Amazing Italy, From Art to Astronauts


My cosmic sister, Bea, hails from Italy and therefore has a special interest in the Italian Space Agency (ASI, Agenzia Spaziale Italiana). So, the gringa dedicates this post to Bea.

Since its inception in 1988, ASI has consistently made significant contributions to space technology development. ASI is part of the European Space Agency (ESA) and works closely with NASA as well. Italy has been, and will continue to be, a key player in the international space exploration community. Whether it is technology that gets a manned mission to Mars or technology that helps Earth observers intervene to prevent or respond to environmental disasters, the world can all extend a “brava” to Italy.

Italy has three active space centers. Ten kilometers east of Matera is ASI’s “Space Geodesy Center”, which opened for business in 1983. Earth observation and imaging is the primary mission of the programs at work at SGC. The “Luigi Broglio” Space Center, in operation since the 1960’s, is located on the coast of the Indian Ocean near Malindi, Kenya. It has an Earth segment base and an ocean segment base which launch and control satellites. The center that manages and analyzes all collected scientific data (ASDC) can be found at ASI headquarters in Rome. Not only is data analyzed here but mission monitoring is also conducted at this center.

The primary missions Italy’s has high involvement with are:

  • Created Multi-Purpose Logistic Modules (MPLM) Leonardo, Raffaello and Donatello for transporting scientific research necessities to the International Space Station (ISS)
  • Space Habitability – March 2001, Italy became the 3rd nation to launch an element integrated into the ISS, the logistics module “Leonardo”
  • Life Sciences – Biotechnology research to improve knowledge of: the aging process and effective countermeasures, immunology, technologies to enable the colonization of space by humans, therapeutic studies for improving the quality of life for all humanity
  • Bioregenerative Environmental Control Project (CAB) – to put it in plain English, gringa language, scientists learn how to recycle and repurpose just about everything into something useful such as: plant based life support system, water purification through transpiration, space greenhouses, etc.
  • Motor and Cardiorespiratory Control Disturbances Project (DCMC) is a program with the goal of improving the quality of life for people who suffer from neuromotor and cardiorespiratory disabilities.
  • Osteoporosis and Muscular Atrophy Project (OSMA) is of particular interest because of how conditions of reduced gravity cause these debilitations, that are typically linked with aging, to affect young, healthy, physically fit astronauts. The research goal is to understand how gravity controls the functions of bone and muscle.
  • Bed-Rest is a study that simulates the effects of zero gravity by having volunteers stay in bed for 7-120 days in a head-down position so that studies of the cardiovascular and renal systems can be conducted.
  • Earth observation and telecommunication with satellites: Miosat, PRISMA, ROSA, COSMO-SkyMed, PRIMI, and COPERNICUS
  • High Energy Astrophysics study is an Italian only programme that conducts research on the most violent space phenomena that occurs throughout the Universe. Satellites involved in this programmed: GLAST/Fermi, SIMBOL-X, SWIFT, PAMELA, INTEGRAL, AMS, AGILE
  • Cosmology and Fundamental Physics programme studies the evolution of the Universe. Satellites involved in the programme: BOOMERANG, GAIA, EUCLID, GALILEO GALILEI, HERSCHEL, LARES, Olimpo, Planck, Plato, Lisa Pathfinder

Lisa Pathfinder is the most recent success of Italy’s space agency that has made worldwide headline news. Lisa’s purpose is to detect gravitational waves in space. Italy designed the overall architecture of Lisa and is managing the project with the cooperation of Italy’s National Institute of Physics as well as ESA partners.

Lisa launched successfully last month and will lock into its final orbit around mid-February. This is phase one of the future construction of a space observatory that will continue studies of gravitational waves. Project completion is expected to be around the end of 2034. Italian scientists are beside themselves with pride that finally, after Einstein published his theory of general relativity over a century ago, the search for gravitational waves has, at last, begun, thanks, in huge part, to Italy.

