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Thanks very much for a most interesting post and details of this free software.

I wanted to pick up one partular point:

Cruiser1 wrote wrote:
Note that Campanus is the standard house system most similar to 3D houses. Campanus houses are defined by the intersection of the ecliptic with the 12 house "orange wedges". That means Campanus houses and 3D houses give the same house placements for planets exactly on the ecliptic. Since most planets are near the ecliptic, and it's only things like asteroids and especially fixed stars that are located any significant distance from it, Campanus houses can be used as a rough approximation for 3D houses.
So am I right in thinking that just like Campanus the focus is to divide up the prime vertical in relation to to the ecliptic? In particular the Campanus house system divides the celestial space above and below the horizon like an orange into twelve equal segments. The 'axis' of the 'orange' lies on the horizon and is aligned from north to south. So, the division into twelve segments happens on the 'prime vertical', i.e. the great circle that runs through the East point, the zenith, the West point and the nadir. The places where the segments or 'slices' of the 'orange' intersect the zodiac, make up the Campanus house cusps.The Campanus system divides space and is therefore considered a space-oriented house system or to use your language a 3D system. The idea originated in European astrology with the Italian mathematician Campanus of Novara (1220-1296). But i believe it was originally proposed much earlier in Perso-Arabic astrology. In her book on the houses Deborah Houlding also mentioned that some astrologers (in particular Prudence Jones) have speculated that the Roman 1st century astrologer Manilius may have been describing this system. Deborah Houlding clearly supports this view in her book:
Certainly from Manilius's text we have evidence that the original concept of houses was based upon a division of the local mundane sphere of the observer, which was determined by the circles of the local horizon, local meridian and prime vertical, in a manner that was similar to how the ancient Babylonian priests quartered and then further divided their other tools of omen analysis.
However, this claim remains controversial and is disputed by other astrologers writing on ancient astrology. In particular those astrologers arguing whole sign houses were the original template for all later house systems.

Leaving aside the historical debate though a practical issue concerning the Campanus system is that the house cusps tend to fold in together at northern latitudes long before you get up to the poles. The system is much more prone to this than any other quadrant system. So excluding the historical, philosophical or astronomical arguments for or against any particular house system this is the practical difficulty I have with this kind of approach. From my location on the planet this is not just a theoretical objection! If the logic is similar in ''3D houses'' I am wondering if they suffer from the the same practical difficulty as Campanus houses do?

Thanks

Mark
Last edited by Mark on Wed Nov 08, 2017 3:13 pm, edited 1 time in total.
As thou conversest with the heavens, so instruct and inform thy minde according to the image of Divinity William Lilly

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Image
Mark wrote:So am I right in thinking that just like Campanus the focus is to divide up the prime vertical in relation to to the ecliptic? In particular the Campanus house system divides the celestial space above and below the horizon like an orange into twelve equal segments. The 'axis' of the 'orange' lies on the horizon and is aligned from north to south. So, the division into twelve segments happens on the 'prime vertical', i.e. the great circle that runs through the East point, the zenith, the West point and the nadir. The places where the segments or 'slices' of the 'orange' intersect the zodiac, make up the Campanus house cusps.The Campanus system divides space and is therefore considered a space-oriented house system or to use your language a 3D system.
Yes, the above is all true. :) See the picture above from the page http://www.quadibloc.com/other/as01.htm for a graphical depiction of Campanus houses. However, remember that only "3D houses" fully uses the orange wedge model of space to determine house placement. If a planet is anywhere within the 12th house orange wedge on the local horizon, then 3D houses places it in the 12th house. Campanus houses starts with the orange wedge model to determine where the ecliptic intersects each house, however once determined then Campanus becomes a standard house system like any other, in which a planet changing its ecliptic latitude will never change its house placement.
Mark wrote:Leaving aside the historical debate though a practical issue concerning the Campanus system is that the house cusps tend to fold in together at northern latitudes long before you get up to the poles. If the logic is similar in ''3D houses'' I am wondering if they suffer from the the same practical difficulty as Campanus houses do?
"3D houses" doesn't suffer from any polar zone issues. :' All houses cover an equal percentage of space of the local horizon, or 1/12 of the celestial sphere, and this is true no matter where on the world you're positioned.

