Wave Height Given Minor Vertical Semi-Axis for Shallow Water Condition Calculator

✖Vertical Semi-Axis refers to a geometric property of an object or structure.ⓘ Vertical Semi-Axis [B]			+10% -10%
✖Sea Bed Elevation refers to the measurement of the height or depth of the ocean floor relative to a specified reference point, such as mean sea level.ⓘ Sea Bed Elevation [Z]			+10% -10%
✖Water Depth for Semi-Axis of Ellipse is the depth of water from the bed of sea for semi-axis of ellipse.ⓘ Water Depth for Semi-Axis of Ellipse [d_s]			+10% -10%

✖Height of The Wave is the difference between the elevations of a crest and a neighboring trough.ⓘ Wave Height Given Minor Vertical Semi-Axis for Shallow Water Condition [H_w]

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Formula

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Wave Height Given Minor Vertical Semi-Axis for Shallow Water Condition

Formula

`"H"_{"w"} = (2*"B")/(1+("Z"/"d"_{"s"}))`

Example

`"14.00035m"=(2*"7.415")/(1+("0.8"/"13.5m"))`

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Wave Height Given Minor Vertical Semi-Axis for Shallow Water Condition Solution

STEP 0: Pre-Calculation Summary

Formula Used

Height of The Wave = (2*Vertical Semi-Axis)/(1+(Sea Bed Elevation/Water Depth for Semi-Axis of Ellipse))
H_w = (2*B)/(1+(Z/d_s))
This formula uses 4 Variables

Variables Used

Height of The Wave - (Measured in Meter) - Height of The Wave is the difference between the elevations of a crest and a neighboring trough.
Vertical Semi-Axis - Vertical Semi-Axis refers to a geometric property of an object or structure.
Sea Bed Elevation - Sea Bed Elevation refers to the measurement of the height or depth of the ocean floor relative to a specified reference point, such as mean sea level.
Water Depth for Semi-Axis of Ellipse - (Measured in Meter) - Water Depth for Semi-Axis of Ellipse is the depth of water from the bed of sea for semi-axis of ellipse.

STEP 1: Convert Input(s) to Base Unit

Vertical Semi-Axis: 7.415 --> No Conversion Required
Sea Bed Elevation: 0.8 --> No Conversion Required
Water Depth for Semi-Axis of Ellipse: 13.5 Meter --> 13.5 Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

H_w = (2*B)/(1+(Z/d_s)) --> (2*7.415)/(1+(0.8/13.5))

Evaluating ... ...

H_w = 14.0003496503496

STEP 3: Convert Result to Output's Unit

14.0003496503496 Meter --> No Conversion Required

FINAL ANSWER

14.0003496503496 ≈ 14.00035 Meter <-- Height of The Wave

(Calculation completed in 00.004 seconds)

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Home » Engineering » Civil » Coastal and Ocean Engineering » Water Wave Mechanics » Horizontal and Vertical Semi-axis of ellipse » Wave Height Given Minor Vertical Semi-Axis for Shallow Water Condition

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< 13 Horizontal and Vertical Semi-axis of ellipse Calculators

Phase Angle for Horizontal Fluid Particle Displacement

Go Phase Angle = asin(((Fluid Particle Displacement/Wave Amplitude)*(sinh(2*pi*Water Depth/Wavelength of Coast)/cosh(2*pi*(Elevation above the Bottom)/Wavelength of Coast)))^2)^2

Wave Height for Major Horizontal Semi-Axis Deep Water Condition

Go Height of The Wave = (2*Horizontal Semi-axis of Water Particle)/exp(2*pi*Sea Bed Elevation/Length of Water Wave)

Major Horizontal Semi Axis for Deep Water Condition

Go Horizontal Semi-axis of Water Particle = (Height of The Wave/2)*exp(2*pi*Sea Bed Elevation/Length of Water Wave)

Major Horizontal Semi Axis for Shallow Water Condition

Go Horizontal Semi-axis of Water Particle = (Height of The Wave/2)*(Length of Water Wave/(2*pi*Water Depth for Semi-Axis of Ellipse))

Water Depth for Major Horizontal Semi-Axis for Shallow Water Condition

Go Water Depth for Semi-Axis of Ellipse = (Height of The Wave*Length of Water Wave)/(4*pi*Horizontal Semi-axis of Water Particle)

Wave Height for Major Horizontal Semi-Axis for Shallow Water Condition

Go Height of The Wave = (4*Horizontal Semi-axis of Water Particle*pi*Water Depth for Semi-Axis of Ellipse)/Length of Water Wave

Wavelength for Major Horizontal Semi-Axis for Shallow Water Condition

Go Length of Water Wave = (4*pi*Water Depth for Semi-Axis of Ellipse*Horizontal Semi-axis of Water Particle)/Height of The Wave

Wave Height for Minor Vertical Semi-Axis Deep Water Condition

Go Height of The Wave = (2*Vertical Semi-Axis)/exp(2*pi*Sea Bed Elevation/Length of Water Wave)

Minor Vertical Semi-Axis for Deep Water Condition

Go Vertical Semi-Axis = (Height of The Wave/2)*exp(2*pi*Sea Bed Elevation/Length of Water Wave)

