NASA, Please Explain


Why hasn’t mankind been back to the Moon? Why do humans only travel as far as the International Space Station (ISS) and no further if Russia and the United States have already had successful Moon landing missions? These questions fuel the conspiracy fires that claim the Apollo Moon landing was a staged scene and never really happened. Regardless of a person’s position on this, what of Russia? If they made it to the Moon, why haven’t they been back either?

During the years of the Cold War between the U.S. and the Soviet Union, it was always a game of one-upmanship. Rather than flinging bombs at one another it was a bit of “Whatever you can do I can do better.” The space race was no exception.

In 1961 the Soviet Union took the lead in the space race when Yuri Gagarin orbited the Earth and returned home, all in one piece. In response, U.S. President John F. Kennedy did not say, “Well done.” No, instead he threw down the gauntlet and swore that the U.S. would out-do the Soviet’s achievement. He declared that within a decade Americans would have a man on the Moon and back home safe and sound. Eight years later people around the world watched televised broadcasts of Neil Armstrong planting a U.S. flag on the surface of the Moon. Or did he?

What we know now compared to what we knew then may cast great doubt on the legitimacy of the Apollo mission. Accusations that film director Stanley Kubrick prepared a fake production staged with the latest technologies of 70s era filmdon may actually have credibility. Consider the most common criticisms that point to the film being a fake:

  • Wind mysteriously blowing a flag that should be in the vacuum of space.
  • Anomalous shadows cast in different directions which would indicate multiple sources of light.
  • No disturbance of lunar dust or the Moon’s surface from the landing of the space module.
  • What are the strange objects that are reflected at different times in the visors of the astronaut’s space helmet?
  • Where are all the stars that should be in the background?

Skeptics of conspiracy theories can argue away these questions. For years the gringa has been inclined to believe in the Moon landing as an event that really did happen. My reason being that, for one thing, think about how many people would have to be in on such a crazy secret for all of these decades. I don’t know about you, dear readers, but the gringa’s pretty certain that somewhere along the way, throughout all of these years, surely someone would have cracked.

Despite my confidence in NASA, however, the gringa must admit that by becoming informed about the Van Allen radiation belts, I may have to change my position. This may be the smoking gun that exposes how the entire world has been duped. The U.S., desperate to remain relevant and seen as the most powerful nation, outperforming its most aggressive global competitor, may have gone so far as to stage the most incredible hoax of all time.

You see, the Van Allen radiation belts surround the Earth. Consider these belts to be an enormous layered donut and the Earth the donut hole. They radiate outward as far as 36,000 miles depending on whether they are expanding or contracting. The innermost ring generally spans from 400-6,000 miles above the surface of the Earth. The outer belt stretches generally from about 8,400-36,000 miles above Earth. The ISS is safely tucked into orbit at a mere 230 miles from the Earth’s surface in what is called a Low Earth Orbit (LEO). Orbiting between the two belts is a GPS satellite set 12,500 miles away, just inside the innermost rim of the outermost belt, where radiation levels fluctuate according to waxing and waning cycles. Just within the outermost layer of the outermost belt is NASA’s Solar Dynamics Observatory in geosynchronous orbit at 22,000 miles away studying the mess solar radiation makes from time to time.

In addition to the Van Allen radiation belts is the problem of a cloud of cool, charged particles which envelopes most of Earth’s outer atmosphere. Its nearest edge is about 600 miles from the surface of the Earth and extends outward and stops just inside the outermost edge of the furthest Van Allen belt. Scientists call this cloud the plasmasphere. It seems to cause particles in the outer belt to scatter. As the electrons scatter they create a loop which becomes a well defined belt. The plasmasphere is responsible for creating and maintaining the belts. When a powerful solar event occurs, such as a solar flare, some of the belts’ electrons can be forced by these extreme conditions into the space void between the belt layers, thus creating the waxing and waning effect of the belts.

The craziness of this relationship boggles the gringa’s mind. Think about it. The electrons are prevented by Earth’s magnetic field from penetrating all the way to Earth and frying all of us Earthlings. However, they also do not have enough energy to escape and dissipate into outer space. Thus they are trapped in this belt system which results in a protective barrier that traps dangerous radioactive solar radiation so that we don’t all get fried. Without the belts we fry. Without the plasmosphere we fry. Without the magnetosphere we fry. And if we hang out in any of these Earth preserving regions for any length of time we fry. Is that not the most amazing irony? That which preserves us can also kill us.