It is true that Campanus houses (like all quadrant based house systems) tend to pinch houses together and make them smaller as you approach the poles. That is because when nearer the poles the Asc and MC become closer together (or closer to 180 degrees apart). At extreme latitudes, some house systems become undefined (like Placidus and Koch), or have strange effects once the Sun is set 24 hours a day, which means that the ecliptic intersects the south meridian below the horizon. Some house systems (like Campanus, Regiomontanus, and Topocentric) have house cusps progress backwards through the zodiac in this case. But again, none of that weirdness applies or is a concern to 3D houses, because 3D houses look at the actual wedge of space on the local horizon, and don't try to force houses to be defined as between two zodiac locations along the ecliptic.
Astrolog 7.60 freeware downloads: http://www.astrolog.org/astrolog.htm :)

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Cruiser1 wrote:
3D houses" doesn't suffer from any polar zone issues. Thumbs up All houses cover an equal percentage of space of the local horizon, or 1/12 of the celestial sphere, and this is true no matter where on the world you're positioned.
Now you really are intriguing me! In my experience every house system has its merits and downside. All conventional house systems-Placidus, Regiomontanus, Alcabitius, Whole Sign, Equal, Koch, Topocentric, Porphyry, Sripati, are challenged at polar zones.

Its not just the issue of the ASC and MC becoming closer together as you approach the poles. Equal and whole sign houses also fail to work in polar zones. As we get to the poles some signs fail to rise at all while others take up more and more ascensional rising time. So this challenges conventional horoscopic astrology.

Arguably this isn't a failure of these house systems but simply a reflection of astronomical reality and how the ecliptic interacts with the earth at higher latitudes.

There are of course some house systems can be used at the poles. But like everything in life they come at a price! So to avoid the issue of polar zones something has to be sacrificed.

For example the Meridian house system which is popular with Uranian astrologers can be used at the poles. But this is because it replaces the ascendant with the East Point. Also known as the Axial system, or Equatorial system, it divides the celestial equator into twelve 30° sectors (starting at the local meridian) and projects them on to the ecliptic along the great circles containing the North and South celestial poles.

Another house system that can be used in polar regions is the so called Morinus House system which was proposed by Jean-Baptiste Morin (1583-1656), known as Morinus. The Morinus system uses great circles that pass through the poles of the ecliptic and through points that are spaced at 30-degree intervals along the Celestial Equator, beginning with the intersection of the Celestial Equator and the East Point. The cusps are determined by the intersections of these great circles and the ecliptic. The lunes of the houses are not of equal size. The MC is not the same as the 10th cusp. The ascendant is not the same as the 1st cusp. The great circle for the 1st house passes through the east point of the horizon.

Am I right in thinking you have side stepped the polar problem by adopting a similar kind of solution?

Cruiser 1 wrote:
It is true that Campanus houses (like all quadrant based house systems) tend to pinch houses together and make them smaller as you approach the poles. That is because when nearer the poles the Asc and MC become closer together (or closer to 180 degrees apart). At extreme latitudes, some house systems become undefined (like Placidus and Koch), or have strange effects once the Sun is set 24 hours a day, which means that the ecliptic intersects the south meridian below the horizon. Some house systems (like Campanus, Regiomontanus, and Topocentric) have house cusps progress backwards through the zodiac in this case. But again, none of that weirdness applies or is a concern to 3D houses, because 3D houses look at the actual wedge of space on the local horizon, and don't try to force houses to be defined as between two zodiac locations along the ecliptic.
Yes. I am aware of all this. My point about Campanus at higher latitudes was quite specific. Basically Campanus becomes unworkable at higher latitudes much earlier than any other quadrant system I am aware of.
As thou conversest with the heavens, so instruct and inform thy minde according to the image of Divinity William Lilly

3-D Houses

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Thanks for highlighting the new release of Astrolog. It is great to have a new enhanced version of this program. I've been a fan of Astrolog for a long time and it has some really useful new features. I like the spherical representation of the 'chart'. However I am confused about what the house system shown on the sphere represents. I like to use Porphyry as a quadrant system. However when I calculate a chart using Porphyry houses, it is shown correctly in the chart wheel but the cusps don't seem to be shown correctly in the sphere. This seems to be because the house system (Campanus?) shown in the sphere has the poles of the house cusps on the north and south point of the horizon. In Porphyry the poles of the houses are the north and south ecliptic pole. These points are clearly shown on the Astrolog sphere as the points where the zodiac sign cusps converge.