Wave Height Given Minor Vertical Semi-Axis for Shallow Water Condition

Go Height of The Wave = (2*Vertical Semi-Axis)/(1+(Sea Bed Elevation/Water Depth for Semi-Axis of Ellipse))

Water Depth Given Minor Vertical Semi-Axis for Shallow Water Condition

Go Water Depth for Semi-Axis of Ellipse = Sea Bed Elevation/((Vertical Semi-Axis/(Height of The Wave/2))-1)

Sea Bed Given Minor Vertical Semi-Axis for Shallow Water Condition

Go Sea Bed Elevation = Water Depth for Semi-Axis of Ellipse*((Vertical Semi-Axis/(Height of The Wave/2))-1)

Minor Vertical Semi Axis for Shallow Water Condition

Go Vertical Semi-Axis = (Height of The Wave/2)*(1+Sea Bed Elevation/Water Depth for Semi-Axis of Ellipse)

Wave Height Given Minor Vertical Semi-Axis for Shallow Water Condition Formula

Height of The Wave = (2*Vertical Semi-Axis)/(1+(Sea Bed Elevation/Water Depth for Semi-Axis of Ellipse))
H_w = (2*B)/(1+(Z/d_s))

How Does Depth Affect Wavelength?

The change from deep to shallow water waves occurs when the depth of the water, d, becomes less than one half of the wavelength of the wave, λ. The speed of deep-water waves depends on the wavelength of the waves. We say that deep-water waves show dispersion. A wave with a longer wavelength travels at higher speed.

What is Shallow water conditions?

The shallow-water equations describe a thin layer of fluid of constant density in hydrostatic balance, bounded from below by the bottom topography and from above by a free surface. They exhibit a rich variety of features, because they have infinitely many conservation laws.

How to Calculate Wave Height Given Minor Vertical Semi-Axis for Shallow Water Condition?

Wave Height Given Minor Vertical Semi-Axis for Shallow Water Condition calculator uses Height of The Wave = (2*Vertical Semi-Axis)/(1+(Sea Bed Elevation/Water Depth for Semi-Axis of Ellipse)) to calculate the Height of The Wave, The Wave Height Given Minor Vertical Semi-Axis for Shallow Water Condition is defined as the difference between elevations of crest and neighboring trough, when we have information about minor vertical semi axis for shallow water. Height of The Wave is denoted by H_w symbol.

How to calculate Wave Height Given Minor Vertical Semi-Axis for Shallow Water Condition using this online calculator? To use this online calculator for Wave Height Given Minor Vertical Semi-Axis for Shallow Water Condition, enter Vertical Semi-Axis (B), Sea Bed Elevation (Z) & Water Depth for Semi-Axis of Ellipse (d_s) and hit the calculate button. Here is how the Wave Height Given Minor Vertical Semi-Axis for Shallow Water Condition calculation can be explained with given input values -> 14.00035 = (2*7.415)/(1+(0.8/13.5)).

FAQ

What is Wave Height Given Minor Vertical Semi-Axis for Shallow Water Condition?

The Wave Height Given Minor Vertical Semi-Axis for Shallow Water Condition is defined as the difference between elevations of crest and neighboring trough, when we have information about minor vertical semi axis for shallow water and is represented as H_w = (2*B)/(1+(Z/d_s)) or Height of The Wave = (2*Vertical Semi-Axis)/(1+(Sea Bed Elevation/Water Depth for Semi-Axis of Ellipse)). Vertical Semi-Axis refers to a geometric property of an object or structure, Sea Bed Elevation refers to the measurement of the height or depth of the ocean floor relative to a specified reference point, such as mean sea level & Water Depth for Semi-Axis of Ellipse is the depth of water from the bed of sea for semi-axis of ellipse.

How to calculate Wave Height Given Minor Vertical Semi-Axis for Shallow Water Condition?

The Wave Height Given Minor Vertical Semi-Axis for Shallow Water Condition is defined as the difference between elevations of crest and neighboring trough, when we have information about minor vertical semi axis for shallow water is calculated using Height of The Wave = (2*Vertical Semi-Axis)/(1+(Sea Bed Elevation/Water Depth for Semi-Axis of Ellipse)). To calculate Wave Height Given Minor Vertical Semi-Axis for Shallow Water Condition, you need Vertical Semi-Axis (B), Sea Bed Elevation (Z) & Water Depth for Semi-Axis of Ellipse (d_s). With our tool, you need to enter the respective value for Vertical Semi-Axis, Sea Bed Elevation & Water Depth for Semi-Axis of Ellipse 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 Height of The Wave?

In this formula, Height of The Wave uses Vertical Semi-Axis, Sea Bed Elevation & Water Depth for Semi-Axis of Ellipse. We can use 3 other way(s) to calculate the same, which is/are as follows -

Height of The Wave = (4*Horizontal Semi-axis of Water Particle*pi*Water Depth for Semi-Axis of Ellipse)/Length of Water Wave
Height of The Wave = (2*Horizontal Semi-axis of Water Particle)/exp(2*pi*Sea Bed Elevation/Length of Water Wave)
Height of The Wave = (2*Vertical Semi-Axis)/exp(2*pi*Sea Bed Elevation/Length of Water Wave)

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