Period of Oscillation for Sinusoidal Motion of Fluid Calculator

✖Excursion Amplitude of Fluid Particles in oscillatory flow is defined as a parameter influencing the sediment transport under water waves.ⓘ Excursion Amplitude of Fluid Particles [A]			+10% -10%
✖Amplitude of Flow Velocity Oscillation or the amplitude of the object’s velocity, in case of an oscillating object.ⓘ Amplitude of Flow Velocity Oscillation [V_fv]			+10% -10%

✖The Time Period of Oscillations is the time taken by a complete cycle of the wave to pass a point.ⓘ Period of Oscillation for Sinusoidal Motion of Fluid [T]

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Period of Oscillation for Sinusoidal Motion of Fluid Solution

STEP 0: Pre-Calculation Summary

Formula Used

Time Period of Oscillations = (Excursion Amplitude of Fluid Particles*2*pi)/Amplitude of Flow Velocity Oscillation
T = (A*2*pi)/V_fv
This formula uses 1 Constants, 3 Variables

Constants Used

pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288

Variables Used

Time Period of Oscillations - (Measured in Second) - The Time Period of Oscillations is the time taken by a complete cycle of the wave to pass a point.
Excursion Amplitude of Fluid Particles - Excursion Amplitude of Fluid Particles in oscillatory flow is defined as a parameter influencing the sediment transport under water waves.
Amplitude of Flow Velocity Oscillation - (Measured in Meter per Second) - Amplitude of Flow Velocity Oscillation or the amplitude of the object’s velocity, in case of an oscillating object.

STEP 1: Convert Input(s) to Base Unit

Excursion Amplitude of Fluid Particles: 40 --> No Conversion Required
Amplitude of Flow Velocity Oscillation: 4 Meter per Second --> 4 Meter per Second No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

T = (A*2*pi)/V_fv --> (40*2*pi)/4

Evaluating ... ...

T = 62.8318530717959

STEP 3: Convert Result to Output's Unit

62.8318530717959 Second --> No Conversion Required

FINAL ANSWER

62.8318530717959 ≈ 62.83185 Second <-- Time Period of Oscillations

(Calculation completed in 00.004 seconds)

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< The Keulegan Carpenter Number Calculators

Amplitude of Flow Velocity Oscillation

LaTeX Go Amplitude of Flow Velocity Oscillation = (Keulegan-Carpenter Number*Length Scale)/Time Period of Oscillations

Characteristic Length Scale of Object

LaTeX Go Length Scale = (Amplitude of Flow Velocity Oscillation*Time Period of Oscillations)/Keulegan-Carpenter Number

Keulegan-Carpenter Number

LaTeX Go Keulegan-Carpenter Number = (Amplitude of Flow Velocity Oscillation*Time Period of Oscillations)/Length Scale

Period of Oscillation

LaTeX Go Time Period of Oscillations = (Keulegan-Carpenter Number*Length Scale)/Amplitude of Flow Velocity Oscillation

Period of Oscillation for Sinusoidal Motion of Fluid Formula

LaTeX Go

Time Period of Oscillations = (Excursion Amplitude of Fluid Particles*2*pi)/Amplitude of Flow Velocity Oscillation
T = (A*2*pi)/V_fv

What is Keulegan—Carpenter Number?

In fluid dynamics, the Keulegan–Carpenter number, also called the period number, is a dimensionless quantity describing the relative importance of the drag forces over inertia forces for bluff objects in an oscillatory fluid flow. Or similarly, for objects that oscillate in a fluid at rest.

What is The Morison (MOJS) equation?

In fluid dynamics, the "Morison equation" is a semi-empirical equation for the inline force on a body in oscillatory flow. It is sometimes called the "MOJS equation" after all four authors – Morison, O’Brien, Johnson and Schaaf –of the 1950 paper in which the equation was introduced.

How to Calculate Period of Oscillation for Sinusoidal Motion of Fluid?

Period of Oscillation for Sinusoidal Motion of Fluid calculator uses Time Period of Oscillations = (Excursion Amplitude of Fluid Particles*2*pi)/Amplitude of Flow Velocity Oscillation to calculate the Time Period of Oscillations, The Period of oscillation for sinusoidal motion of fluid is a repetitious oscillation influencing the amplitude of the object’s velocity, in case of an oscillating object. Time Period of Oscillations is denoted by T symbol.

How to calculate Period of Oscillation for Sinusoidal Motion of Fluid using this online calculator? To use this online calculator for Period of Oscillation for Sinusoidal Motion of Fluid, enter Excursion Amplitude of Fluid Particles (A) & Amplitude of Flow Velocity Oscillation (V_fv) and hit the calculate button. Here is how the Period of Oscillation for Sinusoidal Motion of Fluid calculation can be explained with given input values -> 62.83185 = (40*2*pi)/4.

FAQ

What is Period of Oscillation for Sinusoidal Motion of Fluid?

The Period of oscillation for sinusoidal motion of fluid is a repetitious oscillation influencing the amplitude of the object’s velocity, in case of an oscillating object and is represented as T = (A*2*pi)/V_fv or Time Period of Oscillations = (Excursion Amplitude of Fluid Particles*2*pi)/Amplitude of Flow Velocity Oscillation. Excursion Amplitude of Fluid Particles in oscillatory flow is defined as a parameter influencing the sediment transport under water waves & Amplitude of Flow Velocity Oscillation or the amplitude of the object’s velocity, in case of an oscillating object.

How to calculate Period of Oscillation for Sinusoidal Motion of Fluid?

The Period of oscillation for sinusoidal motion of fluid is a repetitious oscillation influencing the amplitude of the object’s velocity, in case of an oscillating object is calculated using Time Period of Oscillations = (Excursion Amplitude of Fluid Particles*2*pi)/Amplitude of Flow Velocity Oscillation. To calculate Period of Oscillation for Sinusoidal Motion of Fluid, you need Excursion Amplitude of Fluid Particles (A) & Amplitude of Flow Velocity Oscillation (V_fv). With our tool, you need to enter the respective value for Excursion Amplitude of Fluid Particles & Amplitude of Flow Velocity Oscillation 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 Time Period of Oscillations?

In this formula, Time Period of Oscillations uses Excursion Amplitude of Fluid Particles & Amplitude of Flow Velocity Oscillation. We can use 1 other way(s) to calculate the same, which is/are as follows -

Time Period of Oscillations = (Keulegan-Carpenter Number*Length Scale)/Amplitude of Flow Velocity Oscillation

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