In my mind all house systems are 3-D because all are formed not only from ecliptic degrees but two poles, which may be the north and south poles of the horizon (Campanus, Regiomontanus and others), the north and south poles of the equator (Alcabitius, Meridian) or the north and south poles of the ecliptic (Porphyry, Morinus, Equal, Whole and others). One of the advantages of Porphyry is that it eliminates the problem of latitude error because all cusps are lines of celestial longitude, running through the ecliptic degree marking the cusp from the north celestial pole to the south celestial pole. It is also one of the quadrant systems that definitely works at all latitudes. This is because it simply trisects the ecliptic between Ascendant and Mc and Ic and Ascendant. This can be easily done at all latitudes. The other quadrant system that works at all latitudes is Alcabitius. However Alcabitius will suffer from latitude error (misplacing planets in the wrong houses). Porphyry has the particular advantage of always showing the correct house placement for each point whether displayed in the wheel or the sphere.

Later edit - I can see what's going on now. The cusps are marked with the house number on the ecliptic, but the green lines (Campanus cusps) don't intersect with the points on the ecliptic except when the user chooses to use this particular house system. I am not clear why Campanus should be favoured as the best house system for spherical representation. Most house systems can be represented in this way. I think it might be useful and helpful if the various house systems are programmed to be represented on the sphere. Where the user chooses Campanus, then they would see the sphere as it is currently shown. However as somebody who favours an alternative system I would really value being able to see the cusps actually drawn on the sphere. This should be very easy for most of the major systems even in polar regions.

What is interesting about the program when charting in polar regions is that the MC is shown below the horizon in the south (which, in my view, is the way it should be shown) but becomes the cusp of the 4th house. The IC, although above the horizon, becomes the cusp of the 10th. There is a logic of sorts to this in polar regions. It is certainly preferable to swapping the MC for the IC to keep the midheaven above the horizon.

The following image shows the Sun at Noon (actually 11:45am) on Thursday 9 November 2017, set for a fictional place in the arctic at 00:00E and 80:00N. The sun is shown clearly on the MC but below the horizon due south of the place, at its minimum zenith distance - the point in the day at which it won't get any closer to the zenith. The Sun's altitude is approximately -7 or -8 degrees below the horizon; it's corresponding zenith distance is around 97 or 98 degrees (the south point of the horizon being 90 degrees from the zenith by definition).
Image
The next image shows the IC above the horizon as the cusp of the 10th house due north of the place. The degree of the IC is at its maximum zenith distance (furthest from the zenith) - twelve hours later this degree will be the MC above the horizon and at a higher altitude. The altitude of the degree of the IC is approximately 7 or 8 degrees; its zenith distance is 82 or 83 degrees.

This way of representing the MC and the IC is the obvious solution to the problem of house systems such as Campanus and Regiomontanus, which use the north and south poles of the horizon as the poles on the house cusps.
Image
By definition, the tenth house cusp in these systems must run from the south to north poles of the horizon through the zenith and the fourth cusp must run from these poles through the nadir. This gives rise to the problem of the subterranean MC for these systems as the MC degree coincides with the fourth house cusp when it is below the horizon as shown in the first image above.

