Monday, May 28, 2018

BitCoin vs Number of Up Closes (last 30 days) | At or Near Major Low

Three more down closes and the indicator at 10 would fit the pattern.

S&P 500 Index vs Lunar Declination and Lunar Latitude | June 2018


Recent and upcoming events:

May 27 (Sun) 00:44 = MOO Lat @ Max
May 29 (Tue) 10:22 = Full Moon
Jun 01 (Fri) 03:12 = MOO Dec @ Min
Jun 03 (Sun) 08:38 = MOO Lat @ 0
Jun 08 (Fri) 13:20 = MOO Dec @ 0
Jun 10 (Sun) 12:01 = MOO Lat @ Min
Jun 13 (Wed) 15:41 = New Moon
Jun 14 (Thu) 20:57 = MOO Dec @ Max
Jun 16 (Sat) 13:51 = MOO Lat @ 0
Jun 21 (Thu) 04:07 = MOO Dec @ 0
Jun 23 (Sat) 03:27 = MOO Lat @ Max
Jun 28 (Thu) 00:54 = Full Moon
Jun 28 (Thu) 10:26 = MOO Dec @ Min
Jun 30 (Sat) 12:44 = MOO Lat @ 0
Jul 05 (Thu) 22:01 = MOO Dec @ 0

[all times calculated for New York City =  EST/EDT]

Sunday, May 27, 2018

Russel 2000 Index and DAX vs 4 Lunar Month Cycle

Given the polarity of this correlation persists beyond the Full Moon on May 29 (Tue = SoLunar Turn-Day),
the bias for next week is negative. If the polarity flips, the low of the week should be Tuesday.

SoLunar Map | June - July 2018

Upcoming SoLunar Turn-Days are:
May 29 (Tue), Jun 02 (Sat), Jun 06 (Wed), Jun 09 (Sat), Jun 13 (Wed),
Jun 17 (Sun), Jun 20 (Wed), Jun 24 (Sun), Jun 28 (Thu), Jul 02 (Mon),
Jul 06 (Fri), Jul 09 (Mon), Jul 13 (Fri), Jul 16 (Mon), Jul 20 (Fri),
Jul 24 (Tue), Jul 27 (Fri), Jul 31 (Tue), Aug 04 (Sat).

Previous SoLunar Maps HERE
Review of R2K vs SoLunar Map in May 2018 | Preview for June 2018.

Cosmic Cluster Days | June - July 2018

Upcoming Cosmic Cluster Days are:
May 30 (Wed), May 31 (Thu), Jun 07 (Thu), Jun 09 (Sat), Jun 10 (Sun),
Jun 12 (Tue), Jun 18 (Mon), Jun 26 (Tue), Jun 27 (Wed), Jun 30 (Sat),
Jul 04 (Wed), Jul 11 (Wed), Jul 24 (Tue), Jul 25 (Wed), Jul 26 (Thu),
Jul 27 (Fri), Jul 28 (Sat), Jul 31 (Tue), Aug 13 (Mon).
Previous CCDs are
HERE
Review of S&P 500 Index vs Cosmic Cluster Days in May 2018 | Preview for June 2018.

Sunday, May 20, 2018

S&P 500 Index vs Louise McWhirter's Short-Term Forecasting Method


In her monthly analysis Louise McWhirter determined the dates when the transiting Moon passes by the
Mid-Heaven (24 degrees Pisces), the Ascendant (14 degrees Cancer) and the Descendant (14 degrees
Capricorn) of the NYSE natal horoscope (May 17, 1792 07:52 a.m.) She thought that Mars and Neptune
would “rule” the NYSE and hence also considered the Moon's transits with these planets.