And what else does the world have to look forward to from Italy? Of course, the gringa’s favorite space subject, GETTING TO MARS! Italy boasts leadership of both phases of ESA’s two phase EXOMars mission. In 2016 a probe will launch to orbit Mars and study methane and other gases as well as attempt to detect any presence of life. Later, in 2018, a rover will land on Mars and begin analysis of the soil. One more objective is to study any possible risks for future manned missions.

So, Italian suits, Italian shoes, Sophia Loren, Galileo, Michelangelo, and… astronauts, scientists, researchers, technology mavens. THAT IS AMAZING, ITALY!

Source & Photo Credit:  www.asi.it

 

Advertisements

“Back Up Life…”


SpaceX is the private company that is contracted with NASA to supply the space agency with the “Dragon”, a crew transport spacecraft designed for large crew capabilities as well as deep space missions. Elon Musk, the creator of SpaceX, recently gave an interview with GQ magazine. In that interview he voiced his concerns regarding accomplishing the Mars mission in light of the fact that this world’s nations just can’t seem to grow up and stop all of this war mess.

Musk’s big dream is to colonize Mars. Considering his accomplishments, the gringa believes he can achieve his dream. I mean, just think about it: he leads a company that has managed to develop technology that can design and build rockets at a fraction of the cost as NASA. SpaceX is also the first private company, ever, in all of the world, to have launched a spacecraft into orbit and have it successfully return to Earth. SpaceX has impressed NASA so much that it is contracted to manage resupply missions to the International Space Station as well as transport the astronauts between the ISS and Earth.

Musk believes colonizing Mars is more than just a glamorous adventure. He believes this mission is critical to the ultimate survival of the human species. Considering how mankind has been consistently annihilating one another since a caveman first created a club to sock it to his romantic rival, the gringa has no trouble at all believing Musk’s worst-case scenario of a natural or man-made disaster destroying life as we know it on Earth and the survivors starting over somewhere else. Why not Mars? Musk’s philosophy can be summed up in this statement, “You back up your hard drive… Maybe we should back up life, too?”

In addition to reusable rocket technology and personnel space ferries, SpaceX is developing “Mars colonial transport architecture” to further advance toward the ultimate goal. The gringa asks, “What the heck is that?”

A critical piece of this architecture is commonly called the BFR rocket (it has a technical name but Musk and the developers refer to it as BFR). Now, the gringa likes to keep things family friendly on these blog posts, but, just so you know, BFR actually stands for Big F*#@ing Rocket. I MEAN IT! No kidding! I love that! Scientists that have a sense of humor are right up the gringa’s alley.

The BFR is a two part rocket, booster rocket + spaceship. The booster is to break through the gravity and atmosphere of Earth. Once free, the spaceship is designed to travel through deep space to Mars. The gravity of Mars is weaker than Earth’s and also has a thinner atmosphere. Because of this the spaceship does not need a rocket booster to blast off from Mars for a return trip home.

In order for Martian colonists to create a self-sustaining environment on the Red Planet, what must be done? The planet has to be terraformed to create a warmer environment that will lead to ice melts so that it becomes a “watery” planet. Then fauna can be introduced that will help to create a breathable atmosphere. Musk considers Mars to be a “fixer-upper”. The gringa likes that term.

Nuclear energy could be used to help warm the planet. By converting technology that has been used to destroy life, the fusion bomb can be repurposed into technology that creates and sustains life (now, the gringa LOVES that!). As tiny pulsing suns at each Martian pole, this technology would create a warming effect without radiation and fallout. Mars would then experience the same benefits Earth has from its proximity to the Sun.

Now, NASA is devoted not only to preserving life on the planet Earth, but any life that may possibly be present throughout the cosmos. It has a Mars directive in place forbidding any mission landing near any area containing the potential for liquid water. That is because of the possibility of the presence of bio-organisms, life, causing cross-contamination, whether those organisms are of Earth and contaminate Mars or vice versa.

The good news, as far as the colonial mission goes, is that NASA’s research has not detected any life present on Mars, even on the microscopic level. So, if it is eventually determined that no life at all exists on Mars, the moral dilemma of invading, contaminating and/or destroying it is resolved and colonization can get the green light. The only life on Mars that might exist that NASA’s current research methods are unable to detect is subterranean microbial life.

