Dynamic Component due to Acceleration from Absolute Pressure Equation Calculator

✖Mass Density is a physical quantity that represents the mass of a substance per unit volume.ⓘ Mass Density [ρ]			+10% -10%
✖Wave Height of a surface wave is the difference between the elevations of a crest and a neighboring trough.ⓘ Wave Height [H]			+10% -10%
✖Distance above the Bottom expressing the local fluid velocity component.ⓘ Distance above the Bottom [D_Z+d]			+10% -10%
✖Wavelength is the distance between two successive crests or troughs of a wave.ⓘ Wavelength [λ]			+10% -10%
✖Phase Angle characteristic of a periodic wave. The angular component periodic wave is known as the phase angle. It is a complex quantity measured by angular units like radians or degrees.ⓘ Phase Angle [θ]			+10% -10%
✖Water Depth of the considered catchment is the depth as measured from the water level to the bottom of the considered water body.ⓘ Water Depth [d]			+10% -10%

✖Dynamic Component due to Acceleration from Total or Absolute Pressure Equation.ⓘ Dynamic Component due to Acceleration from Absolute Pressure Equation [D]

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Formula

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Dynamic Component due to Acceleration from Absolute Pressure Equation

Formula

`"D" = ("ρ"*"[g]"*"H"*cosh(2*pi*("D"_{"Z+d"})/"λ"))*cos("θ")/(2*cosh(2*pi*"d"/"λ"))`

Example

`"13705.62"=("997kg/m³"*"[g]"*"3m"*cosh(2*pi*("2m")/"26.8m"))*cos("30°")/(2*cosh(2*pi*"1.05m"/"26.8m"))`

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Dynamic Component due to Acceleration from Absolute Pressure Equation Solution

STEP 0: Pre-Calculation Summary

Formula Used

Dynamic Component due to Acceleration = (Mass Density*[g]*Wave Height*cosh(2*pi*(Distance above the Bottom)/Wavelength))*cos(Phase Angle)/(2*cosh(2*pi*Water Depth/Wavelength))
D = (ρ*[g]*H*cosh(2*pi*(D_Z+d)/λ))*cos(θ)/(2*cosh(2*pi*d/λ))
This formula uses 2 Constants, 2 Functions, 7 Variables

Constants Used

[g] - Gravitational acceleration on Earth Value Taken As 9.80665
pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288

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)
cosh - The hyperbolic cosine function is a mathematical function that is defined as the ratio of the sum of the exponential functions of x and negative x to 2., cosh(Number)

Variables Used

Dynamic Component due to Acceleration - Dynamic Component due to Acceleration from Total or Absolute Pressure Equation.
Mass Density - (Measured in Kilogram per Cubic Meter) - Mass Density is a physical quantity that represents the mass of a substance per unit volume.
Wave Height - (Measured in Meter) - Wave Height of a surface wave is the difference between the elevations of a crest and a neighboring trough.
Distance above the Bottom - (Measured in Meter) - Distance above the Bottom expressing the local fluid velocity component.
Wavelength - (Measured in Meter) - Wavelength is the distance between two successive crests or troughs of a wave.
Phase Angle - (Measured in Radian) - Phase Angle characteristic of a periodic wave. The angular component periodic wave is known as the phase angle. It is a complex quantity measured by angular units like radians or degrees.
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.

STEP 1: Convert Input(s) to Base Unit

Mass Density: 997 Kilogram per Cubic Meter --> 997 Kilogram per Cubic Meter No Conversion Required
Wave Height: 3 Meter --> 3 Meter No Conversion Required
Distance above the Bottom: 2 Meter --> 2 Meter No Conversion Required
Wavelength: 26.8 Meter --> 26.8 Meter No Conversion Required
Phase Angle: 30 Degree --> 0.5235987755982 Radian (Check conversion here)
Water Depth: 1.05 Meter --> 1.05 Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

D = (ρ*[g]*H*cosh(2*pi*(D_Z+d)/λ))*cos(θ)/(2*cosh(2*pi*d/λ)) --> (997*[g]*3*cosh(2*pi*(2)/26.8))*cos(0.5235987755982)/(2*cosh(2*pi*1.05/26.8))

Evaluating ... ...

