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Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year Formula

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Wave Height in Deep Water is the vertical distance between the crest (highest point) and the trough (lowest point) of a wave in deep water considered to be water deeper than 1/2 surface wavelength. Check FAQs

H o = \sqrt{\frac{S'}{(0.44 \cdot 10^{6}) \cdot C o \cdot {K r}^{2} \cdot \sin (φ br) \cdot \cos (φ br)}}

H_o - Wave Height in Deep Water?S' - Total Littoral Transport in cubic meter per year?C_o - Deepwater Wave Celerity?K_r - Refraction Coefficient?φ_br - Angle of Wave Incidence?

Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year Example

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Here is how the Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year equation looks like with Values.

Here is how the Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year equation looks like with Units.

Here is how the Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year equation looks like.

44.9467 = \sqrt{\frac{2E+7}{(0.44 \cdot 10^{6}) \cdot 4.5 \cdot {0.1}^{2} \cdot \sin (45) \cdot \cos (45)}}

44.9467m = \sqrt{\frac{2E+7}{(0.44 \cdot 10^{6}) \cdot 4.5m/s \cdot {0.1}^{2} \cdot \sin (45°) \cdot \cos (45°)}}

44.9467 = \sqrt{\frac{2E+7}{(0.44 \cdot 10^{6}) \cdot 4.5 \cdot {0.1}^{2} \cdot \sin (45) \cdot \cos (45)}}

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Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year Solution

Follow our step by step solution on how to calculate Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year?

FIRST Step Consider the formula

H o = \sqrt{\frac{S'}{(0.44 \cdot 10^{6}) \cdot C o \cdot {K r}^{2} \cdot \sin (φ br) \cdot \cos (φ br)}}

Next Step Substitute values of Variables

∴

H o = \sqrt{\frac{2E+7}{(0.44 \cdot 10^{6}) \cdot 4.5m/s \cdot {0.1}^{2} \cdot \sin (45°) \cdot \cos (45°)}}

Next Step Convert Units

∴

H o = \sqrt{\frac{2E+7}{(0.44 \cdot 10^{6}) \cdot 4.5m/s \cdot {0.1}^{2} \cdot \sin (0.7854rad) \cdot \cos (0.7854rad)}}

Next Step Prepare to Evaluate

∴

H o = \sqrt{\frac{2E+7}{(0.44 \cdot 10^{6}) \cdot 4.5 \cdot {0.1}^{2} \cdot \sin (0.7854) \cdot \cos (0.7854)}}

Next Step Evaluate

∴

H o = 44.9466574975495m

LAST Step Rounding Answer

∴

H o = 44.9467m

Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year Formula Elements

Variables

Functions

Wave Height in Deep Water

Wave Height in Deep Water is the vertical distance between the crest (highest point) and the trough (lowest point) of a wave in deep water considered to be water deeper than 1/2 surface wavelength.

Symbol: H_o

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Wave Height in Deep Water

Total Littoral Transport in cubic meter per year

The Total Littoral Transport in cubic meter per year is the sum of the absolute values of transport of non-cohesive sediments in the littoral zone along shoreline mainly due to breaking waves.

Symbol: S'

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Total Littoral Transport in cubic meter per year

Deepwater Wave Celerity

Deepwater Wave Celerity is the speed at which an individual wave advances or propagates occurring or existing in water of great depth.

Symbol: C_o

Measurement: SpeedUnit: m/s

Note: Value should be greater than 0.

Formulas to find Deepwater Wave Celerity

Refraction Coefficient

Refraction Coefficient when waves approach a plane base travelling from deep water into shallow water.

Symbol: K_r

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Refraction Coefficient

Angle of Wave Incidence

Angle of Wave Incidence is the angle between the wave propagation direction and the normal to the coastline or the angle between the wavefront and the coastline.

Symbol: φ_br

Measurement: AngleUnit: °

Note: Value should be greater than 0.

