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Phase Lag given Modified Epoch that accounts for longitude and Time Meridian Corrections Formula

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Phase Lag refers to the local epoch in order to distinguish it from other forms of epochs. Check FAQs
k=κ'-pL+(aLMT15)
k - Phase Lag?κ' - Modified form of the Epoch?pL - Local and Greenwich Phase Arguments?a - Wave Amplitude?LMT - Local Time Meridian?

Phase Lag given Modified Epoch that accounts for longitude and Time Meridian Corrections Example

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Here is how the Phase Lag given Modified Epoch that accounts for longitude and Time Meridian Corrections equation looks like with Values.

Here is how the Phase Lag given Modified Epoch that accounts for longitude and Time Meridian Corrections equation looks like with Units.

Here is how the Phase Lag given Modified Epoch that accounts for longitude and Time Meridian Corrections equation looks like.

185.2Edit=9Edit-11Edit+(1.56Edit0.5Edit15)
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Phase Lag given Modified Epoch that accounts for longitude and Time Meridian Corrections Solution

Follow our step by step solution on how to calculate Phase Lag given Modified Epoch that accounts for longitude and Time Meridian Corrections?

FIRST Step Consider the formula
k=κ'-pL+(aLMT15)
Next Step Substitute values of Variables
k=9-11+(1.56m0.5h15)
Next Step Convert Units
k=9-11+(1.56m1800s15)
Next Step Prepare to Evaluate
k=9-11+(1.56180015)
LAST Step Evaluate
k=185.2

Phase Lag given Modified Epoch that accounts for longitude and Time Meridian Corrections Formula Elements

Variables
Phase Lag
Phase Lag refers to the local epoch in order to distinguish it from other forms of epochs.
Symbol: k
Measurement: NAUnit: Unitless
Note: Value can be positive or negative.
Formulas to find Phase LagOpen Variable
Modified form of the Epoch
Modified form of the Epoch is an adjustment to the standard epoch to account for local conditions and to improve the accuracy of tidal predictions.
Symbol: κ'
Measurement: NAUnit: Unitless
Note: Value can be positive or negative.
Formulas to find Modified form of the EpochOpen Variable
Local and Greenwich Phase Arguments
Local and Greenwich Phase Arguments refers to the phase of a tidal constituent at a specific location relative to the local time.
Symbol: pL
Measurement: NAUnit: Unitless
Note: Value should be greater than 0.
Formulas to find Local and Greenwich Phase ArgumentsOpen Variable
Wave Amplitude
Wave Amplitude is a measurement of the vertical distance of the wave from the average.
Symbol: a
Measurement: LengthUnit: m
Note: Value can be positive or negative.
Formulas to find Wave AmplitudeOpen Variable
Local Time Meridian
Local Time Meridian is a reference meridian used for a particular time zone and is similar to the Prime Meridian, which is used for Greenwich Mean Time.
Symbol: LMT
Measurement: TimeUnit: h
Note: Value can be positive or negative.
Formulas to find Local Time MeridianOpen Variable

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How to Evaluate Phase Lag given Modified Epoch that accounts for longitude and Time Meridian Corrections?

Phase Lag given Modified Epoch that accounts for longitude and Time Meridian Corrections evaluator uses Phase Lag = Modified form of the Epoch-Local and Greenwich Phase Arguments+(Wave Amplitude*Local Time Meridian/15) to evaluate the Phase Lag, The Phase Lag given Modified Epoch that accounts for longitude and Time Meridian Corrections formula is defined as the forms of epochs Some harmonic analyses use a modified form of the epoch that automatically accounts for the longitude and time meridian corrections. Phase Lag is denoted by k symbol.

How to evaluate Phase Lag given Modified Epoch that accounts for longitude and Time Meridian Corrections using this online evaluator? To use this online evaluator for Phase Lag given Modified Epoch that accounts for longitude and Time Meridian Corrections, enter Modified form of the Epoch (κ'), Local and Greenwich Phase Arguments (pL), Wave Amplitude (a) & Local Time Meridian (LMT) and hit the calculate button.

FAQs on Phase Lag given Modified Epoch that accounts for longitude and Time Meridian Corrections

What is the formula to find Phase Lag given Modified Epoch that accounts for longitude and Time Meridian Corrections?
The formula of Phase Lag given Modified Epoch that accounts for longitude and Time Meridian Corrections is expressed as Phase Lag = Modified form of the Epoch-Local and Greenwich Phase Arguments+(Wave Amplitude*Local Time Meridian/15). Here is an example- 185.2 = 9-11+(1.56*1800/15).
How to calculate Phase Lag given Modified Epoch that accounts for longitude and Time Meridian Corrections?
With Modified form of the Epoch (κ'), Local and Greenwich Phase Arguments (pL), Wave Amplitude (a) & Local Time Meridian (LMT) we can find Phase Lag given Modified Epoch that accounts for longitude and Time Meridian Corrections using the formula - Phase Lag = Modified form of the Epoch-Local and Greenwich Phase Arguments+(Wave Amplitude*Local Time Meridian/15).
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