Added-Mass Coefficient for Fixed Body in Oscillatory Flow Calculator

✖Added Mass Coefficient are hydrodynamic characteristics linked to the structure of the porous media.ⓘ Added-Mass Coefficient for Fixed Body in Oscillatory Flow [C_a]

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Added-Mass Coefficient for Fixed Body in Oscillatory Flow

Formula

`"C"_{"a"} = "C"_{"m"}-1`

Example

`"4"="5"-1`

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Added-Mass Coefficient for Fixed Body in Oscillatory Flow Solution

STEP 0: Pre-Calculation Summary

Formula Used

Added Mass Coefficient = Inertia Coefficient-1
C_a = C_m-1
This formula uses 2 Variables

Variables Used

Added Mass Coefficient - Added Mass Coefficient are hydrodynamic characteristics linked to the structure of the porous media.
Inertia Coefficient - Inertia Coefficient are hydrodynamic characteristics linked to the structure of the porous media.

STEP 1: Convert Input(s) to Base Unit

Inertia Coefficient: 5 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

C_a = C_m-1 --> 5-1

Evaluating ... ...

C_a = 4

STEP 3: Convert Result to Output's Unit

4 --> No Conversion Required

FINAL ANSWER

4 <-- Added Mass Coefficient

(Calculation completed in 00.004 seconds)

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< 6 The Morison (MOJS) Equation Calculators

Hydrodynamic Mass Force

Go Hydrodynamic Mass Force = Density of Fluid*Added Mass Coefficient*Volume of Body*Flow Acceleration

Inertia Force for Fixed body in Oscillatory Flow

Go Inertia Force of Fluid = Density of Fluid*Inertia Coefficient*Volume of Body*Flow Acceleration

Drag Force for Fixed body in Oscillatory Flow

Go Drag Force = 0.5*Density of Fluid*Drag Coefficient of Fluid*Reference Area*Flow Velocity^2

Froude-Krylov Force

Go Froude-Krylov Force = Density of Fluid*Volume of Body*Flow Acceleration

Added-Mass Coefficient for Fixed Body in Oscillatory Flow

Go Added Mass Coefficient = Inertia Coefficient-1

Inertia Coefficient for Fixed body in Oscillatory Flow

Go Inertia Coefficient = 1+Added Mass Coefficient

Added-Mass Coefficient for Fixed Body in Oscillatory Flow Formula

Added Mass Coefficient = Inertia Coefficient-1
C_a = C_m-1

What is the Morison Equation?

The Morison equation is the sum of two force components: an inertia force in phase with the local flow acceleration and a drag force proportional to the (signed) square of the instantaneous flow velocity. The inertia force is of the functional form as found in potential flow theory, while the drag force has the form as found for a body placed in a steady flow. In the heuristic approach of Morison, O'Brien, Johnson and Schaaf these two force components, inertia and drag, are simply added to describe the inline force in an oscillatory flow. The transverse force—perpendicular to the flow direction, due to vortex shedding—has to be addressed separately.

How to Calculate Added-Mass Coefficient for Fixed Body in Oscillatory Flow?

Added-Mass Coefficient for Fixed Body in Oscillatory Flow calculator uses Added Mass Coefficient = Inertia Coefficient-1 to calculate the Added Mass Coefficient, The Added-mass Coefficient for Fixed body in Oscillatory Flow formula is defined as the inertia added to a system because an accelerating or decelerating body must move some volume of surrounding fluid as it moves through it. Added Mass Coefficient is denoted by C_a symbol.

How to calculate Added-Mass Coefficient for Fixed Body in Oscillatory Flow using this online calculator? To use this online calculator for Added-Mass Coefficient for Fixed Body in Oscillatory Flow, enter Inertia Coefficient (C_m) and hit the calculate button. Here is how the Added-Mass Coefficient for Fixed Body in Oscillatory Flow calculation can be explained with given input values -> 4 = 5-1.

FAQ

What is Added-Mass Coefficient for Fixed Body in Oscillatory Flow?

The Added-mass Coefficient for Fixed body in Oscillatory Flow formula is defined as the inertia added to a system because an accelerating or decelerating body must move some volume of surrounding fluid as it moves through it and is represented as C_a = C_m-1 or Added Mass Coefficient = Inertia Coefficient-1. Inertia Coefficient are hydrodynamic characteristics linked to the structure of the porous media.

How to calculate Added-Mass Coefficient for Fixed Body in Oscillatory Flow?

The Added-mass Coefficient for Fixed body in Oscillatory Flow formula is defined as the inertia added to a system because an accelerating or decelerating body must move some volume of surrounding fluid as it moves through it is calculated using Added Mass Coefficient = Inertia Coefficient-1. To calculate Added-Mass Coefficient for Fixed Body in Oscillatory Flow, you need Inertia Coefficient (C_m). With our tool, you need to enter the respective value for Inertia Coefficient 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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