Cross-Shore Component of Cross-Shore directed Radiation Stress Solution

STEP 0: Pre-Calculation Summary
Formula Used
Coastal Cross-Shore Component = (3/16)*Water Density*[g]*Water Depth*Wave Height^2
Sxx' = (3/16)*ρwater*[g]*d*H^2
This formula uses 1 Constants, 4 Variables
Constants Used
[g] - Gravitational acceleration on Earth Value Taken As 9.80665
Variables Used
Coastal Cross-Shore Component - Coastal Cross-Shore Component refers to the cumulative movement of beach and nearshore sand perpendicular to the shore by the combined action of tides, wind and waves.
Water Density - (Measured in Kilogram per Cubic Meter) - Water Density is mass per unit of water.
Water Depth - (Measured in Meter) - Water Depth of the considered catchment is the depth as measured from the water level to the bottom of the considered water body.
Wave Height - (Measured in Meter) - Wave Height of a surface wave is the difference between the elevations of a crest and a neighboring trough.
STEP 1: Convert Input(s) to Base Unit
Water Density: 1000 Kilogram per Cubic Meter --> 1000 Kilogram per Cubic Meter No Conversion Required
Water Depth: 1.05 Meter --> 1.05 Meter No Conversion Required
Wave Height: 3 Meter --> 3 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Sxx' = (3/16)*ρwater*[g]*d*H^2 --> (3/16)*1000*[g]*1.05*3^2
Evaluating ... ...
Sxx' = 17376.15796875
STEP 3: Convert Result to Output's Unit
17376.15796875 --> No Conversion Required
FINAL ANSWER
17376.15796875 17376.16 <-- Coastal Cross-Shore Component
(Calculation completed in 00.004 seconds)

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Coorg Institute of Technology (CIT), Coorg
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Wave Setup Calculators

Set down for Regular Waves
​ LaTeX ​ Go Mean Water Surface Elevation of Coast = (-1/8)*((Wave Height^2*(2*pi/Wavelength of Coast))/(sinh(4*pi*Water Depth/Wavelength of Coast)))
Mean Water Surface Elevation given Total Water Depth
​ LaTeX ​ Go Mean Water Surface Elevation = Coastal Water Depth-Still-Water Depth
Still Water Depth given Total Water Depth
​ LaTeX ​ Go Still-Water Depth = Coastal Water Depth-Mean Water Surface Elevation
Total Water Depth
​ LaTeX ​ Go Coastal Water Depth = Still-Water Depth+Mean Water Surface Elevation

Cross-Shore Component of Cross-Shore directed Radiation Stress Formula

​LaTeX ​Go
Coastal Cross-Shore Component = (3/16)*Water Density*[g]*Water Depth*Wave Height^2
Sxx' = (3/16)*ρwater*[g]*d*H^2

What is Wave Runup & Wave Setup and Setdown?

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.
The wave setup is the increase in mean water level due to the presence of breaking waves. Similarly, wave set down is a wave-induced decrease of the mean water level before the waves break.
The wave setdown is a wave-induced decrease of the mean water level before the waves break (during the shoaling process). For short, the whole phenomenon is often denoted as wave setup, including both increase and decrease of mean elevation.

Define Breaking Wave & cause of Regular Waves.

In fluid dynamics, a breaking wave or breaker is a wave whose amplitude reaches a critical level at which some process can suddenly start to occur causing large amounts of wave energy to be transformed into turbulent kinetic energy.
Waves are most commonly caused by wind. Wind-driven waves, or surface waves, are created by the friction between wind and surface water. As the wind blows across the surface of the ocean or a lake, the continual disturbance creates a wave crest. The gravitational pull of the Sun and Moon on the Earth causes waves.

How to Calculate Cross-Shore Component of Cross-Shore directed Radiation Stress?

Cross-Shore Component of Cross-Shore directed Radiation Stress calculator uses Coastal Cross-Shore Component = (3/16)*Water Density*[g]*Water Depth*Wave Height^2 to calculate the Coastal Cross-Shore Component, The Cross-Shore Component of Cross-Shore directed Radiation Stress formula is defined as the shallow water value influencing the cross-shore directed radiation stress assuming linear theory. Coastal Cross-Shore Component is denoted by Sxx' symbol.

How to calculate Cross-Shore Component of Cross-Shore directed Radiation Stress using this online calculator? To use this online calculator for Cross-Shore Component of Cross-Shore directed Radiation Stress, enter Water Density water), Water Depth (d) & Wave Height (H) and hit the calculate button. Here is how the Cross-Shore Component of Cross-Shore directed Radiation Stress calculation can be explained with given input values -> 17376.16 = (3/16)*1000*[g]*1.05*3^2.

FAQ

What is Cross-Shore Component of Cross-Shore directed Radiation Stress?
The Cross-Shore Component of Cross-Shore directed Radiation Stress formula is defined as the shallow water value influencing the cross-shore directed radiation stress assuming linear theory and is represented as Sxx' = (3/16)*ρwater*[g]*d*H^2 or Coastal Cross-Shore Component = (3/16)*Water Density*[g]*Water Depth*Wave Height^2. Water Density is mass per unit of water, Water Depth of the considered catchment is the depth as measured from the water level to the bottom of the considered water body & Wave Height of a surface wave is the difference between the elevations of a crest and a neighboring trough.
How to calculate Cross-Shore Component of Cross-Shore directed Radiation Stress?
The Cross-Shore Component of Cross-Shore directed Radiation Stress formula is defined as the shallow water value influencing the cross-shore directed radiation stress assuming linear theory is calculated using Coastal Cross-Shore Component = (3/16)*Water Density*[g]*Water Depth*Wave Height^2. To calculate Cross-Shore Component of Cross-Shore directed Radiation Stress, you need Water Density water), Water Depth (d) & Wave Height (H). With our tool, you need to enter the respective value for Water Density, Water Depth & Wave Height 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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