15.10.18

Kuutamosonaatti

Astronautit osoittivat usein kevytmielistä käyttäytymistä; hyppimistä, pomppimista pitkin poikin, hölmöjen laulujen laulamista ja vitsailua. He näyttivät olevan onnellisen rauhoittuneita tai täysin huolimattomia henkilökohtaisesta turvallisuudestaan, vaikka itse asiassa mikä tahansa arvostelukyvyn menetys tai outo sattuma olisi voinut johtaa joko välittömään kuolemaan tai loukkaantumiseen ilman mitään toivoa pelastuksesta. He eivät käyttäytyneet tilanteensa äärimmäisen luonteen mukaisesti.[1]                                                    —Dietrich von Schmausen, Nasa-alihankkija
Tarkoituksenmukaisesti huonolla kuvanlaadulla taltioituja, hidastettuna ja vaijereilla notkuvia astronautteja pelleilemässä kaarevia taustakulisseja vasten sekä jeeppien ja kuumoduulien pienoismalleja.
Paineistetun avaruuspuvun repeäminen on kohtalokasta. Pelleilevät astronautit eivät käyttäydy kuin he olisivat vihamielisellä vieraalla planeetalla. Jos toinen astronautti kuolee tai on toimintakyvytön, kumpikaan ei pääse takaisin Maahan, koska kuumoduulin lentämiseen tarvitaan kaksi astronauttia.

Aurinkomyrskyt voimistavat avaruussäteilyn tuhatkertaiseksi. Ennustamattoman aurinkomyrskyn purkautuessa kaikki Kuun pinnalla olevat ihmisorganismit kuolevat välittömästi, mikäli heitä ei ole suojattu kahden metrin paksuisella lyijy-, vesi- tai vastaavan massan kerroksella.

1900-luvun suurin aurinkomyrsky sattui sopivasti Apollo 16 -tehtävän aikana vuonna 1972. Kuumoduulit ja avaruuspuvut koostuivat paperinohuista kerroksista lasikuitua, alumiinikuitua ja silikonikumia. Puvut eivät suojaa avaruussäteilyltä tai aurinkotuulelta (plasmaa) - puhumattakaan auringon-soihduista ja aurinkomyrskyistä.


Maata ympäröivät ilmakehä, plasmasfääri ja Van Allenin vyöhykkeet suojaavat Maata meteoriittisateilta. Kuun ympäriltä nämä puuttuvat, joten suojausta ei ole. Osuessaan pieninkin ennustamaton pienhiukkasmeteoriitti läpäisee kuumoduulin tai astronautin paineistetun avaruuspuvun, jonka jälkeen astronautin elin-toiminnot päättyvät paineen menetykseen.

Avaruus on täynnä ennustamattomia ja kaikista suunnista tulevia meteoriitteja, joihin törmääminen on kohtalokasta. Apollo-tehtävien aikana yhteenkään avaruusalukseen ja astronauttiin, avaruudessa tai Kuussa, ei osunut mitään.


Kuu on lähempänä Aurinkoa kuin Maa, jonka seurauksena Kuussa on kuumempi kuin Maassa. Kuun lämpötila on auringossa +120°C ja varjossa -170°C. Kuussa ei ole ilmakehää, jonka seurauksena lämpötilanvaihtelu on välitön.

Nasan mukaan akuilla ja pattereilla toimineet kuumoduulit ja avaruuspuvut olivat paineistettuja, jotta astronauttien veri ei alkaisi kiehua tai jäätyä.

Avaruudessa avaruuteen laitetun objektin lämpötila on auringossa +120°C ja varjossa -100°C.
Kuuhun laskeutumisen jälkeen on välittömästi etsittävä luola, sillä 48 tunnin välein on 50 % todennäköisyys, että meteoriittisade alkaa.[2] 
—Apollo-kantorakettien pääsuunnittelija, natsisotarikollinen ja SS-majuri Wernher von Braun
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[1] Marcus Allen & Trevor Weaver, Apollo Moon Hoax: The Real Evidence - A Reference Guide to the Facts, (2021), s. 58-59.

[2] Bart Sibrel, Moon Man: The True Story of a Filmmaker on the CIA Hit List, Washington, D.C., (2021), s. 149-150.

Kuun lämpötiloista (n. +120°C/-170°C) ks. Marcus Allen & Trevor Weaver, Apollo Moon Hoax: The Real Evidence - A Reference Guide to the Facts, (2021), s. 187; Bill Kaysing, We Never Went to the Moon: America's Thirty Billion Dollar Swindle!, Desert Publications, Arizona, (1981), s. 170, 182, 193; Avaruuden lämpötiloista (n. +120°C/-100°C) ks. Marcus Allen & Trevor Weaver, Apollo Moon Hoax: The Real Evidence - A Reference Guide to the Facts, (2021), s. 35.

According to the experts over at NASA, daytime highs average a balmy +260° F, but it cools off quite a bit at night, dropping to an average of -280° F. If you’re looking for anything between those two extremes, you won’t really find it on the Moon. It’s pretty much one or the other. If you’re in the sun, you’re going to be boiled alive, and if you’re out of the sun, you’re going to be flash frozen. I’m not at all sure how the air conditioning system is going to work, come to think of it, since air conditioning requires a steady supply of – and please stop me if I am stating the obvious here – air. And the Moon doesn’t really have a lot of that. —Dave McGowan, Wagging the Moondoggie: Part II, The Center for an Informed America, (Oct 1, 2009).