D = 13705.6191499112

STEP 3: Convert Result to Output's Unit

13705.6191499112 --> No Conversion Required

FINAL ANSWER

13705.6191499112 ≈ 13705.62 <-- Dynamic Component due to Acceleration

(Calculation completed in 00.020 seconds)

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Home » Engineering » Civil » Coastal and Ocean Engineering » Water Wave Mechanics » Subsurface Pressure » Pressure Component » Dynamic Component due to Acceleration from Absolute Pressure Equation

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Created by Mithila Muthamma PA

Coorg Institute of Technology (CIT), Coorg

Mithila Muthamma PA has created this Calculator and 2000+ more calculators!

Verified by M Naveen

National Institute of Technology (NIT), Warangal

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< 16 Pressure Component Calculators

Water Surface Elevation of Two Sinusoidal Wave

Go Elevation of Water Surface = (Wave Height/2)*cos((2*pi*Spatial (Progressive Wave)/Wavelength of Component Wave 1)-(2*pi*Temporal (Progressive Wave)/Wave Period of Component Wave 1))+(Wave Height/2)*cos((2*pi*Spatial (Progressive Wave)/Wavelength of Component Wave 2)-(2*pi*Temporal (Progressive Wave)/Wave Period of Component Wave 2))

Phase Angle for Total or Absolute Pressure

Go Phase Angle = acos((Absolute Pressure+(Mass Density*[g]*Seabed Elevation)-(Atmospheric Pressure))/((Mass Density*[g]*Wave Height*cosh(2*pi*(Distance above the Bottom)/Wavelength))/(2*cosh(2*pi*Water Depth/Wavelength))))

Atmospheric Pressure given Total or Absolute Pressure

Go Atmospheric pressure = Absolute pressure-(Mass Density*[g]*Wave Height*cosh(2*pi*(Distance above the Bottom)/Wavelength))*cos(Phase Angle)/(2*cosh(2*pi*Water Depth/Wavelength))+(Mass Density*[g]*Seabed Elevation)

Total or Absolute Pressure

Go Absolute pressure = (Mass Density*[g]*Wave Height*cosh(2*pi*(Distance above the Bottom)/Wavelength)*cos(Phase Angle)/2*cosh(2*pi*Water Depth/Wavelength))-(Mass Density*[g]*Seabed Elevation)+Atmospheric Pressure

Dynamic Component due to Acceleration from Absolute Pressure Equation

Go Dynamic Component due to Acceleration = (Mass Density*[g]*Wave Height*cosh(2*pi*(Distance above the Bottom)/Wavelength))*cos(Phase Angle)/(2*cosh(2*pi*Water Depth/Wavelength))

Height of Surface Waves based on Subsurface Measurements

Go Elevation of Water Surface = Correction Factor*(Pressure+(Mass Density*[g]*Depth below the SWL of Pressure Gauge))/(Mass Density*[g]*Pressure Response Factor)

Correction Factor given Height of Surface Waves based on Subsurface Measurements

Go Correction Factor = Elevation of Water Surface*Mass Density*[g]*Pressure Response Factor/(Pressure+(Mass Density*[g]*Depth below the SWL of Pressure Gauge))

Depth below SWL of Pressure Gauge

Go Depth below the SWL of Pressure Gauge = ((Elevation of Water Surface*Mass Density*[g]*Pressure Response Factor/Correction Factor)-Pressure)/Mass Density*[g]

Friction Velocity given Dimensionless Time

Go Friction Velocity = ([g]*Time for Dimensionless Parameter Calculation)/Dimensionless Time

Water Surface Elevation

Go Elevation of Water Surface = (Wave Height/2)*cos(Phase Angle)

Wave celerity for shallow water given water depth

Go Celerity of the Wave = sqrt([g]*Water Depth)

Atmospheric Pressure given Gauge Pressure

Go Atmospheric Pressure = Absolute Pressure-Gauge Pressure

Total Pressure given Gauge Pressure

Go Total Pressure = Gauge Pressure+Atmospheric Pressure

Water Depth given Wave Celerity for Shallow Water

Go Water Depth = (Celerity of the Wave^2)/[g]

Radian Frequency given Wave Period

Go Wave Angular Frequency = 1/Mean Wave Period

Wave Period given average Frequency

Go Wave Period = 1/Wave Angular Frequency

Dynamic Component due to Acceleration from Absolute Pressure Equation Formula

What is Wavelength?