Here is the situation on the same day twelve hours later (11:45PM, 23:45Hours). The Sun is shown clearly on the IC below the horizon as it should be at midnight (or close to midnight). The Sun is now at its maximum distance from the zenith marking the middle of the night. The Sun at this time is at an altitude of approximately -27 or -28 degrees, at its maximum zenith distance during the day (zenith distance is 90+27/28 degrees being 117 or 118 degrees).
Image
The degree of the IC at noon has now come to the MC twelve hours later, at its closest approach to the zenith. The altitude of the degree is now around 27 or 28 degrees; its zenith distance is 62 or 63 degrees. This is exactly as it should be. The midheaven degree at any particular time should be the degree that is making its closest approach to the zenith in the course of its diurnal cycle. This means that a degree can be both below the horizon and on the midheaven as in the example shown here and illustrated in the first image above.
Image
In my view it is quite incorrect to reverse the IC and MC for systems such as Campanus, when the MC degree is below the horizon, because it leads to incongruities such as one degree forming two midheavens in the course of the day, and the sun at midnight becoming a quasi-noon to keep the MC above the horizon at any cost. It is encouraging to see the real situation made clear in the Astrolog spherical chart.

However, in my view, the problem is eliminated with Porphyry or Alcabitius in polar regions because these systems use alternative poles - in the case of Porphyry, the 10th house cusp runs from the north ecliptic pole, through the MC (whether above or below the horizon) to the south ecliptic pole. Hence, the MC can both be below the horizon and the cusp of the tenth in this system.

Readers may wish to review my piece on the The Definition of the MC and also these two articles touching on the same subject matter:

Definition of the Ascendant

and

The Ascendant in Polar Latitudes.

Anyway, it's great to see a new version of the program. A brilliant effort.
"...the motions that are akin to the divine in us are the thoughts and revolutions of the universe."

Plato, Timaeus, 90.

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Mark wrote:As we get to the poles some signs fail to rise at all while others take up more and more ascensional rising time. So this challenges conventional horoscopic astrology. Arguably this isn't a failure of these house systems but simply a reflection of astronomical reality and how the ecliptic interacts with the earth at higher latitudes.
Thank you for your continued consideration and discussion. :) Indeed, at high latitudes there are times during the day when the ecliptic becomes flush with the horizon. That causes the Ascendant to jump 180 degrees, and marks a period when the MC or intersection of the ecliptic and meridian dips below the horizon. Yes, near the poles some signs won't ever rise (or rather, the intersection of the ecliptic and horizon won't ever be in certain signs). That's expected because the Sun is continually above or below the horizon at that time of year, and therefore zodiac degrees near the Sun on the ecliptic aren't ever going to intersect the horizon. Similarly, when the ecliptic is near the horizon, it's expected for most planets (which are on or near the ecliptic) to spend the majority of their time near the horizon, and therefore in houses 1/12 or 6/7, and to rapidly pass through the other houses near noon or midnight. That's indeed astronomical reality, so if an astrologer can accept that, then they should be able to accept the behavior of their house system.
Mark wrote:Am I right in thinking you have side stepped the polar problem by adopting a similar kind of solution?
3D houses doesn't really "side step" the problem. Instead it uses a new 3D model in which the problem doesn't exist in the first place. 8) 3D houses only needs to look at the orange wedges slices of space in the local horizon. 3D houses effectively disregard the ecliptic altogether, and don't care how its currently oriented in the sky. 3D houses doesn't even have "house cusps" in the traditional sense that can be defined by a single zodiac position, because planetary latitude can change 3D house placement.

Meridian and Morinus houses may use alternative math to pick their house cusps, but afterwards they're still a standard house system like all the others. In other words, they still use and define house cusps as positions along the ecliptic, and disregard planetary latitude when determining house placement. Meridian, Morinus, and all standard house systems suffer from issues such as having planets or stars below the horizon being placed in houses 7-12, or planets east of the meridian being placed in houses 4-9.
Mark wrote:Equal and whole sign houses also fail to work in polar zones. My point about Campanus at higher latitudes was quite specific. Basically Campanus becomes unworkable at higher latitudes much earlier than any other quadrant system I am aware of.
How do these house systems fail to work in polar zones? Equal, Whole, and Campanus houses are defined at all latitutes and all times, and always produce house cusp positions that can be used and displayed. That's no different from when nearer to the equator. Of course, one may not like the house cusps positions produced, and may judge them to be astrologically inaccurate, but that's a different issue. ;)