"Meteoroids," NASA continues, "are nearly-microscopic specks of space dust that fly through space at speeds often exceeding 50,000 mph – ten times faster than a speeding bullet. They pack a considerable punch [...] The tiny space bullets can plow directly into Moon rocks, forming miniature and unmistakable craters." According to NASA, every square inch of every exposed surface of every rock allegedly gathered from the surface of the Moon shows this pattern. By extension then, we know that every square inch of the lunar surface is peppered with meteoroid craters. There really is no safe place to hang out. There you are minding your own business lining up your golf shot, and the next thing you know a meteoroid is ripping through your spacesuit at 50,000 mph. That has to sting a little bit. Actually, what it would do is kill you. Almost instantaneously. Not the projectile itself, which probably wouldn’t be lethal after passing through the spacesuit, but ripping or puncturing your magic suit while on the Moon is certainly something that you would want to avoid. You know that old saw about how "nature abhors a vacuum"? How that applies here is that any penetration in your suit would result in all the air being immediately sucked out. And then your blood would begin to boil. And that can be rather unpleasant. I guess the Apollo crews really, uhmm, dodged a bullet on that one. Not one of the astronauts was hit, nor any of the lunar modules, nor any of the lunar rovers, nor any of the equipment that was used. [...] A huge shout-out, by the way, is in order here for the guys at NASA for posting that article about the Moon rocks being bombarded with radiation and meteorites. It makes it so much easier for me when NASA has already done so much of the work of debunking the Moon landings. —Dave McGowan, Wagging the Moondoggie: Part V, The Center for an Informed America, (Oct 1, 2009).

Despite what NASA would like you to believe, the combination of lethal space radiation, lethal temperatures, a complete lack of breathable air, and a lower gravitational attraction that produces serious health problems, including rapid tissue and bone degeneration, is simply not compatible with human existence. Neither is getting pelted with "space bullets." Neither is a lack of food and water. —Dave McGowan, Wagging the Moondoggie: Part V, The Center for an Informed America, (Oct 1, 2009).

As the narrator informs us during [the documentary] When We Left Earth [2008], "If the flight suit fails or even tears a little, the difference in pressure will cause the astronaut's blood to boil, killing him instantly." The same would be true, of course, about the skin of the spacecraft: the smallest tear would mean instant death for all three. Of course, their suits would have allegedly provide a second line of defense, except that, as can be seen in one of the handful of Apollo 13 mission photos released by NASA, the astronauts weren't bothering to wear their suits as they cheerfully went about the business of MacGyvering their spaceship. —Dave McGowan, Wagging the Moondoggie: Part VIII, The Center for an Informed America, (Nov 22, 2009).

Cliff Hess was an environmental systems test engineer with NASA during the Apollo days, and he described the challenge they faced as follows: "You can go from +250° F down to -250° F, and it can happen just as you cross the line of a shadow [...] so you can instantaneously go from one extreme to the other and have like a 500° F change.” Apollo 8 astronaut Frank Borman described his alleged flight to and from the Moon in precisely the same terms: "You’d be 250° plus on the sunny side, and once the spaceship rotated and you were in the shade, [then] you’re minus 250°!" —Dave McGowan, Wagging the Moondoggie: Part IX, The Center for an Informed America, (Nov 29, 2009).

One final note on the Lunar Orbiters: during their flights to and around the Moon, the five satellites recorded twenty-two "micrometeoroid events." The eight lunar modules that made the trip to the Moon apparently recorded no such events. Or maybe the guys just put some duct tape over the holes. —Dave McGowan, Wagging the Moondoggie: Part X, The Center for an Informed America, (Dec 7, 2009).

Without the protection of an atmosphere, the sunlight temperatures [on the Moon] can reach up to 275° and minus 250° in shadow. —Craig Fraley, Why There's Doubt: Moon Landings, CreateSpace, California, (2017), s. 43.

The Moon does not have a Van Allen belt. Neither does it have a protective atmosphere. It lies nakedly exposed to the full blast of the solar wind [plasma]. Were there a large solar flare during any one of the Moon missions, massive amounts of radiation would scour both the capsules and the Moon's surface where our astronauts gamboled away the day. The radiation is worse than dangerous — it's lethal! —Ralph René, NASA Mooned America!, CreateSpace, California, (2017), s. 39.

Mr. Noble has this to say about temperatures on the Moon. "Surface temperatures range from about 243 degrees above zero Fahrenheit in the unfiltered sunlight at lunar midday, to about 279 degrees below zero in the depths of the lunar night..." The figure must be substantially correct. If it wasn't, wouldn't the astronauts have reported it? This is hotter than boiling water. In fact, this is hotter than the pressurized water in most household hot water heaters and boilers. —Ralph René, s. 88, lainaa, John Noble Wilford, We Reach the Moon, Bantam Books, New York, (1969), s. 272.

An important factor to take into consideration is the great variations in temperature that the film would have had to endure whilst on the lunar surface. The temperature during the Apollo missions were recorded as being between -180 Fahrenheit in the shade to an incredible +200 Fahrenheit in full Sunshine. How could the film emulsion [liuos/liima/neste ultavakuumissa] have withstood such temperature differences? The astronauts can be seen to move between the shadows of the rocks and then into full sunlight in some shots. Surely the film would have perished under such conditions? Steven Thomas, The Moon Landing Hoax: The Eagle That Never Landed, Swordworks Books, Newport, (2010), s. 53.