Formulas to find Angle of Wave Incidence

sin

Sine is a trigonometric function that describes the ratio of the length of the opposite side of a right triangle to the length of the hypotenuse.

Syntax: sin(Angle)

cos

Cosine of an angle is the ratio of the side adjacent to the angle to the hypotenuse of the triangle.

Syntax: cos(Angle)

sqrt

A square root function is a function that takes a non-negative number as an input and returns the square root of the given input number.

Syntax: sqrt(Number)

Other formulas in Sediment Transport along Coasts category

Go Total Littoral Transport in Entire Breaker Zone in CERC Formula

S = 0.014 \cdot {H d}^{2} \cdot C o \cdot {K r}^{2} \cdot \sin (φ br) \cdot \cos (φ br)

Go Wave Height in Deepwater given Total Littoral Transport in Entire Breaker Zone in CERC Formula

H d = \sqrt{\frac{S}{0.014 \cdot C o \cdot {K r}^{2} \cdot \sin (φ br) \cdot \cos (φ br)}}

Go Wave Speed in Deepwater for Total Littoral Transport in Entire Breaker Zone in CERC Formula

C o = (\frac{S}{0.014 \cdot {H d}^{2} \cdot {K r}^{2} \cdot \sin (φ br) \cdot \cos (φ br)})

Go Wave Speed in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year

C o = \frac{S'}{(0.44 \cdot 10^{6}) \cdot {H o}^{2} \cdot {K r}^{2} \cdot \sin (φ br) \cdot \cos (φ br)}

How to Evaluate Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year?

Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year evaluator uses Wave Height in Deep Water = sqrt(Total Littoral Transport in cubic meter per year/((0.44*10^6)*Deepwater Wave Celerity*Refraction Coefficient^2*sin(Angle of Wave Incidence)*cos(Angle of Wave Incidence))) to evaluate the Wave Height in Deep Water, The Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year formula is defined as the difference between the elevations of a crest and a neighboring trough. Wave height is a term used by mariners, as well as in coastal, ocean and naval engineering. Wave Height in Deep Water is denoted by H_o symbol.

How to evaluate Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year using this online evaluator? To use this online evaluator for Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year, enter Total Littoral Transport in cubic meter per year (S'), Deepwater Wave Celerity (C_o), Refraction Coefficient (K_r) & Angle of Wave Incidence (φ_br) and hit the calculate button.

FAQs on Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year

What is the formula to find Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year?

The formula of Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year is expressed as Wave Height in Deep Water = sqrt(Total Littoral Transport in cubic meter per year/((0.44*10^6)*Deepwater Wave Celerity*Refraction Coefficient^2*sin(Angle of Wave Incidence)*cos(Angle of Wave Incidence))). Here is an example- 44.94666 = sqrt(20000000/((0.44*10^6)*4.5*0.1^2*sin(0.785398163397301)*cos(0.785398163397301))).

How to calculate Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year?

With Total Littoral Transport in cubic meter per year (S'), Deepwater Wave Celerity (C_o), Refraction Coefficient (K_r) & Angle of Wave Incidence (φ_br) we can find Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year using the formula - Wave Height in Deep Water = sqrt(Total Littoral Transport in cubic meter per year/((0.44*10^6)*Deepwater Wave Celerity*Refraction Coefficient^2*sin(Angle of Wave Incidence)*cos(Angle of Wave Incidence))). This formula also uses Sine (sin)Cosine (cos), Square Root (sqrt) function(s).

Can the Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year be negative?

No, the Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year, measured in Length cannot be negative.

Which unit is used to measure Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year?

Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year is usually measured using the Meter[m] for Length. Millimeter[m], Kilometer[m], Decimeter[m] are the few other units in which Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year can be measured.

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Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year Formula

Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year Example

Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year Solution

Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year Formula Elements

Other formulas in Sediment Transport along Coasts category

How to Evaluate Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year?

FAQs on Wave Height in Deepwater for Total Littoral Transport in Breaker Zone in Cubic Meter per Year

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