NASA's Anomalies above the Moon - UFOs captured on film during the Apollo Program...
WE KNOW THAT THE MOON IS AN ARTIFICIAL GIANT SATELLITE AND WE KNOW THAT THERE ARE BEINGS ON THE MOON AND WE KNOW THEY HAVE THEIR BASES THERE....NOW WHAT ARE THEY UP TO?
PLEASE USE YOUR DISCRETION
This presentation is a simple compilation of some more anomalous photographs and 16mm DAC film footage that I have archived during my years of research and investigation looking into the activities of the National Aeronautics and Space Administration.
The images and footage shown here were taken during the Apollo program, filmed by the astronaut flight crews during their journeys to and from the Moon.
Most of what I show here involves "lunar transients" - unidentified objects in space that were captured on film as they transited in front of (or passed near) a celestrial body such as the Moon or Earth. I believe many of these objects are not on the lunar surface, but rather were above the lunar surface when captured on film.
I also include several examples of NASA image obfuscation as well, just to help highlight the fact that the space agency also removes anomalous objects from frame in order to "sanitize" scenes prior to official archive release so as to ensure they do not reveal too much of the truth about what is really up there.
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we´re the international community - everyone knows this now and the few who still belittle it will in the future not be permitted to go to school or to go to the workplace.
Unless they change their attitude.
Here are the uncensored Moon Images taken by the Lunar Orbiter!
According to Arizona State University, the Lunar Orbiter images were all digitally scanned at 400 dpi at the Lunar and Planetary Institute in Houston. Whole images were too large to be scanned at once and were broken up into four sections.
From the data and resources about each lunar orbiter image found in Anderson and Miller (1971), they obtained information about the side length, altitude and emission angle of the images they scanned. To calculate the resolution of each image they followed several steps. They first calculated the resolution of images with an emission angle of less than 10° by dividing the side length of each image by the number of pixels, and then calculated the distance to the surface by dividing the altitude by the cosine of the emission angle. The resolution of low-emission angle images was plotted against their distance to the surface. From this was obtained the best-fit equation:
Corrected Resolution = -0.0023272 + 0.014376 * Distance to Surface
and applied it to the remaining images to get the corrected resolution.