/Nexus - 1706 - New Times Magazine/pages/0050/image.png)
Page Content (OCR)
e¢ 12 September 2006, Canterbury Province, New Sun, slightly off centre. Every year, the intersection Zealand; no energy estimate available. points wander ~30,000 km further along. With an ¢ 22 September 1979, southern Indian Ocean; energy average radius of ~150,000,000 km between the Earth estimated at 3,000 tons of TNT.’ and the Sun, this difference would not be noticeable on ¢ 25 September 2002, Vitim River, near the town of | any diagram without great exaggeration. For points Chita, Eastern Siberia; energy estimated by some _ outside the intersection areas, the Earth is never in the sources at approximately 2,000 tons of TNT* same location in relation to the Sun within several A connection becomes clear when these explosions hours; that is, in relation to a fixed event in an earlier are plotted on a Standard Earth Orbit chart (diagram 1). year. For periods further back in time, such as 1979, For astronomers, one clue is 993 and 1994, leap years i diately evident: th . bet th tandt pairs in January and. in There is only one year of the explosion must be September, one or two days and sequential orbital period considered, as these also move a year apart. They appear to . 9 e intersection points along. indicate precession. For non- In these ~25,780 years In I have compared the orbits for many years and searched them or intersection points (diagram 2). There are only 25,771.5 possible orbits; after this amount of time, the ecliptic returns to the original position. astronomers, precession is the which all eight explosions gradual shift of Earth's orbit due to the 23.5-degree axial tilt in have points at which the relation to the orbital plane, the Earth intersects the exact unequal distribution of mass we and the slightly elliptical orbit same position... around the Sun (giving a slight There is only one sequential variation in Earth-Sun distance o orbital period in these ~25,780 five per cent). The result is that Earth's orbit progresses years in which all eight explosions have points at which by about 30,000 kilometres every year, resulting in a the Earth intersects the exact same position on the same "rosette window" pattern of orbit intersection points. day within a few hours. It is the orbit of Earth from 9 The intersection points themselves, however, have never September 2009 to 2 February 2011 (diagram 3). One been seen as having any meaning at all—until now. such almost exact intersection point, or perhaps even two Here lies the evidence. Plotting the locations of the — such points, in any given year could be coincidence. For intersection points on a Standard Earth Orbit results in all eight, however, to be occurring in one year, the a trapezium pattern. It is mathematically defined by the probability is close to a staggering two billion to one, Earth's slightly elliptical orbit and the position of the — even with the most conservative calculations. There is only one sequential orbital period in these ~25,780 years in which all eight explosions have points at which the Earth intersects the exact : C) Areas in which orbital Perihelion intersection oceurs within a faw hours on the same day for any given base year. For any single year, the areas are much smaller: a few days in Janwary to several hours In June. Outside these areas there are intersections, but not ap close (and within a few hours). This ties in with the assumed instability of the singularities. FEBRUARY 18 Jan 1994 13 fan 1992 feb isa4 Diagram 1 25 Sep 2005 isep 17 i2Sep 26 105ep 2005 Standard Earth Orbit with the pesitions of all aight explosions [not drawn te scale). In this model, the Earth revolves around the Sun antichockwise. Preeession moves the Intersection polnts along by Spproximately 20,000 km every year. All eight explosions occurred EXACTLY on such intersection points. SEPTEMBER 6 hun 22 Aphelion JANLGRY FEBRUARY 19 Jan 1993: SUM JUNE 50 * NEXUS same position... OCTOBER - NOVEMBER 2010 www.nexusmagazine.com