The only house systems that truly fail to work in polar zones are Placidus and Koch, which aren't defined inside the Antarctic and Arctic Circles, and require choosing a different house system in such a scenario.
Mark wrote:There are of course some house systems can be used at the poles. But like everything in life they come at a price! So to avoid the issue of polar zones something has to be sacrificed.
3D houses can be used at the poles. It's "price" is that it requires looking at the latitude of a planet in addition to its zodiac longitude, to correctly determine what house it's in. The benefit can be considered astrological accuracy. When using 3D houses, for all planets at all times, the following statements are always true:
  • A planet above the horizon will always be in houses 7-12.
  • A planet below the horizon will always be in houses 1-6.
  • A planet east of the meridian will always be in houses 1-3 or 10-12.
  • A planet west of the meridian will always be in houses 4-9.
  • A planet exactly rising on eastern horizon will always be on boundary between houses 12 and 1.
  • A planet exactly setting on western horizon will always be on boundary between houses 6 and 7.
  • A planet transiting meridian above horizon will always be on boundary between houses 9 and 10.
  • A planet transiting meridian below horizon will always be on boundary between houses 3 and 4.
No standard system of house division can make the above statements true, because they don't take into account planetary latitude.
Astrolog 7.60 freeware downloads: http://www.astrolog.org/astrolog.htm :)

Re: 3-D Houses

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astralwanderer wrote:I am confused about what the house system shown on the sphere represents. This seems to be because the house system (Campanus?) shown in the sphere has the poles of the house cusps on the north and south point of the horizon.
Hello and thank you for your comments and appreciation of Astrolog! :) In Astrolog's chart sphere, if you unrestrict the Asc/MC and house cusp objects, then they will be calculated in whatever standard house system is currently active, and displayed on the sphere at their zodiac position and at zero latitude on the ecliptic. That's the only reason why Campanus houses may be preferred when displaying the sphere, because with Campanus the house cusp objects happen to align with the sphere's 3D house boundaries when on the ecliptic. However, remember that with 3D houses, there are no house cusps in the standard sense, or at least house boundaries can't be defined with a single zodiac position. That's where the term "3D houses" comes from, because one needs to take into account planetary latitude in addition to longitude when defining house placement.
astralwanderer wrote:In Porphyry the poles of the houses are the north and south ecliptic pole. In my mind all house systems are 3-D because all are formed not only from ecliptic degrees but two poles, which may be the north and south poles of the horizon (Campanus, Regiomontanus and others), the north and south poles of the equator (Alcabitius, Meridian) or the north and south poles of the ecliptic (Porphyry, Morinus, Equal, Whole and others).
Actually it's not just Porphyry, but all standard house systems are anchored to the north and south ecliptic poles. Some house systems may base their cusp math on alterative poles, but afterwards they're still a standard house system like all the others, using ecliptic poles. In other words, these systems still use and define house cusps as positions along the ecliptic, and disregard planetary latitude when determining house placement. 3D houses is different from any standard house system, because its poles actually are the poles of the horizon, which requires considering planetary latitude in addition to zodiac position when determining what house a planet lies within.
astralwanderer wrote:the green lines (Campanus cusps) don't intersect with the points on the ecliptic except when the user chooses to use this particular house system. I am not clear why Campanus should be favoured as the best house system for spherical representation. Where the user chooses Campanus, then they would see the sphere as it is currently shown. I think it might be useful and helpful if the various house systems are programmed to be represented on the sphere.
The green lines aren't really Campanus cusps. Campanus is a standard house system like the others, and standard Campanus cusps rendered on the sphere would go to the ecliptic poles like all other systems. Instead, the green lines mark the true 3D definitions of houses, which are orange wedges on the local horizon. In other words, 3D houses is different from Campanus houses (although they are equivalent for planets on the ecliptic).

