Matt Finn: Analysis of Valles Marineris | Thunderbolts
There is evidence of widespread sedimentary layering along the canyon walls of Mars’ Valles Marineris. Where did it come from? It isn’t in a basin—in fact its near the top of a bulge over 6 miles above the datum. For sedimentation of this kind to exist, it would have needed to form in a deep basin with tons of rushing water, then get uplifted an incredible 12 miles. On Mars, no less.
Also, there are similar features on Valles Marineris and Earth’s Grand Canyon that suggest a common backstory. Both are on high plateaus and are missing all of their excavated material. Their tributaries are deeply incised, short and tend to end in round alcoves—with sharp edges that don’t show much erosion in their deep valleys—something that hints at a more recent origination of both canyons.
EU advocate and contributor Matt Finn debunks erosion, glacier and river thinking and shows how the electrical force may be an answer to the formation of massive canyons in our solar system.
SOURCE MATERIAL
Wal Thornhill, EU Views, October 2001
----
If you see a CC with this video, it means that subtitles are available. To find out which ones, click on the Gear Icon in the lower right area of the video box and click on “subtitles” in the drop-down box. Then click on the subtitle that you would like.
The Thunderbolts Project — a Voice for the Electric Universe
Become a Producer through the PATREON Rewards program...
Subscribe to Thunderbolts eNewsletter
Guides to the Electric Universe
Electric Universe Books & Merch
Electric Universe by Wal Thornhill
Instagram
Facebook
Twitter @tboltsproject
Ideas and/or concepts presented on this channel do not necessarily express or represent the Electric Universe Model of Cosmology, The Thunderbolts Project, or T-Bolts Group Inc.
The Thunderbolts Project™
Trademark of T-Bolts Group Inc. a non-profit 501(c)(3) organization.
Copyright © 2023 T-Bolts Group Inc. All rights reserved.