5 Mysteries About Space That Might Have Horrifying Answers

Hubble Hones In on a Hypergiants Home : The super star cluster Westerlund 1, only 15,000 light-years away in our Milky Way neighborhood, hosts one of the largest stars ever discovered.

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Amédée Guillemin, Les comètes (1875)

The NASA Village

Today in the NASA Village… Environmental Monitoring: How Clean is it?

So, the International Space Station has been operating for 16 years now. Do you wonder how clean is the air astronauts breathe or the surfaces that the astronauts touch each day? Are there hazardous levels of bacteria or other toxic components in the drinking water supply? Obviously on this (18+ year) long duration endeavor, we have to monitor the air quality, the microbial content of the air, surfaces, and water, the sound levels we are experiencing, and the radiation doses that we are being exposed to. These data are not only critical for safety of the astronauts while on board, but for long term occupational health monitoring. Future deep space explorers will benefit from lessons we are learning now. 

Needless to say, there are some specialized pieces of hardware that we have to know how to operate in order to perform this environmental monitoring. Elisca Hicks first joined NASA by working in the Education and Outreach Program. She later transitioned to the Space Medicine Training team in 2005. Elisca currently has a dual role in the Space Medicine Training Team. She is an instructor, she teaches the environmental monitoring hardware to Space Station crew members, but she also coordinates multiple medical student and doctor programs at Johnson Space Center. 

This media slide containing mold is what Elisca teaches us to use. This helps us identify if there are issues or areas that need our additional attention.

This picture shows mold found growing on a kit that was being used in an experiment. Inside the kit were tubes that contained a swab and liquid in them. The tubes were damaged (cracked lids) and they leaked, causing the mold to grow on the kit.

Here Elisca is showing me how to place the media tray in the microbial air sampler.

Consider that the lack of gravity means that dust does not collect just on the upper surfaces, but on all the surfaces. The ventilation system moves a lot of the debris to the filters, but electrostatic forces result in the potential for debris to collect pretty much anywhere. The worst air quality can be seen when the callouses of the crew members feet begin to come off about month 2. Remember, we are not using the bottoms of our feet for walking, so we actually get callouses on the tops of our toes from sliding them under handrails!

Next time on the NASA Village… You Need to Experience It.

Do you want more stories? Find our NASA Villagers here!

What a stunner! See Jupiter’s southern hemisphere in beautiful detail in this new citizen-scientist-processed JunoCam image.

Jupiter. The king of our solar system. It might not be the greatest picture ever taken of Jupiter but at least I get to call it mine! You can even make out Jupiter’s great red spot, a storm so big that it could engulf Earth 3 times over!

Milky Way & shooting stars.

NASA‘s Juno: spacecraft has successfully entered orbit around the gas giant Jupiter. 

After five years and 1.7 billion miles the probe accomplish a risky braking manoeuvre in order for it to be hooked by Jupiter’s gravity. NASA’s Jet Propulsion Laboratory, California received the confirmation signal which confirmed Juno had finally entered orbit on July 4. Juno will begin a two-year mission of discovery which will help scientists better understand one of the largest objects in our solar system.

Using Juno’s complex array of cameras and sensors the team hope to answer some long-awaited questions including whether Jupiter actually has a solid core or if it really is just a swirling ball of gas. Another focus will be the Great Red Spot - a massive storm several times the size of Earth that has been raging on the surface of Jupiter for what appears to be hundreds of years. Juno is the fastest spacecraft to ever enter orbit around a planet, travelling at an astonishing 130,000mph by the time it reached the gas giant.

What’s Up for March 2017?

What’s Up for March? The moon hides red star Aldebaran and crescents dazzle after dusk.

On March 4 the first quarter moon passes between Earth and the star Aldebaran, temporarily blocking our view of the star. This is called an occultation. 

The occultation begins and concludes at different times, depending on where you are when you view it.

The event should be easy to see from most of the U.S., Mexico, most of Central America, the Western Caribbean and Bermuda. 

Observers along a narrow path from Vancouver, British Columbia, to Hartford, Connecticut, will see the moon “graze” the star. The star will disappear and reappear repeatedly as hills and valleys on the moon alternately obscure and reveal it.

As seen from Earth, both Mercury and Venus have phases like our moon. That’s because they circle the sun inside Earth’s orbit. 

Planets that orbit between Earth and the sun are known as inner or inferior planets.

Inferior planets can never be at “opposition,” which is when the planet and the sun are on opposite sides of Earth.

But inferior planets can be at “conjunction,” which is when a planet, the sun and Earth are all in a straight line. 

Conjunction can happen once when the planet is on the opposite side of the sun from Earth and again when it’s on the same side of the sun as Earth. 

When a planet is on the opposite side of the sun from Earth, we say it is at “superior conjunction.” As the planet moves out from behind the sun and gets closer to Earth, we see less and less of the lit side. We see phases, similar to our moon’s phases. 

Mercury is at superior conjunction on March 6. 

A few weeks later, the planet emerges from behind the sun and we can once again observe it. By the end of March we’ll see a last-quarter Mercury.

 On April 20 Mercury reaches “inferior conjunction.”

Brilliant Venus is also racing toward its own inferior conjunction on March 25. Watch its crescent get thinner and thinner as the planet’s size appears larger and larger, because it is getting closer to Earth.

Finally, look for Jupiter to rise in the East. It will be visible all month long from late evening until dawn.

You can catch up on solar system missions and all of our missions at www.nasa.gov

Watch the full “What’s Up for March 2017″ video here: 

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