Logitude

[RichardS]

Ca anyone remember the question?

The question is "Was the line set by the sun" and the answer was given in post #5.

Richard

 

[GHA]

Ca anyone remember the question?

 

[Hydrozoan]

The choice was between Greenwich and Paris.
The conclusion was that while sailors were happy with having 'GMT' I don't think that there were many who were looking forward to having to live with 'PMT' all their life...

But your fear is narrowly Anglophone - in the French it would I think be exactly the reverse: TMP, Temps Moyen à Paris.

 

[macd]

Just did a forum search and apparently not.

Then he's done a runner, so obviously nothing wrong with his traction.
(There definitely was an Articpilot until quite recently. Well, as definitely as my memory permits.)

 

[Graham_Wright]

But in this case time is derived from longitude. In the sense that you have local time everywhere (noon when the sun is overhead,

What I was fishing for was - Once it had been decided that a global meridian was needed, was it plonked down in Greenwich at a declared longitude of zero at the sun's highest altitude and then clocks set to 1200? Or was it the other way round?

Thereafter LHA would give angular distance from this meridian.

 

[macd]

What I was fishing for was - Once it had been decided that a global meridian was needed, was it plonked down in Greenwich at a declared longitude of zero at the sun's highest altitude and then clocks set to 1200? Or was it the other way round?

Thereafter LHA would give angular distance from this meridian.

Wouldn't it have been plonked down in Greenwich at a declared longitude of zero and it then declared that when the sun was at its zenith on that meridian it was noon GMT?

 

[Graham_Wright]

Wouldn't it have been plonked down in Greenwich at a declared longitude of zero and it then declared that when the sun was at its zenith on that meridian it was noon GMT?

That's what I was looking for confirmation of.

 

[AntarcticPilot]

So time was set to the line?

GHA and all that.

No, Greenwich Mean Time is the average time at the location of the brass strip. Mean because of differences between solar and sidereal time cause by the ellipticity of the Earth's orbit round the sun.

As I said, this is how it USED to be defined, and is still the way it is assumed to be for celestial navigation. But the definition these days is in terms of a model derived from a network of VLBI stations, primarily.

 

[macd]

That's what I was looking for confirmation of.

What other rational alternative is there? The time sets itself (solar noon). Surely the only variable is the reference position?

 

[TLouth7]

That's what I was looking for confirmation of.

I hope you now have it

 

[Graham_Wright]

What other rational alternative is there? The time sets itself (solar noon). Surely the only variable is the reference position?

Ah - that depends where you are! ……………and that was the point of the question.

 

[[70521]]

But with reference to what?

All the primary meridian is a reference point. A bit like "Aries".

 

[Graham_Wright]

I hope you now have it

Yes - as I assumed.

I assumed the reason I could not find a zero difference between noon and the GHA was because either the original fix was inaccurate (inevitable eventually) or the earth is still wobbling (it is).

The nearest I found this year was April 16 which showed a 3' angular difference.

 

[LittleSister]

I assumed the reason I could not find a zero difference between noon and the GHA was because either the original fix was inaccurate (inevitable eventually) or the earth is still wobbling (it is).

The nearest I found this year was April 16 which showed a 3' angular difference.

Does that mean longitude has be given some, er, latitude?

 

[Skylark]

Never seen this before. Not sure that I fully understand it. Can you please add the missing X axis and explain its use/interpretation in relation to the Equation of Time? (and possibly to the latitude of the observer).

 

[TLouth7]

This is the analemma, it shows the difference in position of the Sun from the mean on a given day and time. The x-axis is deviation of the apparent longitude, equivalent to deviation of apparent time.

The standard graph for equation of time has the x-value of this plotted (on the y-axis) against time of year. This makes sense because latitude of the Sun is not relevant to time (longitude) calculations.

 

[GHA]

Never seen this before. Not sure that I fully understand it. Can you please add the missing X axis and explain its use/interpretation in relation to the Equation of Time? (and possibly to the latitude of the observer).

If you do a time lapse photo snapping once a day at UTC noon every day for a year it will look something like that

 

[Skylark]

This is the analemma, it shows the difference in position of the Sun from the mean on a given day and time. The x-axis is deviation of the apparent longitude, equivalent to deviation of apparent time.

The standard graph for equation of time has the x-value of this plotted (on the y-axis) against time of year. This makes sense because latitude of the Sun is not relevant to time (longitude) calculations.

Many thanks for taking the time to respond.

Still sufficiently intrigued, I’ve just looked at Bowditch and the Nautical Almanac. Bowditch doesn’t refer to the analemma per se but there a couple of sections on Equation of Time.

Looking at the Almanac, I can now see that the X axis is time/longitude. Early November would be 16 minutes of time (EoT is 11h44) and early Feb would be 14 minutes of time (EoT is 12h14). I don’t quite get the relevance of your second paragraph. I’ve just plotted the analemma x axis as a y axis with time of year (mid month) as its x axis. But doesn’t time of year equate to declination? I’m not following what you’re trying to tell me, sorry.

What is the purpose of these two graphs? For what are they used?

 

[TLouth7]

What is the purpose of these two graphs? For what are they used?

If you look at the Wikipedia article for equation of time you will see a graph of deviation between sundial time and mean solar time:
https://en.wikipedia.org/wiki/Equation_of_time

This graph is a bit like the analemma but rather than lat vs long (x) it shows long against time of year (x). Note how the peak in this graph in Feb corresponds to the right-most point on the analemma.

These are/were relevant to mariners because if you find local noon on a given day you need to correct by some amount (as per the graph) to get mean local time, to then compare against GMT*. If you don't care about the Sun's latitude then the EoT graph is more convenient (or more likely tables in an almanac).

*Whether you apply the correction to local time or GMT, or work in angles is not important to the fundamental relation.

 

[Skylark]

Thanks for the additional explanation, TLouth7, much appreciated.