The chart sphere was designed to show 3D houses. I agree, the chart sphere could have an option to draw the house boundaries for standard house systems too. The result would be the blue ecliptic orange wedges and the green house orange wedges would overlap and have the same poles. It's possible to conceive of alternative 3D house systems, which have poles different from the ecliptic, and therefore also require considering planetary latitude (but don't have their poles on the horizon). However, that seems different from the definition of a house in the first place, as a section of space on the local horizon. To quote the previous post, when using 3D houses, for all planets at all times, the following statements are always true:
  • A planet above the horizon will always be in houses 7-12.
  • A planet below the horizon will always be in houses 1-6.
  • A planet east of the meridian will always be in houses 1-3 or 10-12.
  • A planet west of the meridian will always be in houses 4-9.
  • A planet exactly rising on eastern horizon will always be on boundary between houses 12 and 1.
  • A planet exactly setting on western horizon will always be on boundary between houses 6 and 7.
  • A planet transiting meridian above horizon will always be on boundary between houses 9 and 10.
  • A planet transiting meridian below horizon will always be on boundary between houses 3 and 4.
Astrolog 7.60 freeware downloads: http://www.astrolog.org/astrolog.htm :)

Latitude Error

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Hi there - thanks for the response to my post. These are interesting issues for astrologers who are interested in the underpinnings of house systems. However, I don't really follow your reasoning re. latitude error. It's my understanding that it is precisely because house systems such as Campanus and Regiomontanus don't use the poles of the ecliptic for their calculations that the problem of latitude error occurs.

I think what you are trying to say is that the calculation is done with one set of reference points (the poles of the horizon in the case of these two house systems) but then the house boundaries (above and below the ecliptic) are projected through the cuspal degrees on the ecliptic onto the sphere through the poles of the ecliptic.

If this was the case then latitude error (which is, I think, the problem you are trying to resolve) - where a planet is shown at a particular degree of longitude in the birth chart and in a particular house, but is in reality in the neighbouring house because it lies off the ecliptic due to its celestial latitude north or south of the ecliptic - would never be a problem, because every house system would use great circles of celestial longitude as house boundaries. This means that the problem of latitude error would be a false one and there wouldn't be a problem to solve.

Ralph Holden, in his book on house systems (The Elements of House Division) is pretty clear on this issue (pp. 107-111).

He writes:" If a system of house division is employed such that the great circles forming the boundaries of the house lunes pass at right angles through the ecliptic (which can only occur f they also meet at the poles of the ecliptic) then these circles are themselves great circles of celestial latitude (I actually think he means longitude here since circles of celestial latitude north or south of the ecliptic would be small circles parallel to the ecliptic). It is therefore apparent that even when a planet 'has latitude' (i.e. standing north or south of the plane of the ecliptic) its house position will be precisely the same as its zodiacal position, and its distance from the house cusp when measured in zodiacal (or celestial) longitude.

Therefore in all those systems classified as 'Ecliptic' (that is, the Equal House, Porphyry, Natural Graduation, and M-House - also Whole sign) and also the Morinus system (since the poles of the ecliptic are the intersection points for the great circles of the houses), no problem arises in the house position of a planet because of latitude, since it will always all in that house where it is plotted by zodiacal longitude.

However, in any system where the poles of the ecliptic are not the points of intersection of the house circles, a different situation exists when a planet has latitude from the ecliptic. In this case the circles of the houses - since they do not meet at the poles of the ecliptic and therefore cannot intersect the ecliptic at right angles - are not circles of celestial longitude but lie at an angle to them, which becomes greater as the terrestrial latitude of the birthplace increases."

The latitude problem is a real one, because many house systems don't use the poles of the ecliptic to define their three-dimensional cusp boundaries. I don't really agree that the poles are calculated from one set of reference points and then projected through another set of reference points in the way that you describe. I think that if this were the case, and all the major house systems use the poles of the ecliptic in the way that you describe, then the problem of latitude error would not occur and there would be nothing to solve in terms of planets falling in the wrong houses because of their latitude (distance north or south of the ecliptic).

I'll look forward to your reply to this interesting discussion.
"...the motions that are akin to the divine in us are the thoughts and revolutions of the universe."

Plato, Timaeus, 90.