So, who would like to give the pioneering life a shot and actually become a MARTIAN?  The gringa says, “Where’s the sign up sheet?”

Now, it’s pretty clear that Musk is the type of personality that is driven. There is very little that seems to get in his way when he has set a goal. His biggest concern regarding achievement of colonizing Mars is the very real reality of war. The Earth has never seen a single day in modern history where there has not been an active war somewhere. War could be the very thing that prevents progress.

War stood in the way of progress in the early 1900’s. It was supposed to be a golden era with no more war. Then, guess what? BAM! World War I started. Then World War II. Then the Cold War. However, the Cold War eventually led to the space race, so progress did come of that mess.

How possible is it, then, for progress toward colonizing Mars be disrupted? Pretty darn possible. So, the gringa says to all the religious zealots and war profiteering warmongers everywhere, “JUST STOP IT! KNOCK IT OFF! WE ARE SICK OF IT!”

Now, I know you must be itching to see just how much more fantastic Musk’s dream can get. Well, just check out his timetable. He is determined for all of this to be accomplished within his lifetime. If Musk gets his way (and he seems very apt at always getting his way) the world could see the first boots on the ground on Mars within the next ten to fifteen years.

In fact, before the end of 2015, or early in 2016, he plans to make a big announcement regarding his Mars-colonization plan. The gringa cannot wait to hear this crazy plan because I’m a crazy gringa who is his biggest fan!

 

Source: www.gq.com

Photo Credit: www.joserojas.org

The “Little Green Men” Star


If you happen to be a writer looking for fodder for a great science fiction story, you may want to delve into NASA reports regarding star KIC 8462852. NASA is fascinated by the strange goings on about this star and bears much resemblance to a pulsar named LGM-1 (Little Green Men). This pulsar emitted strange signals that created a stir within NASA and were ultimately determined to be a natural phenomenon. The strange events involving star KIC 8462852 have yet to solved.

Monitoring this star has been the responsibility of the Kepler mission for the past four years. In 2011, and later in 2013, two significant, and as yet unexplained, events took place. What do scientists really know? They know that the star dimmed because “something” passed in front of it large enough to block its light. The gringa says, “What the heck?”

In September scientists finally reported their theory and findings on what could possibly explain these strange events. They are blaming a “swarm” or “family” of comets. The gringa’s imagination begins whirling and thinks, “Or perhaps a fleet of starships.” Another theory suggests a cluster of planetary fragments and asteroids.

Scientists are using NASA’s Spitzer Space Telescope to probe deeper into this mystery. To learn more, scientists, who first studied the star using observations conducted in visible light, then tried using infrared light. This is because if asteroids were involved and actually impacted the star there will be a whole bunch of infrared light surrounding the star and the dusty old bits of gravel from a pulverized asteroid should be at the perfect temperature to glow like a firefly under infrared wavelengths.  And detecting infrared light is one of things the Spitzer Space Telescope is designed to do.

This year the Spitzer took a gander at star KIC 8462852 while looking at hundreds of thousands of stars in its search for planets. One thing in particular that Spitzer was looking for was infrared emission of space dust that encircled stars. Spitzer didn’t find any of this type of dust around star KIC 8462852 so scientists think the asteroid collision theory can probably be scratched.

So, the gringa wants to know just what their thinking is now. What the scientists seem to be leaning toward is the possibility of a “swarm” of cold comets. For such a theory to work, this cluster of comets would need to have an unusually long orbit around the star. They also call this theoretical comet cluster a “family” because it would require a “pack leader” to explain some of the phenomena. The larger “big daddy” that would be in the lead would have been the one to block the star’s light in 2011. In 2013 the rest of the family would have been passing through in front of the star and blocked the light again in the strange pattern that was recorded.  This would explain why in 2015, when Spitzer observed the star again, there were no infrared signatures. The comet “swarm” was long gone and probably around on the other side of the star in its orbit progression.

The gringa must confess to thinking, “Mm hmm. Scout ship shouts, ‘The coast is clear!’ and the support ships soon set a course for the coordinates.” Oh yes, what an imagination! But please don’t judge the gringa! I just couldn’t help myself when NASA itself goes and names a pulsar something like “Little Green Men-1”.