Considering that the Moon is 238,900 miles from the Earth, these dangerous, radioactive belts must have been navigated safely with the technology available in 1969. The only other option would have been to “thread the needle”, so to speak, by using a trajectory that would have allowed astronauts to travel through a narrow window of space that would have avoided the highest concentrations of radiation within the belts.

If this path had been successfully traveled in 1969, and adequate shielding technology existed, why is the danger posed by the Van Allen belts considered to be the main obstacle and unsolved problem preventing a consecutive Moon landing today? The gringa suspects the answer may lie in the fact that there really was no successful 1969 Moon landing to begin with.

Here are the words and quotes NASA uses to describe the Van Allen belts today:

  • 2 donuts of seething radiation.
  • Impenetrable barrier.
  • Wax and wane.
  • Expose satellites in low-Earth orbit to damaging radiation.

So what did NASA do to deal with the dangers of the Van Allen belts? Did they come up with a competent strategy and deliver the real deal with a man on the Moon or did they scam the entire world?

Newly discovered in 1958 by scientist James Van Allen, not much was known about them two years later when the first solution was offered up. In 1960 Robert O. Piland and Stanley C. White told NASA that hoping to shield astronauts effectively from the radiation was impractical. They did believe they could provide moderate protection and a safe enough route that would enable astronauts to not fry as they passed through the outer belt.

NASA got to work with a Group On Trajectory Analysis. Van Allen, himself, suggested that by detonating a nuclear warhead the crew could clear a path of travel. The gringa can only say, “Thank goodness NASA didn’t do that!” However, the defense industry in the US really mucked things up by nuclear testing which only increased the intensity of the radiation levels in the belts.

In 1964 NASA officials were confident that with the right skin on the spacecraft, a layer of protection provided by instrumentation, and the right trajectory, the risk was nominal to the crew. Equipped with dosimeters to record radiation exposure, the gringa is puzzled over the final results as reported by NASA. The agency reports that over the course of all the Lunar missions, astronauts were only exposed to radiation levels that were actually lower than the 5 rem a person working in a nuclear power plant would be exposed to annually. The U.S. Nuclear Regulatory Commission claims that the average American is exposed to a radiation dose of about 0.62 rem annually. A full body CAT scan delivers a radiation dose of 1 rem. So any human going through some rather routine medical procedures can easily reach the same radiation exposure levels as what NASA reported in the Apollo Moon landing crew.

ISS astronauts deal with radiation issues daily. It took the gringa quite a bit of head scratching and calculating to discover how ISS astronaut radiation levels compare to the astronauts of the Apollo Moon missions. They use a different measurement, the SI system. Maybe, if there is a conspiracy, this is by design to confuse amateur sleuths like myself. Anyway, I digress.

Basically one mSv is the equivalent dose of radiation an average person would be exposed to on Earth in one year’s time. Astronauts on the ISS are exposed to 1 mSv daily! This exposure takes place well outside the Van Allen belts in a space station constructed with the latest technology in radiation shielding and manned by personnel equipped with the safest space suit equipment available. How, then, could minimally protected astronauts pass through highly radioactive belts not just once, but twice, and not be ravaged with radiation? If ISS astronauts report a daily radiation exposure equivalent to a year’s worth of radiation back home and are not in the belts themselves, how in the world is the public supposed to believe that the Apollo astronauts were only exposed to the amount of radiation a person would absorb if they had 4-5 full-body CAT scans?

The  gringa has become incredibly skeptical. The gringa is going to be hopping mad if she discovers hard evidence that proves we have all been had. NASA, please explain.

Sources:

www.nasa.gov

www.nrc.gov

www.popsci.com

www.mun.ca

www.newscientist.com

www.windows2universe.org

Image Credit: www.wakingtimes.com

Space For Europe IS the ESA


With ESA Astronaut Tim Peake performing a spacewalk this week on the International Space Station, the gringa thinks it’s only fitting to turn the limelight toward Europe’s space agency and their long history of achievement. The European Space Agency (ESA) is to Europe what NASA is to the United States, JAXA is to Japan and Rocosmos is to Russia. ESA is comprised of 22 member states who collaborate with their financial resources and intellectual talents to provide a gateway to the stars for all of Europe. Members are: Austria, Belgium, Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Ireland, Italy, Luxembourg, the Netherlands, Norway, Poland, Portugal, Romania, Spain, Sweden, Switzerland and the United Kingdom. Canada, Bulgaria, Cyprus, Malta, Latvia, Lithuania, Slovakia and Slovenia all make their own contributions as well through contractual agreements of cooperation.