Recent and upcoming dates:

2018 May 05 (Sat) 02:19 = MOO @ 14°CAP
2018 May 06 (Sun) 02:20 = MOO 0° MAR
2018 May 10 (Thu) 06:22 = MOO 0° NEP
2018 May 10 (Thu) 21:26 = MOO @ 24° PIS
2018 May 18 (Fri) 16:43 = MOO @ 14° CAN
2018 Jun 01 (Fri) 09:37 = MOO @ 14° CAP
2018 Jun 03 (Sun) 06:21 = MOO 0° MAR

2018 Jun 06 (Wed) 15:23 = MOO 0° NEP
2018 Jun 07 (Thu) 05:55 = MOO @ 24° PIS
2018 Jun 15 (Fri) 01:41 = MOO @ 14° CAN
2018 Jun 28 (Thu) 16:07 = MOO @ 14° CAP
2018 Jun 30 (Sat) 19:10 = MOO 0° MAR
2018 Jul 03 (Tue) 22:17 = MOO 0° NEP
2018 Jul 04 (Wed) 13:08 = MOO @ 24° PIS
2018 Jul 12 (Thu) 12:12 = MOO @ 14° CAN
2018 Jul 25 (Wed) 22:09 = MOO @ 14° CAP
2018 Jul 27 (Fri) 14:48 = MOO 0° MAR
2018 Jul 31 (Tue) 03:26 = MOO 0° NEP
2018 Jul 31 (Tue) 19:10 = MOO @ 24° PIS
2018 Aug 08 (Wed) 22:42 = MOO @ 14° CAN

[all times calculated for New York City =  EST/EDT]
Louise McWhirter (1938) - McWhirter Theory of Stock Market Forecasting [199 p.]

Saturday, May 19, 2018

US Sugar #11 | At or Near Longterm Cycle Low

US Sugar #11 Futures [monthly bars]
US Sugar #11 Futures [weekly bars]
US Sugar #11 Futures [daily bars]
US Sugar #11 Futures [daily close]
US Sugar #11 vs Average Annual Cycle (1973-2018)
US Sugar #11 vs Long Term Cycles (45 Year, 11.25 Year, 40 Month, 18 Month, etc.)
US Sugar #11 vs 45 Year Saturn - Uranus Cycle (heliocentric)

Sunday, May 6, 2018

Greater Eurasia | Russia’s New Energy Gamble

Bruno Maçães (Apr 2018) - In October 2017, Rosneft Chief Executive Officer Igor Sechin took the unusual step of presenting a geopolitical report on the “Ideals of Eurasian integration” to an audience in Verona, Italy. One of the maps projected on the screen during the presentation (HERE) showed the supercontinent—what Russian circles call “Greater Eurasia”—as divided between three main regions. For Sechin, the crucial division is not between Europe and Asia, but between regions of energy consumption and regions of energy production. The former are organized on the western and eastern edges of the supercontinent: Europe, including Turkey, and the Asia Pacific, including India. 


Between them we find three regions of energy production: Russia and the Arctic, the Caspian, and the Middle East. Interestingly, the map does not break these three regions apart, preferring to draw a delimitation line around all three. They are contiguous, thus forming a single bloc, at least from a purely geographic perspective. 


Sechin’s map has a number of other interesting elements. As noted already, Turkey is left on the European side of the line delimiting the energy production core in the west. The same is true for Ukraine, which although unavoidable in this context is still an unusual inclusion in a map sanctioned by the highest echelons of Russian state power. If one looks at the world through the prism of energy geopolitics, then Ukraine is a European country—a consumer, not a producer. 


[...] The map illustrates an important point about Russia’s new self-image. From the point of view of energy geopolitics, Europe and the Asia Pacific are perfectly equivalent, providing alternative sources of demand for energy resources. Russia has been struggling to abandon its traditional orientation toward Europe, hoping to benefit from the flexibility of being able to look both east and west to promote its interests. It seems that Sechin and Rosneft can place themselves in that position much more effortlessly. 


Sechin’s map subtly makes one final—and decisive—point. As you consider the three areas it delimits, it becomes apparent that two of them are already led and organized by a leading actor: Germany in the case of Europe and China for the Asia Pacific. Production chains within these highly industrial regions are increasingly managed by German or Chinese companies, which tend to reserve the higher value segments for themselves. Their spheres of influence extend to all important inputs, with one glaring exception: energy. In order to address this vulnerability, the two regions of energy consumption will be attracted to the core region, where they need to ensure ready and secure access to energy resources. And their efforts may well be made easier by the fact that the core region of energy production lacks a hegemon capable of ensuring its survival as an autonomous unit in the Eurasian system.


