Angle Wave Orthogonal makes with Current in Non-propagated Wave Values on Forbidden Region Calculator

✖Non-propagated Wave Values of 'F' represent instances where information doesn't spread, indicating localized effects or boundary conditions in physics.ⓘ Non-propagated Wave Values of 'F' [F]			+10% -10%
✖Time Averaged Water Depth is the depth of water during average time.ⓘ Time Averaged Water Depth [d_T]			+10% -10%
✖Velocity in Channel is the speed at which fluid flows, crucial for understanding and managing water or air movement.ⓘ Velocity in Channel [V]			+10% -10%

✖Angle b/w Horizontal Velocity and Horizontal Wave is the angle subtended and depends on non-propagated wave values of 'F', channel depth and velocity in channel.ⓘ Angle Wave Orthogonal makes with Current in Non-propagated Wave Values on Forbidden Region [θ]

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Angle Wave Orthogonal makes with Current in Non-propagated Wave Values on Forbidden Region Solution

STEP 0: Pre-Calculation Summary

Formula Used

Angle b/w Horizontal Velocity and Horizontal Wave = acos(Non-propagated Wave Values of 'F'*([g]*Time Averaged Water Depth)^0.5/Velocity in Channel)
θ = acos(F*([g]*d_T)^0.5/V)
This formula uses 1 Constants, 2 Functions, 4 Variables

Constants Used

[g] - Gravitational acceleration on Earth Value Taken As 9.80665

Functions Used

cos - Cosine of an angle is the ratio of the side adjacent to the angle to the hypotenuse of the triangle., cos(Angle)
acos - The inverse cosine function, is the inverse function of the cosine function. It is the function that takes a ratio as an input and returns the angle whose cosine is equal to that ratio., acos(Number)

Variables Used

Angle b/w Horizontal Velocity and Horizontal Wave - (Measured in Radian) - Angle b/w Horizontal Velocity and Horizontal Wave is the angle subtended and depends on non-propagated wave values of 'F', channel depth and velocity in channel.
Non-propagated Wave Values of 'F' - Non-propagated Wave Values of 'F' represent instances where information doesn't spread, indicating localized effects or boundary conditions in physics.
Time Averaged Water Depth - (Measured in Meter) - Time Averaged Water Depth is the depth of water during average time.
Velocity in Channel - (Measured in Meter per Second) - Velocity in Channel is the speed at which fluid flows, crucial for understanding and managing water or air movement.

STEP 1: Convert Input(s) to Base Unit

Non-propagated Wave Values of 'F': 0.57 --> No Conversion Required
Time Averaged Water Depth: 5 Meter --> 5 Meter No Conversion Required
Velocity in Channel: 4 Meter per Second --> 4 Meter per Second No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

θ = acos(F*([g]*d_T)^0.5/V) --> acos(0.57*([g]*5)^0.5/4)

Evaluating ... ...

θ = 0.0657631980671948

STEP 3: Convert Result to Output's Unit

0.0657631980671948 Radian -->3.76795369653386 Degree (Check conversion here)

FINAL ANSWER

3.76795369653386 ≈ 3.767954 Degree <-- Angle b/w Horizontal Velocity and Horizontal Wave

(Calculation completed in 00.004 seconds)

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< Wave Current Interaction Calculators

Non-propagated Wave Values in Forbidden Region Boundary Line

LaTeX Go Non-propagated Wave Values of 'F' = (Velocity in Channel*cos(Angle b/w Horizontal Velocity and Horizontal Wave))/([g]*Time Averaged Water Depth)^0.5

Effect of Current on Wave Height

LaTeX Go Wave Height = Inlet Current Wave Height Factor*Wave Height Entering Inlet

Inlet Current Wave Height Factor

LaTeX Go Inlet Current Wave Height Factor = Wave Height/Wave Height Entering Inlet

Wave Height Entering Inlet

LaTeX Go Wave Height Entering Inlet = Wave Height/Inlet Current Wave Height Factor

Angle Wave Orthogonal makes with Current in Non-propagated Wave Values on Forbidden Region Formula

LaTeX Go

Angle b/w Horizontal Velocity and Horizontal Wave = acos(Non-propagated Wave Values of 'F'*([g]*Time Averaged Water Depth)^0.5/Velocity in Channel)
θ = acos(F*([g]*d_T)^0.5/V)

What are the factors affecting Wave Height?