The goals of the ESA are to discover more about Earth and its surrounding Solar System, as well as the entire Universe. These goals are met while at the same time promoting development of European technologies and sharing these with the world’s other space agencies.

Paris is the location of ESA headquarters. Germany is where ESA’s Astronaut Centre and Space Operations Centre are located. Astronomy Centres are found in Canada and Spain with the Earth Observation centre in Italy. The UK houses the centre for Space Applications and Telecommunications and launch bases are scattered throughout Belgium, the U.S.A., Russia and French Guiana. It can be rather dizzying with all of these operational centres spread all over the world. So, to keep things simple, because the gringa likes simple, for more information about ESA, simply go to their website, www.esa.int, or drop them a line or pick up the phone:

Communication Department
European Space Agency
8-10 rue Mario Nikis
75738 Paris
Cedex 15
France

Tel: + 33 1 5369 7155
Fax: + 33 1 5369 7690

ESA desires to explore space for peaceful purposes. While doing this it wants Europeans to benefit economic growth from the support services required to travel to the stars. Since its conception over thirty years ago, ESA has focused on long-term goals that are adaptable to a world that changes rapidly. The gringa wishes to highlight just a smattering of successful ESA missions:

  • ESRO-4, 1972: The ESRO-4 (European Space Research Organisation) satellite carried five experiments concentrating on Earth’s ionosphere, atmosphere, radiation belts and penetration of solar particle radiation into the magnetosphere. It was launched on 22 November 1972, on a NASA Scout rocket from the Western Test Range in California, and reentered Earth’s atmosphere after a successful mission on 15 April 1974.
  • 1977-2002 Mission Meteosat: launched multiple weather satellites
  • 1979 Mission Ariane: first launch of commercial launcher to secure Europe’s independent space access
  • 1983 Mission Spacelab: launched laboratory module for NASA’s Space Shuttle
  • 1985 Mission Giotto: intercept of Halley’s Comet and Comet Grigg-Skjellerup
  • 1990 Mission Hubble Space Telescope: ESA contribution of solar arrays and Faint Object Camera for Hubble Space Telescope
  • 1998 Mission ARD: launch of first European experimental re-entry vehicle
  • 2003 Mission Mars Express: launch of Europe’s first Red Planet orbiter
  • 2005 Mission Venus Express: launch of Europe’s first Venus orbiter
  • 2008-2012 Mission ATV: launch space truck for ISS re-supply
  • 2015 Mission Lisa Pathfinder: launch of technology to detect gravitational waves

Which brings the gringa to the current ESA Mission, “Principia”.  This six month mission is named after Isaac Newton’s book on physics, “Naturalis Principia Mathematica”. Peake’s mission objectives are to maintain the weightless research laboratory, conduct over thirty scientific experiments, and perform a spacewalk with fellow crewman Astronaut Tim Kopra, working together to replace a Solar Shunt Unit.

Preparing for the spacewalk involves breathing pure oxygen for two hours (to purge nitrogen) before embarking. Once spacesuits are donned, the astronauts enter an airlock where air pressure is gradually reduced until they can safely exit the ISS.

Upon successful completion of Mission Principia, ESA will then turn its attention and efforts to the next scheduled mission, Mission Exomars. Later on this year ESA will launch a Mars orbiter, rover and surface platform to the Red Planet. The gringa is so excited! To Mars! To Mars!

 

Source and Photo Credit:  www.esa.int

 

Allow Me To Introduce You To JAXA


Who is JAXA? JAXA is the Japan Aerospace Exploration Agency and they have been very busy. In 2010 JAXA was disappointed when their orbiter “Akatsuki”, which, in  English, means “dawn”, failed in its mission to orbit Venus. However, JAXA is not one to give up. The agency kept at it for five years and finally, in December, accomplished its mission.

Now that Akatsuki is orbiting Venus its cameras are transmitting a steady stream of images. One orbit cycle takes about thirteen and one-half Earth days. JAXA is tweaking its orbit path to eventually get its orbit cycle to nine Earth days. That will result in Akatsuki being closer to Venus which will improve the clarity of the images it sends back to JAXA.

