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Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow Formula

GoMaximum Cross-Sectionally Averaged Velocity during Tidal Cycle given Tidal Prism Formula

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Maximum Cross Sectional Average Velocity during a tidal cycle which is the periodic rise and fall of the waters of the ocean and its inlets. Check FAQs

V m = \frac{P \cdot π \cdot C}{T \cdot A avg}

V_m - Maximum Cross Sectional Average Velocity?P - Tidal Prism Filling Bay?C - Keulegan Constant for Non-sinusoidal Character?T - Tidal Duration?A_avg - Average Area over the Channel Length?π - Archimedes' constant?

Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow Example

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Here is how the Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow equation looks like with Values.

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Here is how the Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow equation looks like.

6.346 = \frac{32 \cdot 3.1416 \cdot 1.01}{2 \cdot 8}

6.346m/s = \frac{32m³ \cdot 3.1416 \cdot 1.01}{2Year \cdot 8m²}

6.346 = \frac{32 \cdot 3.1416 \cdot 1.01}{2 \cdot 8}

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Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow Solution

Follow our step by step solution on how to calculate Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow?

FIRST Step Consider the formula

V m = \frac{P \cdot π \cdot C}{T \cdot A avg}

Next Step Substitute values of Variables

∴

V m = \frac{32m³ \cdot π \cdot 1.01}{2Year \cdot 8m²}

Next Step Substitute values of Constants

∴

V m = \frac{32m³ \cdot 3.1416 \cdot 1.01}{2Year \cdot 8m²}

Next Step Prepare to Evaluate

∴

V m = \frac{32 \cdot 3.1416 \cdot 1.01}{2 \cdot 8}

Next Step Evaluate

∴

V m = 6.34601716025138m/s

LAST Step Rounding Answer

∴

V m = 6.346m/s

Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow Formula Elements

Variables

Constants

Maximum Cross Sectional Average Velocity

Maximum Cross Sectional Average Velocity during a tidal cycle which is the periodic rise and fall of the waters of the ocean and its inlets.

Symbol: V_m

Measurement: SpeedUnit: m/s

Note: Value can be positive or negative.

Formulas to find Maximum Cross Sectional Average Velocity

Tidal Prism Filling Bay

Tidal Prism Filling Bay is the volume of water in an estuary or inlet between mean high tide and mean low tide, or the volume of water leaving an estuary at ebb tide.

Symbol: P

Measurement: VolumeUnit: m³

Note: Value can be positive or negative.

Formulas to find Tidal Prism Filling Bay

Keulegan Constant for Non-sinusoidal Character

Keulegan Constant for Non-sinusoidal Character quantifies drag force on structures exposed to irregular water flow, aiding design considerations.

Symbol: C

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Keulegan Constant for Non-sinusoidal Character

Tidal Duration

Tidal duration is an efficient way of guesstimating how much water there is, at any given time of day, over a particular point.

Symbol: T

Measurement: TimeUnit: Year

Note: Value should be greater than 0.

Formulas to find Tidal Duration

Average Area over the Channel Length

Average Area over the Channel Length is calculated with surface area of bay, change of bay elevation with time and average velocity in channel for flow.

Symbol: A_avg

Measurement: AreaUnit: m²

Note: Value can be positive or negative.

Formulas to find Average Area over the Channel Length

Archimedes' constant

Archimedes' constant is a mathematical constant that represents the ratio of the circumference of a circle to its diameter.

Symbol: π

Value: 3.14159265358979323846264338327950288

Other Formulas to find Maximum Cross Sectional Average Velocity

Go Maximum Cross-Sectionally Averaged Velocity during Tidal Cycle given Tidal Prism

V m = \frac{P \cdot π}{T \cdot A avg}

Other formulas in Tidal Prism category

Go Tidal Prism filling Bay given Maximum Ebb Tide Discharge

P = T \cdot \frac{Q max}{π}

Go Maximum Instantaneous Ebb Tide Discharge given Tidal Prism

Q max = P \cdot \frac{π}{T}

Go Tidal Period given Maximum Instantaneous Ebb Tide Discharge and Tidal Prism

T = \frac{P \cdot π}{Q max}

Go Tidal Prism given Average Area over Channel Length

P = \frac{T \cdot V m \cdot A avg}{π}

How to Evaluate Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow?

Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow evaluator uses Maximum Cross Sectional Average Velocity = (Tidal Prism Filling Bay*pi*Keulegan Constant for Non-sinusoidal Character)/(Tidal Duration*Average Area over the Channel Length) to evaluate the Maximum Cross Sectional Average Velocity, The Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow formula is defined as the maximum velocity parameter influencing King’s dimensionless velocity and Inlet Channel Velocity during Tidal Cycle. Maximum Cross Sectional Average Velocity is denoted by V_m symbol.

How to evaluate Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow using this online evaluator? To use this online evaluator for Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow, enter Tidal Prism Filling Bay (P), Keulegan Constant for Non-sinusoidal Character (C), Tidal Duration (T) & Average Area over the Channel Length (A_avg) and hit the calculate button.

FAQs on Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow

What is the formula to find Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow?

The formula of Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow is expressed as Maximum Cross Sectional Average Velocity = (Tidal Prism Filling Bay*pi*Keulegan Constant for Non-sinusoidal Character)/(Tidal Duration*Average Area over the Channel Length). Here is an example- 6.346017 = (32*pi*1.01)/(63113904*8).

How to calculate Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow?

With Tidal Prism Filling Bay (P), Keulegan Constant for Non-sinusoidal Character (C), Tidal Duration (T) & Average Area over the Channel Length (A_avg) we can find Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow using the formula - Maximum Cross Sectional Average Velocity = (Tidal Prism Filling Bay*pi*Keulegan Constant for Non-sinusoidal Character)/(Tidal Duration*Average Area over the Channel Length). This formula also uses Archimedes' constant .

What are the other ways to Calculate Maximum Cross Sectional Average Velocity?

Here are the different ways to Calculate Maximum Cross Sectional Average Velocity-

Maximum Cross Sectional Average Velocity=(Tidal Prism Filling Bay*pi)/(Tidal Duration*Average Area over the Channel Length)

Can the Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow be negative?

Yes, the Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow, measured in Speed can be negative.

Which unit is used to measure Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow?

Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow is usually measured using the Meter per Second[m/s] for Speed. Meter per Minute[m/s], Meter per Hour[m/s], Kilometer per Hour[m/s] are the few other units in which Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow can be measured.

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Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow Formula

​GoMaximum Cross-Sectionally Averaged Velocity during Tidal Cycle given Tidal Prism Formula

Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow Example

Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow Solution

Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow Formula Elements

Other Formulas to find Maximum Cross Sectional Average Velocity

Other formulas in Tidal Prism category

How to Evaluate Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow?

FAQs on Maximum Cross-Sectionally Averaged Velocity given Tidal Prism of Non-sinusoidal Prototype Flow

Variable Name

GoMaximum Cross-Sectionally Averaged Velocity during Tidal Cycle given Tidal Prism Formula