Wind Speed at Elevation 10m above Sea Surface given Frequency at Spectral Peak Solution

STEP 0: Pre-Calculation Summary
Formula Used
Wind Speed at Height of 10 m = ((Fetch Length*[g]^2)/(Frequency at Spectral Peak/3.5)^-(1/0.33))^(1/3)
V10 = ((Fl*[g]^2)/(fp/3.5)^-(1/0.33))^(1/3)
This formula uses 1 Constants, 3 Variables
Constants Used
[g] - Gravitational acceleration on Earth Value Taken As 9.80665
Variables Used
Wind Speed at Height of 10 m - (Measured in Meter per Second) - Wind Speed at Height of 10 m is the ten-meter wind speed measured ten meters above the top of the datum of consideration.
Fetch Length - (Measured in Meter) - Fetch Length is the length of water over which a given wind has blown without obstruction.
Frequency at Spectral Peak - (Measured in Hertz) - Frequency at Spectral Peak is the number of occurrences of a repeating event per unit of time.
STEP 1: Convert Input(s) to Base Unit
Fetch Length: 2 Meter --> 2 Meter No Conversion Required
Frequency at Spectral Peak: 0.013162 Kilohertz --> 13.162 Hertz (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
V10 = ((Fl*[g]^2)/(fp/3.5)^-(1/0.33))^(1/3) --> ((2*[g]^2)/(13.162/3.5)^-(1/0.33))^(1/3)
Evaluating ... ...
V10 = 0.018789780745146
STEP 3: Convert Result to Output's Unit
0.018789780745146 Meter per Second --> No Conversion Required
FINAL ANSWER
0.018789780745146 0.01879 Meter per Second <-- Wind Speed at Height of 10 m
(Calculation completed in 00.004 seconds)

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19 Parametric Spectrum Models Calculators

JONSWAP Spectrum for Fetch-limited Seas
Go Frequency Energy Spectrum = ((Dimensionless Scaling Parameter*[g]^2)/((2*pi)^4*Wave Frequency^5))*(exp(-1.25*(Wave Frequency/Frequency at Spectral Peak)^-4)*Peak Enhancement Factor)^exp(-((Wave Frequency/Frequency at Spectral Peak)-1)^2/(2*Standard Deviation^2))
Frequency of Spectral Peak
Go Frequency at Spectral Peak = ([g]*18.8*(([g]*Fetch Length)/Wind Speed at Height of 10 m^2)^-0.33)/(2*pi*Wind Speed at Height of 10 m)
Frequency of Spectral Peak Given Wind Speed
Go Frequency at Spectral Peak = ([g]*(Controlling Parameter for the Angular Distribution/11.5)^(-1/2.5))/(2*pi*Wind Speed at Height of 10 m)
Wind Speed given Maximum Controlling Parameter for Angular Distribution
Go Wind Speed at Height of 10 m = [g]*(Controlling Parameter for the Angular Distribution/11.5)^(-1/2.5)/(2*pi*Frequency at Spectral Peak)
Maximum Controlling Parameter for Angular Distribution
Go Controlling Parameter for the Angular Distribution = 11.5*((2*pi*Frequency at Spectral Peak*Wind Speed at Height of 10 m)/[g])^-2.5
Wind Speed at Elevation 10m above Sea Surface given Scaling Parameter
Go Wind Speed at Height of 10 m = ((Fetch Length*[g])/(Dimensionless Scaling Parameter/0.076)^(-1/0.22))^0.5
Fetch Length given Scaling Parameter
Go Fetch Length = (Wind Speed at Height of 10 m^2*((Dimensionless Scaling Parameter/0.076)^-(1/0.22)))/[g]
Scaling Parameter
Go Dimensionless Scaling Parameter = 0.076*(([g]*Fetch Length)/Wind Speed at Height of 10 m^2)^-0.22
Dimensionless Time
Go Dimensionless Time = ([g]*Time for Dimensionless Parameter Calculation)/Friction Velocity
Significant Wave Height given Significant Wave Height of Lower and Higher frequency Components
Go Significant Wave Height = sqrt(Significant Wave Height 1^2+Significant Wave Height 2^2)
Significant Wave Height of Higher frequency Component
Go Significant Wave Height 2 = sqrt(Significant Wave Height^2-Significant Wave Height 1^2)
Significant Wave Height of Lower frequency Component
Go Significant Wave Height 1 = sqrt(Significant Wave Height^2-Significant Wave Height 2^2)
Wind Speed at Elevation 10m above Sea Surface given Frequency at Spectral Peak
Go Wind Speed at Height of 10 m = ((Fetch Length*[g]^2)/(Frequency at Spectral Peak/3.5)^-(1/0.33))^(1/3)
Fetch Length given Frequency at Spectral Peak
Go Fetch Length = ((Wind Speed at Height of 10 m^3)*((Frequency at Spectral Peak/3.5)^-(1/0.33)))/[g]^2
Frequency at Spectral Peak
Go Frequency at Spectral Peak = 3.5*(([g]^2*Fetch Length)/Wind Speed at Height of 10 m^3)^-0.33
Shape Factor for Higher Frequency Component
Go Shape Factor for Higher Frequency Component = 1.82*exp(-0.027*Significant Wave Height)
Phillip's equilibrium range of spectrum for fully developed sea in deep water
Go Phillip's Equilibrium Range of Spectrum = Constant B*[g]^2*Wave Angular Frequency^-5
Weighing Factor for Angular Frequency greater than One
Go Weighing Factor = 1-0.5*(2-Wave Angular Frequency)^2
Weighing Factor for angular frequency lesser than or equal to one
Go Weighing Factor = 0.5*Wave Angular Frequency^2

