Predictable Cycles in Geomagnetic Activity | Theodor Landscheidt

Geomagnetic storms, which are released by energetic solar eruptions, are important geophysical events. Newer results indicate that there is a connection with weather. Figure 1 shows the zonal type of atmospheric circulation as a result of geomagnetic disturbances caused by the sun’s eruptional activity, and meridional circulation related to a lull in geomagnetic activity. This is a permanent feature that regulates the prevalence of warm westerly flow or cool arctic air over Europe and North America. 

 

 

 

 

The bulk flow speed of the solar wind, which is indicative of the energy of eruptional mass ejections and resultant shock waves caused by solar eruptions, is strongly coupled to geomagnetic activity, which in turn seems to be the common factor of a wide variety of terrestrial phenomena.

Quoted from:
Theodor Landscheidt (1989) - Predictable Cycles in Geomagnetic Activity and Ozone Levels.
In: Cycles, November/December 1989, Foundation for the Study of Cycles.

Mini-Crash in Tune with Cosmic Rhythms | Theodor Landscheidt

Solar eruptions and related geomagnetic storms can be predicted by means of major and minor instability events released by special solar systems configurations. Minor instability events occur when the Sun's Center of Mass (CS), the Solar Systems Center of Mass (CM), and Jupiter (JU) - the weighty center of the world of planets - arc in line (JU-CM-CS). Such configurations initiate strong impulses of torque in the Sun's orbital motion about the CM. JU-CM-CS events form cycles with a mean period of 9.275 years, but are subject to considerable variation in wavelength: it can be as short as two years, or as long as 14 years.

 

 

The above chart shows the relationship between the S&P 500's monthly index and Cycles of Minor and Major Solar System Instability Events: The short fat arrows indicate epochs of consecutive JU-CM-CS events that form cycles showing rather different wavelengths. Wide and narrow arrows as well as small arrows represent harmonics of respective cycles specified by indices.Indicators that coincide with maxima of the S&P 500 point upwards, while those that coincide with minima point downwards. After the long fat arrow that marks the epoch of a 'major instability event', the epochs of JU-CM-CS events and the second harmonic (= 1/2) of the respective cycles are correlated with bottoms in the data, and the fourth (= 1/4) and eigth (= 1/8) harmonics with tops. In the current JU-CM-CS cycle - running from October 31, 1982 (= 1982.83), to April 20, 1990 (= 1990.3) - the midpoints between the fourth and eighth harmonics, the sixteenth harmonics, were, in each case, related to bottoms in the data. The chart also shows the cosmic background of the famous 4-Year Cycle, and - this is crucial to predictions - hints to an explanation why it is sometimes longer or shorter. 

The next chart is an extension of the first one. The upper curve represents the DJIA, and its turning points are in phase with the arrows marking epochs of respective harmonics of the JU-CM-CS cycle. The last arrow matches the date of the mini-crash on October 13, 1989 - the biggest plunge of the stock market since the 1987 crash.

 

 

Quoted from:
Theodor Landscheidt (1989) - Mini-Crash in Tune with Cosmic Rhythms.
In: Cycles, November/December 1989, Foundation of the Study of Cycles.

 

See also:

Al Larson (1999) - When a CME hits the Earth's Magnetic Field.
Al Larson (1997) – Energy Flow Theory.
Al Larson (1991) - Lunar Chaos Cycle.
Al Larson (1990) - Solar Tides & Financial Markets.

SPX vs Sun - Jupiter Cycle

Calculated and charted with Timing Solution.