Additionally, the foil like covering which wrapped the exterior of the Lunar Lander should have been
               ripped to shreds by the blast of the lunar soil being violently hurled out by the force of the landing
               rockets. Yet, the thin foil-like covering is pristine and undamaged in Apollo photographs.

               If man is only now perfecting the ability to land rockets tail first using variable thrust rocket engines,
               and they are achieving this by using lightning quick computers and sophisticated programming, how
               did men in the 1960s accomplish the same feat without the aid of embedded computer control
               systems?

               Another  bit  of  mythological  Apollo  technology  is  their  extreme  environment  air  conditioning
               systems. I live in a motorhome, and I have installed an auxiliary solar power system. I have three
               large Absorbed Glass Mat batteries, some of the best technology available to consumers today for
               this type of application. Each of the batteries weighs 90 pounds. Together they provide 459 Amp
               Hours of electric power. This is sufficient to power a number of things, including LED lights which
               are a technology that did not exist in the 1960s. The Apollo Command Module used fluorescent
               lamps for its general illumination, and the Lunar Module used incandescent lamps.


               [Souce: https://www.hq.nasa.gov/alsj/tnD7290Lighting.pdf]

               Both fluorescent and incandescent lighting use far more electricity than LEDs. My battery system
               is sufficient to run numerous LED lights, some small appliances such as a laptop computer, printer,
               a fan, and a very efficient 12 volt DC freezer. I do have a power converter to supply 110 volt AC
               power from my battery bank, and with this I can operate a microwave and other small appliances for
               brief periods. Yet, one thing I cannot run from my battery bank is my motorhome’s air conditioner.
               Air  conditioners  are  extremely  power  hungry  devices,  and  although  I  can  power  the  roof  air
               conditioner from my batteries, it would drain them in just a couple hours.

               Understand that the air conditioner I use needs to only handle the much milder conditions of Earth.
               The highest temperatures I experience at my location rarely reach 100 degrees Fahrenheit, or 37
               degrees Celsius. On the Moon, however, temperatures vary from 250 degrees Fahrenheit in the Sun,
               to minus 250 degrees in the shade. The Apollo Command Module and Lunar Module both had to