Non-propagated Wave Values in Forbidden Region of Boundary Line Solution

STEP 0: Pre-Calculation Summary
Formula Used
Non-propagated Wave Values = ((2*pi)/Wave Period)*(Time Averaged Water Depth/[g])^0.5
= ((2*pi)/Tp)*(dT/[g])^0.5
This formula uses 2 Constants, 3 Variables
Constants Used
[g] - Gravitational acceleration on Earth Value Taken As 9.80665
pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288
Variables Used
Non-propagated Wave Values - Non-propagated Wave Values is elements of a wave function that don't transmit energy or information, often called standing waves.
Wave Period - (Measured in Second) - Wave Period is defined as the time it takes for two successive crests to pass a given point.
Time Averaged Water Depth - (Measured in Meter) - Time Averaged Water Depth is the depth of water during average time.
STEP 1: Convert Input(s) to Base Unit
Wave Period: 95 Second --> 95 Second No Conversion Required
Time Averaged Water Depth: 5 Meter --> 5 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Ω = ((2*pi)/Tp)*(dT/[g])^0.5 --> ((2*pi)/95)*(5/[g])^0.5
Evaluating ... ...
= 0.0472259744096459
STEP 3: Convert Result to Output's Unit
0.0472259744096459 --> No Conversion Required
FINAL ANSWER
0.0472259744096459 0.047226 <-- Non-propagated Wave Values
(Calculation completed in 00.004 seconds)

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Coorg Institute of Technology (CIT), Coorg
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10+ Wave-Current Interaction Calculators

Channel Velocity in Non-propagated Wave Values in Forbidden Region
Go Velocity in Channel = (Non-propagated Wave Values of 'F'*([g]*Time Averaged Water Depth)^0.5)/cos(Angle b/w Horizontal Velocity and Horizontal Wave)
Channel Depth in Non-propagated Wave values in Forbidden Region
Go Time Averaged Water Depth = (((Velocity in Channel*cos(Angle b/w Horizontal Velocity and Horizontal Wave)/Non-propagated Wave Values of 'F'))^2)/[g]
Non-propagated Wave Values in Forbidden Region Boundary Line
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
Angle Wave Orthogonal makes with Current in Non-propagated Wave Values on Forbidden Region
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)
Channel Depth in Non-propagated Wave Values
Go Time Averaged Water Depth = [g]*((Non-propagated Wave Values*Wave Period)/(2*pi))^(1/0.5)
Non-propagated Wave Values in Forbidden Region of Boundary Line
Go Non-propagated Wave Values = ((2*pi)/Wave Period)*(Time Averaged Water Depth/[g])^0.5
Wave Period in Non-propagated Wave Values
Go Wave Period = (2*pi*(Time Averaged Water Depth/[g])^(1/2))/Non-propagated Wave Values
Effect of Current on Wave Height
Go Wave Height = Inlet Current Wave Height Factor*Wave Height Entering Inlet
Inlet Current Wave Height Factor
Go Inlet Current Wave Height Factor = Wave Height/Wave Height Entering Inlet
Wave Height Entering Inlet
Go Wave Height Entering Inlet = Wave Height/Inlet Current Wave Height Factor

Non-propagated Wave Values in Forbidden Region of Boundary Line Formula

Non-propagated Wave Values = ((2*pi)/Wave Period)*(Time Averaged Water Depth/[g])^0.5
= ((2*pi)/Tp)*(dT/[g])^0.5

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 wave propagation?

Wave propagation is any of the ways in which waves travel. With respect to the direction of the oscillation relative to the propagation direction, we can distinguish between longitudinal wave and transverse waves.

How to Calculate Non-propagated Wave Values in Forbidden Region of Boundary Line?

Non-propagated Wave Values in Forbidden Region of Boundary Line calculator uses Non-propagated Wave Values = ((2*pi)/Wave Period)*(Time Averaged Water Depth/[g])^0.5 to calculate the Non-propagated Wave Values, The Non-propagated Wave Values in Forbidden Region of Boundary Line is defined as evanescent wave modes with non-real wave numbers decay with propagating distance and influences the wave height factor. Non-propagated Wave Values is denoted by symbol.

How to calculate Non-propagated Wave Values in Forbidden Region of Boundary Line using this online calculator? To use this online calculator for Non-propagated Wave Values in Forbidden Region of Boundary Line, enter Wave Period (Tp) & Time Averaged Water Depth (dT) and hit the calculate button. Here is how the Non-propagated Wave Values in Forbidden Region of Boundary Line calculation can be explained with given input values -> 0.047226 = ((2*pi)/95)*(5/[g])^0.5.

FAQ

What is Non-propagated Wave Values in Forbidden Region of Boundary Line?
The Non-propagated Wave Values in Forbidden Region of Boundary Line is defined as evanescent wave modes with non-real wave numbers decay with propagating distance and influences the wave height factor and is represented as Ω = ((2*pi)/Tp)*(dT/[g])^0.5 or Non-propagated Wave Values = ((2*pi)/Wave Period)*(Time Averaged Water Depth/[g])^0.5. Wave Period is defined as the time it takes for two successive crests to pass a given point & Time Averaged Water Depth is the depth of water during average time.
How to calculate Non-propagated Wave Values in Forbidden Region of Boundary Line?
The Non-propagated Wave Values in Forbidden Region of Boundary Line is defined as evanescent wave modes with non-real wave numbers decay with propagating distance and influences the wave height factor is calculated using Non-propagated Wave Values = ((2*pi)/Wave Period)*(Time Averaged Water Depth/[g])^0.5. To calculate Non-propagated Wave Values in Forbidden Region of Boundary Line, you need Wave Period (Tp) & Time Averaged Water Depth (dT). With our tool, you need to enter the respective value for Wave Period & Time Averaged Water Depth 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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