Wave Height is affected by wind speed, wind duration (or how long the wind blows), and fetch, which is the distance over water that the wind blows in a single direction. If wind speed is slow, only small waves result, regardless of wind duration or fetch.

What is waves and currents?

Waves are created by the wind and then radiate in all directions away from the disturbance. Currents represent the movement of water particles which is controlled by winds and density differences. Waves and currents can travel in opposite directions.

How to Calculate Angle Wave Orthogonal makes with Current in Non-propagated Wave Values on Forbidden Region?

Angle Wave Orthogonal makes with Current in Non-propagated Wave Values on Forbidden Region calculator uses Angle b/w Horizontal Velocity and Horizontal Wave = acos(Non-propagated Wave Values of 'F'*([g]*Time Averaged Water Depth)^0.5/Velocity in Channel) to calculate the Angle b/w Horizontal Velocity and Horizontal Wave, The Angle Wave Orthogonal makes with Current in Non-propagated Wave Values on Forbidden Region is defined as an angle wave orthogonal makes with current entering an inlet. As flow converges on an inlet entrance, the angle at which flow approaches a dredged channel can be important with regard to change in current direction and can ultimately relate to channel shoaling. Angle b/w Horizontal Velocity and Horizontal Wave is denoted by θ symbol.

How to calculate Angle Wave Orthogonal makes with Current in Non-propagated Wave Values on Forbidden Region using this online calculator? To use this online calculator for Angle Wave Orthogonal makes with Current in Non-propagated Wave Values on Forbidden Region, enter Non-propagated Wave Values of 'F' (F), Time Averaged Water Depth (d_T) & Velocity in Channel (V) and hit the calculate button. Here is how the Angle Wave Orthogonal makes with Current in Non-propagated Wave Values on Forbidden Region calculation can be explained with given input values -> 215.8878 = acos(0.57*([g]*5)^0.5/4).

FAQ

What is Angle Wave Orthogonal makes with Current in Non-propagated Wave Values on Forbidden Region?

The Angle Wave Orthogonal makes with Current in Non-propagated Wave Values on Forbidden Region is defined as an angle wave orthogonal makes with current entering an inlet. As flow converges on an inlet entrance, the angle at which flow approaches a dredged channel can be important with regard to change in current direction and can ultimately relate to channel shoaling and is represented as θ = acos(F*([g]*d_T)^0.5/V) or Angle b/w Horizontal Velocity and Horizontal Wave = acos(Non-propagated Wave Values of 'F'*([g]*Time Averaged Water Depth)^0.5/Velocity in Channel). Non-propagated Wave Values of 'F' represent instances where information doesn't spread, indicating localized effects or boundary conditions in physics, Time Averaged Water Depth is the depth of water during average time & Velocity in Channel is the speed at which fluid flows, crucial for understanding and managing water or air movement.

How to calculate Angle Wave Orthogonal makes with Current in Non-propagated Wave Values on Forbidden Region?

The Angle Wave Orthogonal makes with Current in Non-propagated Wave Values on Forbidden Region is defined as an angle wave orthogonal makes with current entering an inlet. As flow converges on an inlet entrance, the angle at which flow approaches a dredged channel can be important with regard to change in current direction and can ultimately relate to channel shoaling is calculated using Angle b/w Horizontal Velocity and Horizontal Wave = acos(Non-propagated Wave Values of 'F'*([g]*Time Averaged Water Depth)^0.5/Velocity in Channel). To calculate Angle Wave Orthogonal makes with Current in Non-propagated Wave Values on Forbidden Region, you need Non-propagated Wave Values of 'F' (F), Time Averaged Water Depth (d_T) & Velocity in Channel (V). With our tool, you need to enter the respective value for Non-propagated Wave Values of 'F', Time Averaged Water Depth & Velocity in Channel 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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