Dimensionless coefficient in Seelig equation for Wave Transmission Coefficient Solution

STEP 0: Pre-Calculation Summary
Formula Used
Dimensionless Coefficient in the Seelig equation = Wave Transmission Coefficient/(1-(Freeboard/Wave Runup))
C = Ct/(1-(F/R))
This formula uses 4 Variables
Variables Used
Dimensionless Coefficient in the Seelig equation - Dimensionless Coefficient in the Seelig equation for the wave transmission coefficient.
Wave Transmission Coefficient - Wave Transmission Coefficient [dimensionless] is dependent on Dimensionless Coefficient in the Seelig equation, Freeboard and Wave Runup above the Mean Water Level.
Freeboard - (Measured in Meter) - Freeboard is the height of the watertight portion of a building or other construction above a given level of water in a river, lake, etc.
Wave Runup - (Measured in Meter) - Wave Runup is the maximum onshore elevation reached by waves, relative to the shoreline position in the absence of waves.
STEP 1: Convert Input(s) to Base Unit
Wave Transmission Coefficient: 9 --> No Conversion Required
Freeboard: 5 Meter --> 5 Meter No Conversion Required
Wave Runup: 20 Meter --> 20 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
C = Ct/(1-(F/R)) --> 9/(1-(5/20))
Evaluating ... ...
C = 12
STEP 3: Convert Result to Output's Unit
12 --> No Conversion Required
FINAL ANSWER
12 <-- Dimensionless Coefficient in the Seelig equation
(Calculation completed in 00.004 seconds)

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16 Wave Transmission Coefficient and Water Surface Amplitude Calculators

Reflected Wave Period given Water Surface Amplitude
Go Reflected Wave Period = (2*pi*Time Elapsed)/acos(Water Surface Amplitude/Incident Wave Height*cos(2*pi*Horizontal Ordinate/Incident Wave Length in Deepwater))
Incident Wave Length given Water Surface Amplitude
Go Incident Wave Length in Deepwater = (2*pi*Horizontal Ordinate)/acos(Water Surface Amplitude/Incident Wave Height*cos(2*pi*Time Elapsed/Reflected Wave Period))
Time Elapsed given Water Surface Amplitude
Go Time Elapsed = Reflected Wave Period*acos(Water Surface Amplitude/Incident Wave Height*cos(2*pi*Horizontal Ordinate/Incident Wave Length in Deepwater))/(2*pi)
Incident Wave Height given Water Surface Amplitude
Go Incident Wave Height = Water Surface Amplitude/(cos(2*pi*Horizontal Ordinate/Incident Wave Length in Deepwater)*cos(2*pi*Time Elapsed/Reflected Wave Period))
Horizontal Ordinate given Water Surface Amplitude
Go Horizontal Ordinate = Incident Wave Length in Deepwater*acos(Water Surface Amplitude/Incident Wave Height*cos(2*pi*Time Elapsed/Reflected Wave Period))/2*pi
Water Surface Amplitude
Go Water Surface Amplitude = Incident Wave Height*cos(2*pi*Horizontal Ordinate/Incident Wave Length in Deepwater)*cos(2*pi*Time Elapsed/Reflected Wave Period)
Surf Similarity Number or Iribarren Number
Go Surf Similarity Number or Iribarren Number = tan(Angle Sloped plane forms with the horizontal)/sqrt(Incident Wave Height/Incident Wave Length in Deepwater)
Incident Wave Height given Surf Similarity Number or Iribarren Number
Go Incident Wave Height = Incident Wave Length in Deepwater*(tan(Angle Sloped plane forms with the horizontal)/Surf Similarity Number or Iribarren Number)^2
Coefficient for Wave Transmission through Structure given Combined Transmission Coefficient
Go Coefficient of Wave Transmission through Structure = sqrt(Wave Transmission Coefficient^2-Coefficient of Transmission Flow Over Structure^2)
Coefficient for Wave Transmission by Flow over Structure
Go Coefficient of Transmission Flow Over Structure = sqrt(Wave Transmission Coefficient^2-Coefficient of Wave Transmission through Structure^2)
Combined Wave Transmission Coefficient
Go Wave Transmission Coefficient = sqrt(Coefficient of Wave Transmission through Structure^2+Coefficient of Transmission Flow Over Structure^2)
Dimensionless coefficient in Seelig equation for Wave Transmission Coefficient
Go Dimensionless Coefficient in the Seelig equation = Wave Transmission Coefficient/(1-(Freeboard/Wave Runup))
Wave Runup above Mean Water Level for given Wave Transmission Coefficient
Go Wave Runup = Freeboard/(1-(Wave Transmission Coefficient/Dimensionless Coefficient in the Seelig equation))
Freeboard for given Wave Transmission Coefficient
Go Freeboard = Wave Runup*(1-(Wave Transmission Coefficient/Dimensionless Coefficient in the Seelig equation))
Wave Transmission Coefficient
Go Wave Transmission Coefficient = Dimensionless Coefficient in the Seelig equation*(1-(Freeboard/Wave Runup))
Dimensionless Coefficient in Seelig equation in Wave Transmission Coefficient
Go Dimensionless Coefficient in the Seelig equation = 0.51-(0.11*Structure Crest Width/Structure Crest Elevation)

