CONTINENTAL DRIFT AND PLATE TECTONICS ADRIFT
Mt. Aconcagua and Mt. Everest in Symmetry to the West Coast of Africa

The highest mountains of the Western and Eastern hemispheres lie nearly equidistant from the west coast of the African continent. Mount Aconcagua has a crustal depth of 60 kilometers, while Mount Everest is said to have a crustal depth of 70 kilometers. So, the highest and deepest points of the two hemispheres, somehow, according to the theory of continental drift came to rest from a mid-point that lies on the western coast of Africa. Remember, supposedly, according to drift theorists, the continents of South America and Africa split along the west coast of Africa. The odds of such geographical symmetry deriving from the random floating of the continents are astronomical. Other forces are at play in the placement of the landmass on Earth.

It is said that the continent of Africa has remained fixed, while that of South America floated away from Africa. To find that the highest and deepest parts of the Earth's crust (Mt. Aconcagua and Mt. Everest) are equidistant from where the Equator meets the straight western linear coastline of Africa pervades of a symmetry among the continents. The relationship of Aconcagua | west Africa equatorial eventpoint | Everest has probably existed since the birth of the Earth's crust. I find it hard to believe that such a centro-symmetrical relationship of Earth's landmass could have derived from the random, drifting, floating continents as the theorists of continental drift purport.

I will explore such examples further in the up-coming study of Eventpoint Cosmogeography Volume Two. If you have not read volume one of this same title, then do so, because the data in volume two are its complement. Both volumes point to the demise of the theory of continental drift through commensurable examples of symmetry between the landmass and water bodies on Earth.

EVENTPOINT COSMOGEOGRAPHY

Eventpoint Cosmogeography, a new study, opens up a distinct line of inquiry into the geography of the Earth.  Charles William Johnson, from Earth/matriX, Science Today, questions the theory of continental drift by examining the distances between geographical extreme points and selected cosmogeographical event points. The translation and centrosymmetries of geographical coordinate points suggest the fact that the continents undergo movement, but that they have not drifted randomly on the face of the Earth for the past 250 million years as proposed by Alfred Wegener nearly a century ago. The symmetry between extremepoints and eventpoints illustrated in this study suggests that continental drift theory must be reconsidered, possibly abandoned.

Eventpoint Cosmogeography
A Study in Relating Event Point Cosmogeography and Extreme Point Geography

Earth/matriX Editions
ISBN 1-58616-432-5

Purchase in Amazon
344 Pages
Fully illustrated with drawings.
Price: $8.99U

S