Average of Highest One Third of Runups Solution

STEP 0: Pre-Calculation Summary
Formula Used
The Average of the Highest 1/3 of the Runups = Deepwater Wave Height*1.38*Deepwater Surf Similarity Parameter^0.7
R1/3 = Hd*1.38*ε0^0.7
This formula uses 3 Variables
Variables Used
The Average of the Highest 1/3 of the Runups - (Measured in Meter) - The Average of the Highest 1/3 of the Runups depend on Deepwater Wave Height and Deepwater Surf Similarity Parameter.
Deepwater Wave Height - (Measured in Meter) - Deepwater Wave Height refers to the measurement of the vertical distance between the trough and the crest of a wave in deep water.
Deepwater Surf Similarity Parameter - Deepwater Surf Similarity Parameter compares the wave surface slope to the bed slope in the surf zone and represents important features of the hydrodynamics of the surf zone.
STEP 1: Convert Input(s) to Base Unit
Deepwater Wave Height: 6 Meter --> 6 Meter No Conversion Required
Deepwater Surf Similarity Parameter: 12 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
R1/3 = Hd*1.38*ε0^0.7 --> 6*1.38*12^0.7
Evaluating ... ...
R1/3 = 47.1473414830346
STEP 3: Convert Result to Output's Unit
47.1473414830346 Meter --> No Conversion Required
FINAL ANSWER
47.1473414830346 47.14734 Meter <-- The Average of the Highest 1/3 of the Runups
(Calculation completed in 00.004 seconds)

Credits

Created by Mithila Muthamma PA
Coorg Institute of Technology (CIT), Coorg
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Verified by M Naveen
National Institute of Technology (NIT), Warangal
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21 Irregular Waves Calculators

Deepwater Wave Height given Surf Similarity Parameter
Go Wave Height of Surf Zone Waves = Length of Surf Zone Waves*(Surf Zone Waves Similarity Parameter/tan(Slope of Beach of Surf Zone Waves))^(-1/0.5)
Deepwater Wave Length given Surf Similarity Parameter
Go Length of Surf Zone Waves = Wave Height of Surf Zone Waves/(Surf Zone Waves Similarity Parameter/tan(Slope of Beach of Surf Zone Waves))^(-1/0.5)
Deepwater Surf Similarity Parameter
Go Surf Zone Waves Similarity Parameter = tan(Slope of Beach of Surf Zone Waves)*(Wave Height of Surf Zone Waves/Length of Surf Zone Waves)^-0.5
Wave Period given long wave simplification for wavelength
Go Wave Period in Coasts = Wavelength of Coast/sqrt([g]*Wave Height)
Deepwater surf similarity parameter given runup
Go Deepwater Surf Similarity Parameter = (Runup exceeded by 2% percent of the Runup Crests/(Deepwater Wave Height*1.86))^(1/0.71)
Deepwater surf similarity parameter given average of highest one tenth of runups
Go Deepwater Surf Similarity Parameter = (The Average of the Highest 1/10 of the Runup/(Deepwater Wave Height*1.7))^(1/0.71)
Deepwater wave height given runup exceeded by 2 percent of runup crests
Go Deepwater Wave Height = Runup exceeded by 2% percent of the Runup Crests/(1.86*Deepwater Surf Similarity Parameter^0.71)
Surf similarity parameter given average of highest one third of runups
Go Deepwater Surf Similarity Parameter = (The Average of the Highest 1/3 of the Runups/Deepwater Wave Height*1.38)^(1/0.7)
Runup exceeded by 2 percent of runup crests
Go Runup exceeded by 2% percent of the Runup Crests = Deepwater Wave Height*1.86*Deepwater Surf Similarity Parameter^0.71
Deepwater wave height given average of highest one tenth of runups
Go Deepwater Wave Height = The Average of the Highest 1/10 of the Runup/(1.7*Deepwater Surf Similarity Parameter^0.71)
Deepwater wave height given average of highest one third of runups
Go Deepwater Wave Height = The Average of the Highest 1/3 of the Runups/(1.38*Deepwater Surf Similarity Parameter^0.7)
Average of Highest One Tenth of Runups
Go The Average of the Highest 1/10 of the Runup = Deepwater Wave Height*1.7*Deepwater Surf Similarity Parameter^0.71
Average of Highest One Third of Runups
Go The Average of the Highest 1/3 of the Runups = Deepwater Wave Height*1.38*Deepwater Surf Similarity Parameter^0.7
Empirically determined Functions of Beach Slope Parameter b
Go Empirically determined Functions of Beach Slope B = 1.56/(1+e^(-19.5*tan(Slope of Beach of Surf Zone Waves)))
Empirically determined Functions of Beach Slope Parameter a
Go Empirically determined Functions of Beach Slope A = 43.8*(1-e^(-19*tan(Slope of Beach of Surf Zone Waves)))
Deepwater Surf Similarity Parameter given Maximum Runup
Go Deepwater Surf Similarity Parameter = (Wave Runup/Deepwater Wave Height*2.32)^(1/0.77)
Deepwater Surf Similarity Parameter given Mean Runup
Go Deepwater Surf Similarity Parameter = (Mean Runup/(0.88*Deepwater Wave Height))^1/0.69
Deepwater Wave Height given Maximum Runup
Go Deepwater Wave Height = Wave Runup/(2.32*Deepwater Surf Similarity Parameter^0.77)
Deepwater Wave Height given Mean Runup
Go Deepwater Wave Height = Mean Runup/(0.88*Deepwater Surf Similarity Parameter^0.69)
Maximum Runup
Go Wave Runup = Deepwater Wave Height*2.32*Deepwater Surf Similarity Parameter^0.77
Mean Runup
Go Mean Runup = Deepwater Wave Height*0.88*Deepwater Surf Similarity Parameter^0.69