MC as 4th House Cusp

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Hi there - I've been looking again at the astrolog sphere in relation to a 'standard' natal chart, with Porphyry '2d' cusps and Porphyry '3d' cusps. If we alter the time of the chart shown in my earlier posts to 12:00pm (clock time midday), and show the northern quadrant of the sphere, we can see that Uranus is close to the ascendant but above the horizon. This places it in the '3d' twelfth, but in terms of Porphyry it is in the the 1st although above the horizon. (A first house planet in the Porphyry system would generally be below the horizon at most latitudes and times.)
Image
Please click this link to see a full scale version of the image which makes it easier to see the bodily position of Uranus above the horizon.

https://i.imgur.com/Aipz4Nn.png

The following chart wheel without the '3d' option shows Uranus, as expected, in the first house using the Porphyry house system.
Image
With the '3d' option switched on in the following chart wheel, Uranus is shown in the 12th house, showing that it has actually risen bodily (the planet itself is above the horizon), although its ecliptic degree has yet to become the ascendant.
Image
I can see what this concept is trying to achieve now. It's interesting and certainly thought-provoking. It seems that the '3d' cusps are being superimposed on the Porphyry division. We can see this in the sphere image above, where Porphyry houses 1 (ascendant to cusp 2) and 2 (cusp 2 to cusp 3) are encompassed by the 3d twelfth. The cusp of the third Porphyry house coincides with the cusp of the 3d eleventh. The Porphyry third house is divided by the 3d eleventh and tenth. There are also other interesting changes, such as the Sun 'moving' from the Porphyry ninth house (without 3d option) to the cusp of the Porphyry 3d fifth house. The following image shows this clearly.
Image
Readers can verify this by looking at the Porphyry '3d' wheel above.

I am not sure if this is quite the right way to explain what is happening but it makes some sense to me. However, my reservation is that within the Porphyry frame of reference (house cusps calculated on the trisection of the ecliptic between ascendant and IC and between ascendant MC, and these degrees projected through lines of celestial longitude through the poles of the ecliptic) there will, at certain times in polar regions be the potential to have a first house planet above the horizon. This is the case in the example above. Only if we are wedded to the astrological convention of the twelfth house being above the horizon and the first house being below the horizon do we need to make this 3d adjustment.

Thanks again for the responses to my posts. It is good to have a new version of astrolog with these interesting features.

All the best.
"...the motions that are akin to the divine in us are the thoughts and revolutions of the universe."

Plato, Timaeus, 90.

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astralwanderer wrote:With the '3d' option switched on in the following chart wheel, Uranus is shown in the 12th house, showing that it has actually risen bodily (the planet itself is above the horizon), although its ecliptic degree has yet to become the ascendant. It seems that the '3d' cusps are being superimposed on the Porphyry division.
You've found a related 3D houses feature in Astrolog. :) If displaying a standard 2D wheel chart, and you turn on the "3D Houses" setting, then the wheel chart will become "house focused" instead of "sign focused". Standard wheel charts are what I call "sign focused", which means that a planet is plotted within the wheel based only on its zodiac longitude, and its latitude is ignored. If you turn 3D houses on, then the wheel chart will instead become "house focused", which means that the graphical position of where a planet is placed around the wheel will be its proportion through the 3D house (i.e. the planet's proportion through the 3D house or percentage across the prime vertical on the local horizon, will be used to position the planet between the two appropriate house cusps on the wheel). The result will cause planets to seem to move, or even seem to be in a different sign (however they will always be in the right house). That's the reverse of a standard "sign focused" wheel which will always position planets in the right sign (however they may be in the wrong 3D house). If we want a graphical display accurate for both sign and 3D house positions at the same time, then we should switch to the chart sphere.

Note if the house system is Campanus, than turning on "3D Houses" for a wheel chart will result in objects like the Sun and lunar Nodes not moving at all. That's because those objects are on the ecliptic (0 latitude) and as previously seen Campanus houses and 3D houses have the same cusp points for objects on the ecliptic.
astralwanderer wrote:This places it in the '3d' twelfth, but in terms of Porphyry it is in the the 1st although above the horizon. (A first house planet in the Porphyry system would generally be below the horizon at most latitudes and times.) Only if we are wedded to the astrological convention of the twelfth house being above the horizon and the first house being below the horizon do we need to make this 3d adjustment.
Yes, one of the main purposes of 3D houses is to ensure that this astrological convention is followed, and that planets above the horizon are always placed in the 12th house and never in the 1st, and that planets below the horizon are always placed in the 1st house and never in the 12th.