NASA admits that what is going on with this star is strange and not understood. Their interest is extremely piqued so study and research will continue until the curiosity of these scientists are satisfied. And I ask you, is that not the greatest job ever? For every little kid that has lain on their back in the grass in the dark of the night staring up at the stars and wondering if there really are “little green men” out there, is that not just the coolest job ever to grow up and get to do!

Source & Photo Credit: http://www.nasa.gov

 

 

 

How To Get A Job With NASA As A Research Assistant


If you have dreams of outer space like the gringa, just what opportunity is there at NASA? Who are they looking for? What qualifications should upcoming NASA employees plan to pad their resumes with? How much does such an interesting and dynamic job pay?

Over half of the jobs available with NASA are at the professional levels for engineers and scientists. If you plan to have a top notch job application for one of these positions, be sure to take as many classes as possible in mathematics, computer and aerospace engineering, meteorology, and even accounting.

About twenty-five percent of opportunities are for administrative staff. This kind of NASA role involves analytical skills, top notch researching abilities, specialization with information technology, and budgeting experience. These are college graduate level careers and critical for project management.

There is high level competition to get coveted aerospace industry jobs. One of the things to do to secure your best chance of getting hired at NASA is to find a mentor. Many universities have agreements with NASA for research assistants. Check this avenue out to help get a foot in the door for a shot at a job that has earning potential from $11,000 – $30,000 annually.

An example of a NASA research assistant job with a college is one that was recently advertised by the Department of Astronomy and Astrophysics at Penn State University. They announced an opening for a Research Assistant in the “Science Planner on the Science Operations Team of the Swift Gamma-Ray Burst” program. This is an ongoing NASA mission that has been operating since 2004.  Such a position requires a college degree in Physics or Astronomy.

Need scientists only apply? Well, not according to Angela Beaman who has a degree in Fine Arts. She got a research assistant position with NASA through the Horticulture Department at Iowa State University. The first thing she did was let a childhood curiosity about plants encourage an adult decision to pursue more knowledge. She showed up at the university’s horticultural center and simply started asking questions. That eventually led to a NASA fellowship studying the cultivation of basil through hydroponics. She explains that the most important trait to have in pursuing career dreams at NASA is determination which will see a person through a lifetime of continuing education.

As the gringa tends to her humble little patio garden, I consider how important these things are that we often take for granted. For space exploration to be possible at the “next level”, it’s not enough to know how to keep humans alive. We also have to know how to keep alive organisms that are life sustaining. Astronauts have to be able to provide some green stuff for long-term missions. This not only feeds their stomachs, but also their lungs as technology advances to create a self-contained biosphere that can sustain life through a long-duration mission. If you want to be a part, take some classes, ask questions, and get involved on any level.

Sources:

www.nasa.gov

https://www.quora.com/How-hard-is-it-to-get-a-research-assistant-position-at-NASA

http://www.careerbliss.com/nasa/salaries/graduate-research-assistant/

http://jobregister.aas.org/node/47927

Photo credit:

http://www.nasa.gov/audience/foreducators/plantgrowth/careercorner/Angela_Beaman_Profile.html

A Bit Of Sun & Hope For Humanity


Coming up in December is the one year anniversary of the test flight of the Orion spacecraft that launched from Kennedy Space Center December 5, 2014. The test flight was unmanned. Because of its success, the next time Orion punches through the Earth’s atmosphere, it will deliver astronauts to an asteroid in our Moon’s orbit to rehearse their Red Planet mission. That is the ultimate goal, after all, to have a full astronaut crew heading out to deep space with a final destination of Mars.

The amazing new technologies that will send astronauts farther than they have ever gone before is thanks, in part, to the students of science, technology, engineering and mathematics (STEM). NASA and Lockheed Martin offered students the opportunity to collaborate in this daring mission with a program called “Exploration Design Challenge”. What problem were these students asked to solve? The students were challenged to solve the most dangerous issue that faces humans in space – exposure to radiation. The gringa is very proud to say that these students rose to the challenge and their very own radiation experiment was on board for Orion’s test flight. If there was ever a reason for parents to encourage their children in STEM curriculum, parents, the time is NOW!

