Westwoods: a classic portrayal of slipped or sheared spacetime

The new crop picture at Westwoods on August 9 could only have been made by an ancient Annunaki space time physicist, who has a good understanding of gravity-wormhole theory (just as for the "wormhole" pictures of 2006). It shows planet Earth in yearly circular orbit about the Sun; but instead of showing a "round ball" for planet Earth, it shows Earth's intrinsic curvature of space time in four dimensions---or in other words, its self-gravity well.

One can see lots of drawings like that on physics websites devoted to Einstein's theory of general relativity. According to Newton, two masses m1 and m2 somehow "attract" across a distance d in three-dimensional space, with no regard for time t. But according to Einstein, the underlying structure of four-dimensional space time actually "curves" in the presence of any large mass m1 (say planet Earth). Then as a consequence of such curvature, when some small mass m2 (for example Ms. Ossebaard, upon her discovery of a new crop picture) jumps up in excitement away from the Earth, her natural free-fall track as she proceeds forward in time t will curve down into the Earth, just as shown in that new crop picture.

Such are the major differences between Newton's and Einstein's theories of gravity. But now at Westwoods, instead of portraying planet Earth in its yearly circular orbit with a "smooth unbroken gravity well" (examples of which were shown at Southend and in Switzerland earlier in the season), our unknown crop artist has portrayed planet Earth in every possible location of its yearly orbit with a "slipped" or "sheared" gravity well, as if some outside force had somehow "broken it into two pieces".

The unknown artist, surely an ancient Annunaki space time physicist, has portrayed here a rather technical aspect of general relativity known as its "shear tensor". By that theory, the long-range energy of gravity may propagate through interstellar space in the form of "waves" that travel like electricity at light speed c. Then when such "gravity waves" encounter some other distant mass (say planet Earth), they may "shear" or distort its local planetary space time into several separate sections or pieces. A massive gravity wave was likewise portrayed at Etchilhampton Hill on August 15, 2006, showing the characteristic four-lobed "quadruple" structure of a travelling space time vibration (see the LIGO website for more examples).

Both crop pictures, from Etchilhampton HIll 2006 and Westwoods 2007, were apparently meant to inform us that travelling gravity waves, and their expected ability to shear Earth's local gravity-well or space time, may be highly relevant to our short-term future, whether in 2007 or 2012.

Red Collie

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