indio007 | FLAT EARTH -CORRECTED - Mick West vs FACTS at the 24/7 Flat Earth Discord https://discord.gg/AVCKC4Y @indio007 | Uploaded November 2019 | Updated October 2024, 5 hours ago.
NOTICE
This video is a corrected
version of the previous.
An error was made in failing
to convert
213 miles to kilometers.
Thanks to Philip Thomp
for discovering it.
In the course of correcting the
mistake, I discovered Google Earth's
elevation profile distance
is greater than the Google Maps
line distance.
The extra distance would leave
Pic Gaspard completely
hidden by the horizon and make
foreground terrain moot point.
Since there is a data discrepency,
I have decided to remove
the second half of the video.
that uses the ambigious data.
GEOGEBRA CONSTRUCTION of World Record Long Distance Photo
Pic Finestrelle to Pic Gaspard
433 KM distance
geogebra.org/geometry/sp8rzqvu
Refraction test data
Influence of atmospheric refraction on terrestrial laser scanning at long range
Ephraim Friedli, Robert Presl, Andreas Wieser
ETH Zürich, Institute of Geodesy and Photogrammetry, Stefano‐Franscini Platz 5, 8093 Zürich
cdn.discordapp.com/attachments/614862850929852417/637018168572903444/Influence_of_atmospheric_refraction_on_terrestrial_laser_scanning_at_long_range_.pdf
geogebra.org/geometry/sp8rzqvu
NOTICE
This video is a corrected
version of the previous.
An error was made in failing
to convert
213 miles to kilometers.
Thanks to Philip Thomp
for discovering it.
In the course of correcting the
mistake, I discovered Google Earth's
elevation profile distance
is greater than the Google Maps
line distance.
The extra distance would leave
Pic Gaspard completely
hidden by the horizon and make
foreground terrain moot point.
Since there is a data discrepency,
I have decided to remove
the second half of the video.
that uses the ambigious data.
GEOGEBRA CONSTRUCTION of World Record Long Distance Photo
Pic Finestrelle to Pic Gaspard
433 KM distance
geogebra.org/geometry/sp8rzqvu
Refraction test data
Influence of atmospheric refraction on terrestrial laser scanning at long range
Ephraim Friedli, Robert Presl, Andreas Wieser
ETH Zürich, Institute of Geodesy and Photogrammetry, Stefano‐Franscini Platz 5, 8093 Zürich
cdn.discordapp.com/attachments/614862850929852417/637018168572903444/Influence_of_atmospheric_refraction_on_terrestrial_laser_scanning_at_long_range_.pdf
geogebra.org/geometry/sp8rzqvu