Change of Ebb Tidal Energy Flux across Ocean Bar between Natural and Channel Conditions Calculator

✖Tidal Period is the time taken for a specific site on Earth to rotate from an exact point under moon to same point under moon, also known as “tidal day” and it’s slightly longer than a solar day.ⓘ Tidal Period [T]			+10% -10%
✖Maximum Instantaneous Ebb Tide Discharge per unit width is the tidal phase during which the water level falls & flood tidal phase during which the water level rises.ⓘ Maximum Instantaneous Ebb Tide Discharge [Q_max]			+10% -10%
✖Depth of Navigation Channel is the depth of a passage in a stretch of water where the sea or riverbed has been deepened to allow access to large vessels.ⓘ Depth of Navigation Channel [d_NC]			+10% -10%
✖Natural Depth of Ocean Bar is the original depth of a sandbar or shoal in the ocean before any human intervention, such as dredging.ⓘ Natural Depth of Ocean Bar [d_OB]			+10% -10%

✖Change in Mean Ebb Tide Flow Energy Flux represents the alteration in the energy transferred by ebbing tidal currents over time.ⓘ Change of Ebb Tidal Energy Flux across Ocean Bar between Natural and Channel Conditions [E_ΔT]

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Change of Ebb Tidal Energy Flux across Ocean Bar between Natural and Channel Conditions Solution

STEP 0: Pre-Calculation Summary

Formula Used

Change in Mean Ebb Tide Flow Energy Flux = ((4*Tidal Period)/(3*pi))*Maximum Instantaneous Ebb Tide Discharge^3*((Depth of Navigation Channel^2-Natural Depth of Ocean Bar^2)/(Natural Depth of Ocean Bar^2*Depth of Navigation Channel^2))
E_ΔT = ((4*T)/(3*pi))*Q_max^3*((d_NC^2-d_OB^2)/(d_OB^2*d_NC^2))
This formula uses 1 Constants, 5 Variables

Constants Used

pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288

Variables Used

Change in Mean Ebb Tide Flow Energy Flux - Change in Mean Ebb Tide Flow Energy Flux represents the alteration in the energy transferred by ebbing tidal currents over time.
Tidal Period - (Measured in Second) - Tidal Period is the time taken for a specific site on Earth to rotate from an exact point under moon to same point under moon, also known as “tidal day” and it’s slightly longer than a solar day.
Maximum Instantaneous Ebb Tide Discharge - (Measured in Cubic Meter per Second) - Maximum Instantaneous Ebb Tide Discharge per unit width is the tidal phase during which the water level falls & flood tidal phase during which the water level rises.
Depth of Navigation Channel - (Measured in Meter) - Depth of Navigation Channel is the depth of a passage in a stretch of water where the sea or riverbed has been deepened to allow access to large vessels.
Natural Depth of Ocean Bar - (Measured in Meter) - Natural Depth of Ocean Bar is the original depth of a sandbar or shoal in the ocean before any human intervention, such as dredging.

STEP 1: Convert Input(s) to Base Unit

Tidal Period: 130 Second --> 130 Second No Conversion Required
Maximum Instantaneous Ebb Tide Discharge: 2.5 Cubic Meter per Second --> 2.5 Cubic Meter per Second No Conversion Required
Depth of Navigation Channel: 4 Meter --> 4 Meter No Conversion Required
Natural Depth of Ocean Bar: 2 Meter --> 2 Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

E_ΔT = ((4*T)/(3*pi))*Q_max^3*((d_NC^2-d_OB^2)/(d_OB^2*d_NC^2)) --> ((4*130)/(3*pi))*2.5^3*((4^2-2^2)/(2^2*4^2))

Evaluating ... ...

E_ΔT = 161.641739077706

STEP 3: Convert Result to Output's Unit

161.641739077706 --> No Conversion Required

FINAL ANSWER

161.641739077706 ≈ 161.6417 <-- Change in Mean Ebb Tide Flow Energy Flux

(Calculation completed in 00.004 seconds)

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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!

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NSS College of Engineering (NSSCE), Palakkad

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< Methods to Predict Channel Shoaling Calculators

Density of Water given Water Surface Slope

LaTeX Go Density of Water = (Coefficient Eckman*Shear Stress at the Water Surface)/(Water Surface Slope*[g]*Eckman Constant Depth)

Transport Ratio

LaTeX Go Transport Ratio = (Depth before Dredging/Depth after Dredging)^(5/2)

Depth before Dredging given Transport Ratio

LaTeX Go Depth before Dredging = Depth after Dredging*Transport Ratio^(2/5)

Depth after Dredging given Transport Ratio

LaTeX Go Depth after Dredging = Depth before Dredging/Transport Ratio^(2/5)

Change of Ebb Tidal Energy Flux across Ocean Bar between Natural and Channel Conditions Formula

LaTeX Go

What is Ocean Dynamics?