Wavelength, distance between corresponding points of two consecutive waves. “Corresponding points” refers to two points or particles in the same phase i.e., points that have completed identical fractions of their periodic motion.

How to Calculate Dynamic Component due to Acceleration from Absolute Pressure Equation?

Dynamic Component due to Acceleration from Absolute Pressure Equation calculator uses Dynamic Component due to Acceleration = (Mass Density*[g]*Wave Height*cosh(2*pi*(Distance above the Bottom)/Wavelength))*cos(Phase Angle)/(2*cosh(2*pi*Water Depth/Wavelength)) to calculate the Dynamic Component due to Acceleration, Dynamic Component due to Acceleration from Absolute Pressure Equation is defined as the direction of the net force of dynamic component with reference to the acceleration. Dynamic Component due to Acceleration is denoted by D symbol.

How to calculate Dynamic Component due to Acceleration from Absolute Pressure Equation using this online calculator? To use this online calculator for Dynamic Component due to Acceleration from Absolute Pressure Equation, enter Mass Density (ρ), Wave Height (H), Distance above the Bottom (D_Z+d), Wavelength (λ), Phase Angle (θ) & Water Depth (d) and hit the calculate button. Here is how the Dynamic Component due to Acceleration from Absolute Pressure Equation calculation can be explained with given input values -> 13743.55 = (997*[g]*3*cosh(2*pi*(2)/26.8))*cos(0.5235987755982)/(2*cosh(2*pi*1.05/26.8)).

FAQ

What is Dynamic Component due to Acceleration from Absolute Pressure Equation?

Dynamic Component due to Acceleration from Absolute Pressure Equation is defined as the direction of the net force of dynamic component with reference to the acceleration and is represented as D = (ρ*[g]*H*cosh(2*pi*(D_Z+d)/λ))*cos(θ)/(2*cosh(2*pi*d/λ)) or Dynamic Component due to Acceleration = (Mass Density*[g]*Wave Height*cosh(2*pi*(Distance above the Bottom)/Wavelength))*cos(Phase Angle)/(2*cosh(2*pi*Water Depth/Wavelength)). Mass Density is a physical quantity that represents the mass of a substance per unit volume, Wave Height of a surface wave is the difference between the elevations of a crest and a neighboring trough, Distance above the Bottom expressing the local fluid velocity component, Wavelength is the distance between two successive crests or troughs of a wave, Phase Angle characteristic of a periodic wave. The angular component periodic wave is known as the phase angle. It is a complex quantity measured by angular units like radians or degrees & Water Depth of the considered catchment is the depth as measured from the water level to the bottom of the considered water body.

How to calculate Dynamic Component due to Acceleration from Absolute Pressure Equation?

Dynamic Component due to Acceleration from Absolute Pressure Equation is defined as the direction of the net force of dynamic component with reference to the acceleration is calculated using Dynamic Component due to Acceleration = (Mass Density*[g]*Wave Height*cosh(2*pi*(Distance above the Bottom)/Wavelength))*cos(Phase Angle)/(2*cosh(2*pi*Water Depth/Wavelength)). To calculate Dynamic Component due to Acceleration from Absolute Pressure Equation, you need Mass Density (ρ), Wave Height (H), Distance above the Bottom (D_Z+d), Wavelength (λ), Phase Angle (θ) & Water Depth (d). With our tool, you need to enter the respective value for Mass Density, Wave Height, Distance above the Bottom, Wavelength, Phase Angle & 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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