By the way, since you like the Porphyry house system with its trisection of each quadrant, have you seen the "Neo-Porphyry" house system, which I invented back in 1994? It uses a smooth sinusoidal formula to trisect each quadrant instead. It's described more at this page: http://www.astrolog.org/astrolog/astsine.htm
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Last edited by Cruiser1 on Wed Nov 15, 2017 11:51 pm, edited 1 time in total.
Astrolog 7.60 freeware downloads: http://www.astrolog.org/astrolog.htm :)

Thanks

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Hi - thanks for your response. I read your article on neo-Porphyry some time ago. Again it's a very interesting idea. The following graphs are offered for reference. Mark's point about the 'collapse' of Campanus houses at even quite modest latitudes is also a concern for me. However, the following data shows that the difficulties might not quite be quite as challenging as they first seem.

The first graph shows the position of 2087 Mars placements in Placidus houses from the Gauquelin sports data base. Note that the peaks in the 9th and 12th houses (closely approximating the position of Mars in the Gauquelin sectors) are clear to see.
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The second graph shows the same Mars positions plotted using the Campanus system. This division of the sphere means that even at a nominal 47-48 degrees north (the midpoint in latitude of the geographical region in which Gauquelin's collected their data) the preponderance of Mars in the houses around the horizon (1, 12, 6, 7) is clear.
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The following table is interesting. It gives the numbers of Mars placements in each of the critical houses - the ninth and the twelfth - in each of the systems. Although the number of placements in each individual house differs quite significantly, the actual differences between the total house placements in each system is much the same. It seems that the order of statistical significance for the excessive Mars placements for eminent sporting individuals in the ninth (just past culmination) or the twelfth (just after rising), remains more or less the same whether Placidus or Campanus houses are used.
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For comparison, the following graph shows the positions of Mars in each group using the Porphyry system.
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The table below shows the data for Porphyry placements:
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Again, although the numbers of Mars placements in each house varies between this system and the others, the overall differences are much the same. Statistically, Porpyry and Campanus offer the same degree of significance (or greater) than Placidus/Gauquelin divisions of the sphere.

The Gauquelin positions are listed under the heading 'Experimental'.

Thanks.
"...the motions that are akin to the divine in us are the thoughts and revolutions of the universe."

Plato, Timaeus, 90.

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Anyone got a time/date/location for one of these polar charts that breaks down in, say, Placidus?

For some interesting reading on the subject, see Mike Wackford's series of articles on charts in the polar regions: http://www.skyscript.co.uk/polar1.html

I don't know how much time I'll have to engage in this thread. But I was using what you're calling "3D" Campanus in the mid-70's, hand drafting them using Art Blackwell's "Polar-Azimuthal" projection. Any house system that has a well-defined concept of domification and "mundo" position can be represented the way that Campanus has been in the new version of astrolog. That includes Placidus, Campanus, Regiomontanus and Svarogich. Others are more questionable. See which ones have been used for primary directions - that will give you an idea of the feasibility.

As an aside, I consider these representations as "2D" - two astronomical coordinates are represented. Conventional charts are 1D - only the "longitudinal" coordinate is represented.

Finally, an astrological koan that is related to the polar failure apparition: What if domification and ecliptic views are simply that - two different ways of viewing the astrological state of an event? What if they do not necessarily need to be forced into a unitary synthesized format to do astrology? What if each represents a distinct dimension of astrological meaning?

Ah well, it's "deja vu all over again" as Americans say!

- Ed

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EdF wrote:....

Finally, an astrological koan that is related to the polar failure apparition: What if domification and ecliptic views are simply that - two different ways of viewing the astrological state of an event? What if they do not necessarily need to be forced into a unitary synthesized format to do astrology? What if each represents a distinct dimension of astrological meaning?

....

- Ed
Hi, Ed. Can you say in layperson's (i. e., lay astrologer's) terms what would be the logical outcome for interpreting a nativity, of viewing domification and ecliptic views as offering different dimensions of astrological meaning, compared with what we do now?