Average of Highest One Third of Runups Formula

The Average of the Highest 1/3 of the Runups = Deepwater Wave Height*1.38*Deepwater Surf Similarity Parameter^0.7
R1/3 = Hd*1.38*ε0^0.7

What is Wave Runup?

Wave Runup is the maximum vertical extent of wave uprush on a beach or structure above the still water level (SWL). It is the sum of wave set-up and swash uprush (see Swash zone dynamics) and must be added to the water level reached as a result of tides and wind set-up.

How to Calculate Average of Highest One Third of Runups?

Average of Highest One Third of Runups calculator uses The Average of the Highest 1/3 of the Runups = Deepwater Wave Height*1.38*Deepwater Surf Similarity Parameter^0.7 to calculate the The Average of the Highest 1/3 of the Runups, Average of highest one third of runups formula is defined by Mase (1989) presents predictive equations for irregular runup on plane, impermeable beaches based on laboratory data. The Average of the Highest 1/3 of the Runups is denoted by R1/3 symbol.

How to calculate Average of Highest One Third of Runups using this online calculator? To use this online calculator for Average of Highest One Third of Runups, enter Deepwater Wave Height (Hd) & Deepwater Surf Similarity Parameter 0) and hit the calculate button. Here is how the Average of Highest One Third of Runups calculation can be explained with given input values -> 47.14734 = 6*1.38*12^0.7.

FAQ

What is Average of Highest One Third of Runups?
Average of highest one third of runups formula is defined by Mase (1989) presents predictive equations for irregular runup on plane, impermeable beaches based on laboratory data and is represented as R1/3 = Hd*1.38*ε0^0.7 or The Average of the Highest 1/3 of the Runups = Deepwater Wave Height*1.38*Deepwater Surf Similarity Parameter^0.7. Deepwater Wave Height refers to the measurement of the vertical distance between the trough and the crest of a wave in deep water & Deepwater Surf Similarity Parameter compares the wave surface slope to the bed slope in the surf zone and represents important features of the hydrodynamics of the surf zone.
How to calculate Average of Highest One Third of Runups?
Average of highest one third of runups formula is defined by Mase (1989) presents predictive equations for irregular runup on plane, impermeable beaches based on laboratory data is calculated using The Average of the Highest 1/3 of the Runups = Deepwater Wave Height*1.38*Deepwater Surf Similarity Parameter^0.7. To calculate Average of Highest One Third of Runups, you need Deepwater Wave Height (Hd) & Deepwater Surf Similarity Parameter 0). With our tool, you need to enter the respective value for Deepwater Wave Height & Deepwater Surf Similarity Parameter 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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