Venus is a hot, volcanic planet that is about the same size as Earth. And, when I say hot, the gringa means hot enough to melt lead. Akatsuki will gather data on the weather and atmosphere of this steamy planet. Scientists are interested in the volcanoes.

JAXA operates all missions with the purpose to help create a safe society that can utilize space. The agency seeks to be a leader in technology and have technology used wisely for the benefit of society. The Japanese believe that as humans evolve, happiness should increase. JAXA is inspired to overcome the difficulties facing mankind. They intend to act responsibly to meet the expectations society has for the work the Agency performs. The slogan JAXA operates under is “Explore to Realize”.

JAXA desires to contribute to the well being of all people on Earth through their research and development. They believe this can be achieved by improving quality of life, providing safety and security, developing sustainable methods for living, and expanding the knowledge of all peoples.

JAXA was established in October of 2003. The following Spring the agency successfully performed its first series of flight tests for their Stratosphere Stationary Platform. Since their first successful test flights, JAXA has continued to perform successfully. Just a few of their many accomplishments throughout the years:

  • July, 2005, the agency launched “Suzaku”, an X-ray astronomy satellite.
  • July through August of 2005 Japanese Astronaut Souichi Noguchi joined the NASA Space Shuttle “Discovery” mission.
  • December, 2005, JAXA made history with the first EVER optical inter-satellite communication between Optical Inter-orbit Communications Engineering (OICETS) and the Advanced Relay and Technology Mission “ARTEMIS” of the European Space Agency (ESA)
  • 2006-2007, successfully launched eight different space vehicles
  • March, 2008, Astronaut Takao Doi served aboard NASA Space Shuttle “Endeavor” on mission to attach Experiment Logistics Module-Pressurized Section (ELM-PS) of JAXA’s Experiment Module “Kibo” to the International Space Station (ISS)
  • June, 2008, Astronaut Akihiko Hoshide served aboard NASA Space Shuttle “Discovery” on mission to attach Pressurized Module (PM) and Remote Manipulator System of JAXA’s Experiment Module “Kibo” to the ISS.
  • July, 2009, Astronaut Koichi Wakata attached Exposed Facility of JAXA’s Experiment Module “Kibo” to ISS. First Japanese Astronaut to complete a long-stay mission and returned home aboard NASA Space Shuttle “Endeavour”
  • December, 2009, Astronaut Souichi Noguchi served aboard Russian Soyuz spacecraft on mission to ISS, completed long-stay mission, returning to Earth June, 2010
  • June, 2011, Astronaut Satoshi Furukawa served aboard Russian Soyuz spacecraft on mission to ISS and returned to Earth November, 2011
  • July, 2012, Astronaut Akihiko Hoshide served aboard Russian Soyuz spacecraft on mission to ISS, returning to Earth November, 2012
  • November, 2013, Astronaut Wakata served aboard Russian Soyuz spacecraft on mission to ISS. March, 2014, Astronaut Wakata became first Asian commander of ISS. Returned to Earth May, 2014

JAXA has big plans for 2016. It expects to launch the Mercury Magnetosphere Orbiter (MMO) after it successfully completes a round of tests performed by the European Space Agency (ESA). It will launch from the Guiana Space Center in French Guiana.

It is also committed to being an active world partner in resolving the many issues humanity must resolve that are related to climate change. JAXA will use the ALOS-2 satellite to monitor and collect data related to deforestation. All data will be available to everyone worldwide through open access on the Internet.

JAXA aims to develop a tracking system for tropical forests. JAXA will be joined in its efforts by the Japan International Cooperation Agency (JICA) and many private corporations. By constantly monitoring worldwide forest loss, the agency hopes that this initiative will lead to successful conservation solutions. A public access website should be up and running by March, 2017 and will be updated every six weeks with the latest findings.

Goals are to restrain illegal logging and conserve forests that are critical to help reduce the effects of climate change. During 2009-2012 Brazil was cooperating with monitoring efforts. Over 2,000 incidents were revealed and action was taken that helped reduce the destruction of forests by forty percent. It is clear that this effort and mission JAXA is undertaking is a significant contribution to the future security of humanity by helping to minimize the effects of climate change.

With agencies like JAXA looking out for the interests of people all over the world, the gringa is confident that this place we all call home has a future where there is great hope. The international cooperation of so many space agencies is an inspiration that we can become a global community where our differences are not obstacles, but, rather, strengths. Because the gringa thinks the world would be a very boring place if we were all alike.

Source & Photo Credit: www.global.jaxa.jp