Wave Height for Fetch more than 32 kilometers Solution

STEP 0: Pre-Calculation Summary
Formula Used
Height of Water from Top Crest to Bottom of Trough = 0.032*sqrt(Wind Velocity of Wave Pressure*Straight Length of Water Expense)
hw = 0.032*sqrt(V*F)
This formula uses 1 Functions, 3 Variables
Functions Used
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., sqrt(Number)
Variables Used
Height of Water from Top Crest to Bottom of Trough - (Measured in Kilometer) - Height of Water from Top Crest to Bottom of Trough if the upstream face is inclined, the vertical weight of the silt which is supported on the slope will also acts as a vertical force.
Wind Velocity of Wave Pressure - (Measured in Kilometer per Hour) - Wind velocity of wave pressure is a pedestrian level wind speed measured at 2 m above ground. It is a measure of air ventilation which has a direct effect on outdoor thermal comfort.
Straight Length of Water Expense - (Measured in Kilometer) - Straight length of water expense is the distance which separates the dam from the shore where the wind is blowing.
STEP 1: Convert Input(s) to Base Unit
Wind Velocity of Wave Pressure: 11 Kilometer per Hour --> 11 Kilometer per Hour No Conversion Required
Straight Length of Water Expense: 5 Kilometer --> 5 Kilometer No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
hw = 0.032*sqrt(V*F) --> 0.032*sqrt(11*5)
Evaluating ... ...
hw = 0.237318351587061
STEP 3: Convert Result to Output's Unit
237.318351587061 Meter --> No Conversion Required
FINAL ANSWER
237.318351587061 237.3184 Meter <-- Height of Water from Top Crest to Bottom of Trough
(Calculation completed in 00.020 seconds)

Credits

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Coorg institute of technology (CIT), Kodagu
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8 Forces acting on Gravity Dam Calculators

Wave Height for Fetch Less than 32 kilometers
Go Height of Water from Top Crest to Bottom of Trough = (0.032*sqrt(Wind Velocity of Wave Pressure*Straight Length of Water Expense)+0.763)-(0.271*(Straight Length of Water Expense^(3/4)))
Net Effective Weight of Dam
Go Net Effective Weight of Dam = Total Weight of Dam-((Total Weight of Dam/Gravity adapted for Vertical Acceleration)*Fraction Gravity adapted for Vertical Acceleration)
Force Exerted by Silt in Addition to External Water Pressure represented by Rankine's Formula
Go Force Exerted by Silt in Water Pressure = (1/2)*Sub Merged Unit Weight of Silt Materials*(Height of Silt Deposited^2)*Coefficient of Active Earth Pressure of Silt
Von Karman Equation of Amount of Hydrodynamic Force acting from Base
Go Von Karman Amount of Hydrodynamic Force = 0.555*Fraction of Gravity for Horizontal Acceleration*Unit Weight of Water*(Depth of Water due to External Force^2)
Wave Height for Fetch more than 32 kilometers
Go Height of Water from Top Crest to Bottom of Trough = 0.032*sqrt(Wind Velocity of Wave Pressure*Straight Length of Water Expense)
Maximum Pressure Intensity due to Wave Action
Go Maximum Pressure Intensity due to Wave Action = (2.4*Unit Weight of Water*Height of Water from Top Crest to Bottom of Trough)
Moment of Hydrodynamic Force about Base
Go Moment of Hydrodynamic Force about Base = 0.424*Von Karman Amount of Hydrodynamic Force*Depth of Water due to External Force
Resultant Force due to External Water Pressure acting from Base
Go Resultant Force due to External Water = (1/2)*Unit Weight of Water*Depth of Water due to External Force^2

Wave Height for Fetch more than 32 kilometers Formula

Height of Water from Top Crest to Bottom of Trough = 0.032*sqrt(Wind Velocity of Wave Pressure*Straight Length of Water Expense)
hw = 0.032*sqrt(V*F)

What is meant by Wind Velocity?

WV means pedestrian level wind speed measured at 2 m above ground. It is a measure of air ventilation which has a direct effect on outdoor thermal comfort.

How do Pressure Waves work?

Sound is produced when an object vibrates, creating a pressure wave. This pressure wave causes particles in the surrounding medium (air, water, or solid) to have vibrational motion. As the particles vibrate, they move nearby particles, transmitting the sound further through the medium.

How to Calculate Wave Height for Fetch more than 32 kilometers?

Wave Height for Fetch more than 32 kilometers calculator uses Height of Water from Top Crest to Bottom of Trough = 0.032*sqrt(Wind Velocity of Wave Pressure*Straight Length of Water Expense) to calculate the Height of Water from Top Crest to Bottom of Trough, The Wave Height for Fetch more than 32 kilometers formula is defined as the wave height 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. Height of Water from Top Crest to Bottom of Trough is denoted by hw symbol.

How to calculate Wave Height for Fetch more than 32 kilometers using this online calculator? To use this online calculator for Wave Height for Fetch more than 32 kilometers, enter Wind Velocity of Wave Pressure (V) & Straight Length of Water Expense (F) and hit the calculate button. Here is how the Wave Height for Fetch more than 32 kilometers calculation can be explained with given input values -> 237.3184 = 0.032*sqrt(3.05555555555556*5000).

FAQ

What is Wave Height for Fetch more than 32 kilometers?
The Wave Height for Fetch more than 32 kilometers formula is defined as the wave height 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 and is represented as hw = 0.032*sqrt(V*F) or Height of Water from Top Crest to Bottom of Trough = 0.032*sqrt(Wind Velocity of Wave Pressure*Straight Length of Water Expense). Wind velocity of wave pressure is a pedestrian level wind speed measured at 2 m above ground. It is a measure of air ventilation which has a direct effect on outdoor thermal comfort & Straight length of water expense is the distance which separates the dam from the shore where the wind is blowing.
How to calculate Wave Height for Fetch more than 32 kilometers?
The Wave Height for Fetch more than 32 kilometers formula is defined as the wave height 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 is calculated using Height of Water from Top Crest to Bottom of Trough = 0.032*sqrt(Wind Velocity of Wave Pressure*Straight Length of Water Expense). To calculate Wave Height for Fetch more than 32 kilometers, you need Wind Velocity of Wave Pressure (V) & Straight Length of Water Expense (F). With our tool, you need to enter the respective value for Wind Velocity of Wave Pressure & Straight Length of Water Expense 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 Water from Top Crest to Bottom of Trough?
In this formula, Height of Water from Top Crest to Bottom of Trough uses Wind Velocity of Wave Pressure & Straight Length of Water Expense. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Height of Water from Top Crest to Bottom of Trough = (0.032*sqrt(Wind Velocity of Wave Pressure*Straight Length of Water Expense)+0.763)-(0.271*(Straight Length of Water Expense^(3/4)))
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