
Depth of Point 2: 15 Meter --> 15 Meter No Conversion Required
Depth of Point 1: 10 Meter --> 10 Meter No Conversion Required
Celerity of Wave: 5.4 Meter per Second --> 5.4 Meter per Second No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Hch = (VNegativesurges)/(((([g]*(D2+h 1))/(2*h 1))/Cw)) --> (3)/(((([g]*(15+10))/(2*10))/5.4))
Evaluating ... ...
Hch = 1.3215522120194
STEP 3: Convert Result to Output's Unit
1.3215522120194 Meter --> No Conversion Required
FINAL ANSWER
1.3215522120194 1.321552 Meter <-- Height of Channel
(Calculation completed in 00.020 seconds)

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12 Surge due to Sudden Reduction of Flow Calculators

Velocity at Depth2 given Absolute Velocity of Surges Moving toward Right
Go Velocity of Fluid at 2 = ((Absolute Velocity of Issuing Jet*(Depth of Point 1-Depth of Point 2))+(Velocity of Fluid at Negative Surges*Depth of Point 1))/Depth of Point 2
Velocity at Depth1 given Absolute Velocity of Surge Moving toward Right
Go Velocity of Fluid at Negative Surges = ((Absolute Velocity of Issuing Jet*(Depth of Point 2-Depth of Point 1))+(Velocity of Fluid at 2*Depth of Point 2))/Depth of Point 1
Celerity of Wave given Velocity at Depth1
Go Celerity of Wave = (Velocity of Fluid at Negative Surges)/(((([g]*(Depth of Point 2+Depth of Point 1))/(2*Depth of Point 1))/Height of Channel))
Height of Surges given Celerity of Wave
Go Height of Channel = (Velocity of Fluid at Negative Surges)/(((([g]*(Depth of Point 2+Depth of Point 1))/(2*Depth of Point 1))/Celerity of Wave))
Depth of Flow2 given Absolute Velocity of Surge Moving towards Right Direction
Go Depth of Point 2 = Depth of Point 1/((Absolute Velocity of Issuing Jet-Velocity of Fluid at 2)/(Absolute Velocity of Issuing Jet-Velocity of Fluid at Negative Surges))
Depth of Flow given Absolute Velocity of Surge Moving towards Right
Go Depth of Point 1 = ((Absolute Velocity of Issuing Jet+Velocity of Fluid at 2)/(Absolute Velocity of Issuing Jet+Velocity of Fluid at Negative Surges))*Depth of Point 2
Celerity of Wave in Surges
Go Celerity of Wave = sqrt(([g]*Depth of Point 2*(Depth of Point 2+Depth of Point 1))/(2*Depth of Point 1))
Depth of Flow using Absolute Velocity of Surge when Flow is Completely Stopped
Go Depth of Point 1 = ((Absolute Velocity of Issuing Jet)/(Absolute Velocity of Issuing Jet-Velocity of Fluid at Negative Surges))*Depth of Point 2
Depth of Flow2 when Absolute Velocity of Surge when Flow is Completely Stopped
Go Depth of Point 2 = Depth of Point 1*(Velocity of Fluid at Negative Surges+Absolute Velocity of Issuing Jet)/Absolute Velocity of Issuing Jet
Velocity at Depth1 when Absolute Velocity of Surge when Flow is Completely Stopped
Go Velocity of Fluid at Negative Surges = (Absolute Velocity of Issuing Jet*(Depth of Point 2-Depth of Point 1))/Depth of Point 1
Velocity at Depth1 when Height of Surge for Surge Height is Negligible Depth of Flow
Go Velocity of Fluid at Negative Surges = (Height of Channel*[g]/Celerity of Wave)+Velocity of Fluid at 2
Celerity of Wave given Surge Height for Surge Height is Negligible Depth of Flow
Go Celerity of Wave = Height of Channel*[g]/Velocity of Fluid at Negative Surges

Height of Surges given Celerity of Wave Formula

Height of Channel = (Velocity of Fluid at Negative Surges)/(((([g]*(Depth of Point 2+Depth of Point 1))/(2*Depth of Point 1))/Celerity of Wave))
Hch = (VNegativesurges)/(((([g]*(D2+h 1))/(2*h 1))/Cw))

What are Surges?

Surges, or transients, are brief overvoltage spikes or disturbances on a power waveform that can damage, degrade, or destroy electronic equipment within any home, commercial building, industrial, or manufacturing facility. Transients can reach amplitudes of tens of thousands of volts.

How to Calculate Height of Surges given Celerity of Wave?

Height of Surges given Celerity of Wave calculator uses Height of Channel = (Velocity of Fluid at Negative Surges)/(((([g]*(Depth of Point 2+Depth of Point 1))/(2*Depth of Point 1))/Celerity of Wave)) to calculate the Height of Channel, The Height of Surges given Celerity of Wave is defined as the height of flow change occurring in channel. Height of Channel is denoted by Hch symbol.

How to calculate Height of Surges given Celerity of Wave using this online calculator? To use this online calculator for Height of Surges given Celerity of Wave, enter Velocity of Fluid at Negative Surges (VNegativesurges), Depth of Point 2 (D2), Depth of Point 1 (h 1) & Celerity of Wave (Cw) and hit the calculate button. Here is how the Height of Surges given Celerity of Wave calculation can be explained with given input values -> 1.321552 = (3)/(((([g]*(15+10))/(2*10))/5.4)).

FAQ

What is Height of Surges given Celerity of Wave?
The Height of Surges given Celerity of Wave is defined as the height of flow change occurring in channel and is represented as Hch = (VNegativesurges)/(((([g]*(D2+h 1))/(2*h 1))/Cw)) or Height of Channel = (Velocity of Fluid at Negative Surges)/(((([g]*(Depth of Point 2+Depth of Point 1))/(2*Depth of Point 1))/Celerity of Wave)). Velocity of Fluid at Negative Surges is defined as the velocity of the flowing liquid at a Negative Surges, Depth of Point 2 is the depth of point below the free surface in a static mass of liquid, Depth of Point 1 is the depth of point below the free surface in a static mass of liquid & Celerity of Wave is the addition to the normal water velocity of the channels.
How to calculate Height of Surges given Celerity of Wave?
The Height of Surges given Celerity of Wave is defined as the height of flow change occurring in channel is calculated using Height of Channel = (Velocity of Fluid at Negative Surges)/(((([g]*(Depth of Point 2+Depth of Point 1))/(2*Depth of Point 1))/Celerity of Wave)). To calculate Height of Surges given Celerity of Wave, you need Velocity of Fluid at Negative Surges (VNegativesurges), Depth of Point 2 (D2), Depth of Point 1 (h 1) & Celerity of Wave (Cw). With our tool, you need to enter the respective value for Velocity of Fluid at Negative Surges, Depth of Point 2, Depth of Point 1 & Celerity of Wave 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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