Wind Speed at Elevation 10m above Sea Surface given Frequency at Spectral Peak Formula

Wind Speed at Height of 10 m = ((Fetch Length*[g]^2)/(Frequency at Spectral Peak/3.5)^-(1/0.33))^(1/3)
V10 = ((Fl*[g]^2)/(fp/3.5)^-(1/0.33))^(1/3)

What are the characteristics of progressive waves?

A progressive wave is formed due to continuous vibration of the particles of the medium.
The wave travels with a certain velocity.
There is a flow of energy in the direction of the wave.
No particles in the medium are at rest.
The amplitude of all the particles is the same.

How to Calculate Wind Speed at Elevation 10m above Sea Surface given Frequency at Spectral Peak?

Wind Speed at Elevation 10m above Sea Surface given Frequency at Spectral Peak calculator uses Wind Speed at Height of 10 m = ((Fetch Length*[g]^2)/(Frequency at Spectral Peak/3.5)^-(1/0.33))^(1/3) to calculate the Wind Speed at Height of 10 m, The Wind Speed at Elevation 10m above Sea Surface given Frequency at Spectral Peak is ten-meter wind speed is measured ten meters above top of datum of consideration. Wind Speed at Height of 10 m is denoted by V10 symbol.

How to calculate Wind Speed at Elevation 10m above Sea Surface given Frequency at Spectral Peak using this online calculator? To use this online calculator for Wind Speed at Elevation 10m above Sea Surface given Frequency at Spectral Peak, enter Fetch Length (Fl) & Frequency at Spectral Peak (fp) and hit the calculate button. Here is how the Wind Speed at Elevation 10m above Sea Surface given Frequency at Spectral Peak calculation can be explained with given input values -> 0.01879 = ((2*[g]^2)/(13.162/3.5)^-(1/0.33))^(1/3).

FAQ

What is Wind Speed at Elevation 10m above Sea Surface given Frequency at Spectral Peak?
The Wind Speed at Elevation 10m above Sea Surface given Frequency at Spectral Peak is ten-meter wind speed is measured ten meters above top of datum of consideration and is represented as V10 = ((Fl*[g]^2)/(fp/3.5)^-(1/0.33))^(1/3) or Wind Speed at Height of 10 m = ((Fetch Length*[g]^2)/(Frequency at Spectral Peak/3.5)^-(1/0.33))^(1/3). Fetch Length is the length of water over which a given wind has blown without obstruction & Frequency at Spectral Peak is the number of occurrences of a repeating event per unit of time.
How to calculate Wind Speed at Elevation 10m above Sea Surface given Frequency at Spectral Peak?
The Wind Speed at Elevation 10m above Sea Surface given Frequency at Spectral Peak is ten-meter wind speed is measured ten meters above top of datum of consideration is calculated using Wind Speed at Height of 10 m = ((Fetch Length*[g]^2)/(Frequency at Spectral Peak/3.5)^-(1/0.33))^(1/3). To calculate Wind Speed at Elevation 10m above Sea Surface given Frequency at Spectral Peak, you need Fetch Length (Fl) & Frequency at Spectral Peak (fp). With our tool, you need to enter the respective value for Fetch Length & Frequency at Spectral Peak 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 Wind Speed at Height of 10 m?
In this formula, Wind Speed at Height of 10 m uses Fetch Length & Frequency at Spectral Peak. We can use 2 other way(s) to calculate the same, which is/are as follows -
  • Wind Speed at Height of 10 m = ((Fetch Length*[g])/(Dimensionless Scaling Parameter/0.076)^(-1/0.22))^0.5
  • Wind Speed at Height of 10 m = [g]*(Controlling Parameter for the Angular Distribution/11.5)^(-1/2.5)/(2*pi*Frequency at Spectral Peak)
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