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assumed longitude
#1
Gentlemen,

Quite recently  I've identified little (  maybe ;>) problem, I ignored for a long time. Let  me make it short and concise:

Working on LOP  for a star.  To find LHA to use in Pub.229, vol. 3  input,  I need to add GHA Aries to  SHA of the star and subtract DR longitude.  Well, as you know, to get  the whole number for LHA I need to  use the assumed longitude.  
And this is where I  found a little problem.:

Depending on the order of adding and subtracting,  the  magnitude of assumed longitude  is changing.    In minutes, of course.  But still is changing.

The example:

 GHA Aries-  212-05.7
SHA of the star 146-09.1
Dr Longitude- 41-50w.

Now,  to get LHA  I add  212--05.7 + 146-09.1= 358-14.8

LHA of the star= 358-14.8  - 41-14.8= 317.

Assumed longitude is 41-14.8.

But,  if  I do  it slightly different,

GHA Aries-  DR  Assumed longitude= 212-05.7  - 41-05.7= 171
171 + SHA of the star = 171+ 146-09.1= 317-09.1.=LHA.  I can round it to 317.

  But in this case  assumed longitude is 41-05.7.  Not 41-14.8  like in the above.

And my question is: What assumed longitude to take? Because the difference is NOT zero.

Please, enlighten me.

Thank you.
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#2
Rumata,

Conceptually you are not wrong to think that the order in which you do your sums should make any difference to the outcome.

If you used a calculator or computer program to do the sight reduction, which do not require a whole degree LHA, you could use  your DR position unmodified in either method. Then either way you would have gotten the same LHA star and a calculated altitude and azimuth from your DR position.

conventional way:


GHA Aries 212° 05.7'
SHA star 146° 09.1'
GHA star 358° 14.8'
DR lon 41° 50.0'
LHA star 316° 24.8'


unconventional way:


GHA Aries 212° 05.7'
DR Long 41° 50.0'
LHA Aries 170° 15.7'
SHA star 146° 09.1'
LHA star 316° 24.8'


Here you can see that mathematically the sums are the same.

BUT

Your results differ because you have selected different longitude AP positions for each case. Neither of these are your actual position, but rather contrived to make the operation in which you apply them come out to a whole degree angle with no minutes and tenths.

You need the LHA of the star from your AP to be a whole degree to use the tables. That is because for the sake of compactness the tables only list solutions for navigation triangles with whole degree LHA's, not because the underlying math needs a whole degree angle LHA

In your second (unconventional) method you are you are trying to sum all the pertinent angles but you are not using the same angles as the first (conventional) method because you changed the AP. And while this unconventional AP results in a whole degree solution for your LHA Aries, it could never result in a whole degree solution for the LHA of the star unless the star happened to have a SHA with no minutes and tenths.

I hope this helps to clear things up for you.



Lastly, and this is just being nit-picky, doing the example the conventional way results in a difference of longitude from your DR to your AP greater than 30.0 arc minutes:

41° 50.0' – 41° 14.8' = 0° 35.2'        LHA = 317°

You should update your AP longitude to 42° 14.8' W and then the LHA becomes 316°.

42° 14.8' – 41° 50.0' = 0° 24.8'         LHA = 316°

Although either set of numbers will give you a legitimate LOP the second set of numbers will give you a shorter intercept and the answer that matches the exam, if you are taking one.
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#3
(10-07-2023, 07:41 PM)PeterBPeter,  thank you!   And no,  I  don't do it for the exam.  I prefer to use tables and , as you've mentioned, need the whole degrees of LHA.   And your explanation is good and helpful.  Using the pure logic  I supposed to subtract SHA  first and assumed longitude second, because the GHA Aries and  SHA of the star  are part of the star coordinate ( I am using this term loosely), the same way as the GHA and LHA we use to specify, et say,  Sun position.  I usually subtract SHA first and do evrything else with assumed longitude later.  But then  I found out the result of fix can be different, because azimuth angle can be slightly different ( not too much)  and  LOP eventually will be different.  Yes,  I know, that the usage of a calculator eliminate these problem,  but quite recently I did some random calculation and to my horror , when I clicked on PI- I got 2.78.  It was HP calculator.  Well, second time it was correct  but  I prefer paper and pencil.  As my doctor says:  Age-related. Thanks again, Peter! Wrote: Rumata,

Conceptually you are not wrong to think that the order in which you do your sums should make any difference to the outcome.

If you used a calculator or computer program to do the sight reduction, which do not require a whole degree LHA, you could use  your DR position unmodified in either method. Then either way you would have gotten the same LHA star and a calculated altitude and azimuth from your DR position.

conventional way:


GHA Aries 212° 05.7'
SHA star 146° 09.1'
GHA star 358° 14.8'
DR lon 41° 50.0'
LHA star 316° 24.8'


unconventional way:


GHA Aries 212° 05.7'
DR Long 41° 50.0'
LHA Aries 170° 15.7'
SHA star 146° 09.1'
LHA star 316° 24.8'


Here you can see that mathematically the sums are the same.

BUT

Your results differ because you have selected different longitude AP positions for each case. Neither of these are your actual position, but rather contrived to make the operation in which you apply them come out to a whole degree angle with no minutes and tenths.

You need the LHA of the star from your AP to be a whole degree to use the tables. That is because for the sake of compactness the tables only list solutions for navigation triangles with whole degree LHA's, not because the underlying math needs a whole degree angle LHA

In your second (unconventional) method you are you are trying to sum all the pertinent angles but you are not using the same angles as the first (conventional) method because you changed the AP. And while this unconventional AP results in a whole degree solution for your LHA Aries, it could never result in a whole degree solution for the LHA of the star unless the star happened to have a SHA with no minutes and tenths.

I hope this helps to clear things up for you.



Lastly, and this is just being nit-picky, doing the example the conventional way results in a difference of longitude from your DR to your AP greater than 30.0 arc minutes:

41° 50.0' – 41° 14.8' = 0° 35.2'        LHA = 317°

You should update your AP longitude to 42° 14.8' W and then the LHA becomes 316°.

42° 14.8' – 41° 50.0' = 0° 24.8'         LHA = 316°

Although either set of numbers will give you a legitimate LOP the second set of numbers will give you a shorter intercept and the answer that matches the exam, if you are taking one.
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