The Ocean Dynamics define and describe the motion of water within the oceans. Ocean temperature and motion fields can be separated into three distinct layers: mixed (surface) layer, upper ocean (above the thermocline), and deep ocean. Ocean dynamics has traditionally been investigated by sampling from instruments in situ.

What is Dredging?

Dredging is the act of removing silt and other material from the bottom of bodies of water. It is a routine necessity in waterways around the world because sedimentation—the natural process of sand and silt washing downstream—gradually fills channels and harbors.

How to Calculate Change of Ebb Tidal Energy Flux across Ocean Bar between Natural and Channel Conditions?

Change of Ebb Tidal Energy Flux across Ocean Bar between Natural and Channel Conditions calculator uses Change in Mean Ebb Tide Flow Energy Flux = ((4*Tidal Period)/(3*pi))*Maximum Instantaneous Ebb Tide Discharge^3*((Depth of Navigation Channel^2-Natural Depth of Ocean Bar^2)/(Natural Depth of Ocean Bar^2*Depth of Navigation Channel^2)) to calculate the Change in Mean Ebb Tide Flow Energy Flux, The Change of Ebb Tidal Energy Flux across Ocean Bar between Natural and Channel Conditions formula is defined as the measure to quantify the change in energy flux due to tidal currents across an ocean bar, when the conditions change from natural to channel conditions. Change in Mean Ebb Tide Flow Energy Flux is denoted by E_ΔT symbol.

How to calculate Change of Ebb Tidal Energy Flux across Ocean Bar between Natural and Channel Conditions using this online calculator? To use this online calculator for Change of Ebb Tidal Energy Flux across Ocean Bar between Natural and Channel Conditions, enter Tidal Period (T), Maximum Instantaneous Ebb Tide Discharge (Q_max), Depth of Navigation Channel (d_NC) & Natural Depth of Ocean Bar (d_OB) and hit the calculate button. Here is how the Change of Ebb Tidal Energy Flux across Ocean Bar between Natural and Channel Conditions calculation can be explained with given input values -> 161.6417 = ((4*130)/(3*pi))*2.5^3*((4^2-2^2)/(2^2*4^2)).

FAQ

What is Change of Ebb Tidal Energy Flux across Ocean Bar between Natural and Channel Conditions?

The Change of Ebb Tidal Energy Flux across Ocean Bar between Natural and Channel Conditions formula is defined as the measure to quantify the change in energy flux due to tidal currents across an ocean bar, when the conditions change from natural to channel conditions and is represented as E_ΔT = ((4*T)/(3*pi))*Q_max^3*((d_NC^2-d_OB^2)/(d_OB^2*d_NC^2)) or Change in Mean Ebb Tide Flow Energy Flux = ((4*Tidal Period)/(3*pi))*Maximum Instantaneous Ebb Tide Discharge^3*((Depth of Navigation Channel^2-Natural Depth of Ocean Bar^2)/(Natural Depth of Ocean Bar^2*Depth of Navigation Channel^2)). Tidal Period is the time taken for a specific site on Earth to rotate from an exact point under moon to same point under moon, also known as “tidal day” and it’s slightly longer than a solar day, Maximum Instantaneous Ebb Tide Discharge per unit width is the tidal phase during which the water level falls & flood tidal phase during which the water level rises, Depth of Navigation Channel is the depth of a passage in a stretch of water where the sea or riverbed has been deepened to allow access to large vessels & Natural Depth of Ocean Bar is the original depth of a sandbar or shoal in the ocean before any human intervention, such as dredging.

How to calculate Change of Ebb Tidal Energy Flux across Ocean Bar between Natural and Channel Conditions?

The Change of Ebb Tidal Energy Flux across Ocean Bar between Natural and Channel Conditions formula is defined as the measure to quantify the change in energy flux due to tidal currents across an ocean bar, when the conditions change from natural to channel conditions is calculated using Change in Mean Ebb Tide Flow Energy Flux = ((4*Tidal Period)/(3*pi))*Maximum Instantaneous Ebb Tide Discharge^3*((Depth of Navigation Channel^2-Natural Depth of Ocean Bar^2)/(Natural Depth of Ocean Bar^2*Depth of Navigation Channel^2)). To calculate Change of Ebb Tidal Energy Flux across Ocean Bar between Natural and Channel Conditions, you need Tidal Period (T), Maximum Instantaneous Ebb Tide Discharge (Q_max), Depth of Navigation Channel (d_NC) & Natural Depth of Ocean Bar (d_OB). With our tool, you need to enter the respective value for Tidal Period, Maximum Instantaneous Ebb Tide Discharge, Depth of Navigation Channel & Natural Depth of Ocean Bar 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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