The emerging generation of scientists will inherit a planet that is rapidly changing. NASA needs this young talent more than ever. Researchers will manage the data collected from satellites and airborne missions. Engineers will keep these missions alive with their technological expertise. These are the critical thinkers the world needs to face the future challenges of rising sea levels and extreme weather events due to climate change. The next generation of astronaut explorers will be the ones to aid our planet in finding freshwater resources out in the cosmos to help replenish are own that are rapidly becoming depleted.

In 2014 NASA studies were published and revealed a rapidly melting western sheet of ice in Antarctica. This appears to be irreversible. Later in the same year, NASA, along with researchers at the University of California, Irvine, concluded that the potential threat of groundwater loss to America’s stable water supply may have previously been underestimated and things were worse than scientists thought. In August of 2014, NASA published research based on the discovery of a large amount of a compound creating ozone depletion. This was an unexpected surprise considering that for decades such a compound has been banned worldwide. Our world is in trouble and our best resource to solve these problems is in the minds of our youth.

The gringa is getting depressed with all this bad news so, let’s get back to the good news! The Orion! I simply must know all I can about this spaceship because the gringa is putting in that ship all her hopes that it is going to be the mother ship of a future fleet of ships that’s going to save humanity’s bacon.

The purpose of the test flight was to see if Orion was up to the task of the most dangerous parts of the mission. Those would be lift-off, entry, separations, the jettison of the Launch Abort System, descent and splashdown. However, most important of all was to test the heat shield that needed to be strong enough to protect astronauts, as well as all the technology on board, from 4,000 degree Fahrenheit temperatures and the related radiation. Is the dear reader dying to know Orion’s report card? The gringa is!

At 7:05am at Cape Canaveral Air Force Station in Florida, Orion was prepped to lift off with the help of a United Launch Alliance Delta IV Heavy rocket. Three RS-68 engines created almost two million pounds of thrust which then pushed a 1.63 million pound spacecraft into orbit. After about four minutes the side boosters disengaged and fell away to Earth. The center booster remained with Orion for another ninety seconds. When its fuel was spent, it disengaged and also fell back to Earth. The next thing to release its hold on Orion was the structural supports and the Launch Abort System. Orion was headed out of Earth’s atmosphere.

Seventeen minutes and thirty-nine seconds after lift-off, Orion began its orbit. Two hours into its flight, Orion traveled through the Van Allen radiation belts which are 3,609 miles away. Data recorders provided critical calculations on the doses of radiation within the cabin. This determined if the craft was of sound design and safe to man with a human crew. Three hours and twenty-three minutes into its flight, Orion headed for Earth’s atmosphere where the heat shield withstood the brutal re-entry friction.

What is re-entry like? Orion hit Earth’s atmosphere at a speed of 20,000 mph. The gringa can only say, “Incredible!” The spacecraft gets so amazingly hot at that speed, it is eventually enveloped in plasma. Plasma is considered the fourth state of matter after solids, liquids and gases. When plasma is created on Orion upon re-entry, what happens is that the heat and friction become so energized that electrons break free from their nucleus and travel along with them. That’s what the Sun does all the time. It’s just a big, ol’ ball of plasma. Orion creates a little bit of Sun on re-entry. The gringa’s mind is filled with the Beatles refrain, “Here comes the sun, little darlin’. Here comes the sun. And I say it’s alright.” After all, ultimately that IS the plan, RIGHT? Orion is going to help launch the scientific efforts that hopefully will make everything wrong with the environment alright? Or, at least give humanity some viable options and hope?

After picking up Orion as it bobbed amongst the waves of the Pacific of the coast of Baja, California, NASA used the data to make improvements for the upcoming manned mission. Astronauts will continue their own preparations for a mission that is sure to make history in so many ways. If everyone at NASA is excited about the future, then they truly believe in the mission. The gringa will take her cue from them and toss out the doom and gloom and grab hold of hope and positivity. I will hold fast to an exciting future that most certainly is full of change, but change is not necessarily always a bad thing.