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The following three images reveal the site
of the exit event. The existing continental landscape
clearly indicates the direction in which unimaginable
amounts of debris was hurtled outwards as the impactor once
again approached the surface of Earth from underneath (e.g.
in a westerly and southwesterly
direction), initially peppering the surface before bursting
out at the main exit site.
The main exit 'wound' can clearly be seen
as an oval depression on the surface of Earth at the centre
of each image (try searching the Internet for images of the
'Takla Makan Desert' - because this is it):
Image courtesy of NASA
Image courtesy of NASA
Notice the range of semi-circular geologic features
highlighted in the next image, especially the uppermost
right example, and it's definite similarity to the
semi-circular, raised surface of the Earth that we refer to
as the Himalayas:
Image courtesy of NASA
Is it not worth considering that
if almost all of the entire Himalayan mountain range was
submerged underwater the geologic appearance of both would
be extremely
similar? The fact that the Himalayas are not underwater
demonstrates that as it is the site of the main exit event
this particular shockwave generated the most extensive
examples of strata uplift, flood eruption and magma column
release.
Also, these and
other semi-circular 'subsurface shockwave outcomes' can be
aligned and traced backwards to the site of the impact
event. Look closely at the region surrounding the Rockies in
the following image and you will see yet another
semi-circular/circular feature:
Image courtesy of NASA
There are a lot of
examples similar to these within the 220+ pages of The
Impact And Exit Event. If you are interested and would like
to find out more details about this unique hypothesis
click here
to instantly download a copy.
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