The very same day he delivered his speech on Eurasian geopolitics, Sechin announced that Rosneft would take control of Iraqi Kurdistan’s main oil pipeline, boosting its investment in the autonomous region to $3.5 billion, despite Baghdad’s military action sparked by a Kurdish vote for independence. The move helped shield Kurdistan from increasing pressure from Baghdad. Two weeks later, Sechin went on to sign a preliminary pact with the National Iranian Oil Company, the first step before a binding deal to participate in Iran’s oil and gas projects over the next few years, with investments totaling up to $30 billion and a production plateau of 55 million tons of oil per year.

Four Russian oil companies have even begun negotiating for opportunities in Syria, a venture driven as much by politics as by commercial interest. The aim is not to explore and extract Syria’s modest petroleum reserves, of course. By actively participating in rebuilding and operating Syrian oil and gas infrastructure, Russian energy companies will be in control of a critical transit route for Iranian and Qatari oil and gas heading to Europe, bringing two rival producers closer to its orbit and tightening its stranglehold on the European gas supply. In 2009, Qatar proposed to run a natural gas pipeline through Syria and Turkey to Europe. Instead, Al-Assad forged a pact with Iran to build a pipeline from the Persian Gulf and then through Iraq and Syria and under the Mediterranean. This project had to be postponed because of the war. When it is resumed, Russia will be in control.

It is in the very nature of the Eurasian system described by Sechin that the core energy production region—provided it is sufficiently united and organized—will benefit from its central position, being able to pick and choose between east and west in order to obtain the most favorable terms. Russia and the Middle East are now part of the same geopolitical unit. It took the Russian military intervention in Syria for the world to start to come to terms with this reality.

Saturday, May 5, 2018

S&P 500 Index vs True and Mean Lunar Orbital Speed | May 2018

S&P 500 Index vs Lunar Inclination + SoLunar Map | May 2018


Recent and upcoming events:
Apr 30 (Mon)
, May 03 (Thu), May 07 (Mon), May 07 (Mon), May 11 (Fri),  
May 14 (Mon), May 15 (Tue), May 18 (Fri), May 20 (Sun), May 22 (Tue)
 May 26 (Sat), May 27 (Sun), May 29 (Tue),  
Jun 02 (Sat), Jun 03 (Sun), Jun 06 (Wed).

 

Tuesday, May 1, 2018

S&P 500 Index vs Lunar Declination and Lunar Latitude | May 2018


Lunar Latitude at 0° degrees tends to coincide with contraction/narrow range;
 Lunar Declination at 0° degrees with expansion/wide range and/or trend changes;
Extremes in both Latitude and Declination with trend changes of all magnitudes.

Recent and upcoming events:

Apr 27 (Fri) 15:01 = MOO Dec @ 0
Apr 29 (Sun) 21:01 = Full Moon
Apr 29 (Sun) 22:45 = MOO Lat @ Max
May 04 (Fri) 19:05 = MOO Dec @ Min
May 07 (Mon) 06:22 = MOO Lat @ 0
May 12 (Sat) 03:18 = MOO Dec @ 0
May 14 (Mon) 05:27 = MOO Lat @ Min
May 15 (Tue) 07:46 = New Moon
May 18 (Fri) 11:04 = MOO Dec @ Max
May 20 (Sun) 09:17 = MOO Lat @ 0
May 24 (Thu) 21:41 = MOO Dec @ 0
May 27 (Sun) 00:44 = MOO Lat @ Max
May 29 (Tue) 10:22 = Full Moon
Jun 01 (Fri) 03:12 = MOO Dec @ Min
Jun 03 (Sun) 08:38 = MOO Lat @ 0


[all times calculated for New York City =  EST/EDT]

S&P 500 vs Heliocentric Mars – Uranus Cycle | May 1st, 2018 @ 225 degrees

[all times calculated for New York City =  EST/EDT]