Dimensionless coefficient in Seelig equation for Wave Transmission Coefficient Formula

Dimensionless Coefficient in the Seelig equation = Wave Transmission Coefficient/(1-(Freeboard/Wave Runup))
C = Ct/(1-(F/R))

What is Wave run-up?

Wave run-up is the maximum onshore elevation reached by waves, relative to the shoreline position in the absence of waves.

What is Freeboard?

Freeboard is the height of the watertight portion of a building or other construction above a given level of water in a river, lake, etc.

How to Calculate Dimensionless coefficient in Seelig equation for Wave Transmission Coefficient?

Dimensionless coefficient in Seelig equation for Wave Transmission Coefficient calculator uses Dimensionless Coefficient in the Seelig equation = Wave Transmission Coefficient/(1-(Freeboard/Wave Runup)) to calculate the Dimensionless Coefficient in the Seelig equation, The Dimensionless Coefficient in Seelig equation for Wave Transmission Coefficient is defined as a coefficient parameter influencing dimensionless wave transmission coefficient. Dimensionless Coefficient in the Seelig equation is denoted by C symbol.

How to calculate Dimensionless coefficient in Seelig equation for Wave Transmission Coefficient using this online calculator? To use this online calculator for Dimensionless coefficient in Seelig equation for Wave Transmission Coefficient, enter Wave Transmission Coefficient (Ct), Freeboard (F) & Wave Runup (R) and hit the calculate button. Here is how the Dimensionless coefficient in Seelig equation for Wave Transmission Coefficient calculation can be explained with given input values -> 12 = 9/(1-(5/20)).

FAQ

What is Dimensionless coefficient in Seelig equation for Wave Transmission Coefficient?
The Dimensionless Coefficient in Seelig equation for Wave Transmission Coefficient is defined as a coefficient parameter influencing dimensionless wave transmission coefficient and is represented as C = Ct/(1-(F/R)) or Dimensionless Coefficient in the Seelig equation = Wave Transmission Coefficient/(1-(Freeboard/Wave Runup)). Wave Transmission Coefficient [dimensionless] is dependent on Dimensionless Coefficient in the Seelig equation, Freeboard and Wave Runup above the Mean Water Level, Freeboard is the height of the watertight portion of a building or other construction above a given level of water in a river, lake, etc & Wave Runup is the maximum onshore elevation reached by waves, relative to the shoreline position in the absence of waves.
How to calculate Dimensionless coefficient in Seelig equation for Wave Transmission Coefficient?
The Dimensionless Coefficient in Seelig equation for Wave Transmission Coefficient is defined as a coefficient parameter influencing dimensionless wave transmission coefficient is calculated using Dimensionless Coefficient in the Seelig equation = Wave Transmission Coefficient/(1-(Freeboard/Wave Runup)). To calculate Dimensionless coefficient in Seelig equation for Wave Transmission Coefficient, you need Wave Transmission Coefficient (Ct), Freeboard (F) & Wave Runup (R). With our tool, you need to enter the respective value for Wave Transmission Coefficient, Freeboard & Wave Runup 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 Dimensionless Coefficient in the Seelig equation?
In this formula, Dimensionless Coefficient in the Seelig equation uses Wave Transmission Coefficient, Freeboard & Wave Runup. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Dimensionless Coefficient in the Seelig equation = 0.51-(0.11*Structure Crest Width/Structure Crest Elevation)
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