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Subrahmanyan Chandrasekhar

NASA's premier X-ray observatory was named the Chandra X-ray Observatory in honor of the late Indian-American Nobel laureate, Subrahmanyan Chandrasekhar (pronounced: su/bra/mon'/yon chandra/say/kar). Known to the world as Chandra (which means 'moon' or 'luminous' in Sanskrit), he was widely regarded as one of the foremost astrophysicists of the ...

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SubrahmanyanChandrasekhar
Science

Serendipity In Science

Most scientists accept the notion that serendipity plays a major role in their work. Too many discoveries have been, after all, the result of 'lucky accidents.' In the 16th century, for example, ... Continue reading

SerendipityInScience
Engineering

Non-Flammable Fuel?

When we're flying high above the Earth, few of us give much thought to aircraft safety. We're usually too busy wondering when lunch is going to be served. But flying safely is a goal of NASA's Glenn ... Continue reading

NonFlammableFuel
Engineering

What Are Composite Materials?

A composite material is one in which two or more separate materials have been combined to make a single construct having more desirable properties. What many people don't realize is that composites ... Continue reading

CompositeMaterials
Medicine

Fighting Viruses

Viral diseases can be very difficult to treat because viruses live inside the body's cells where they are protected from medicines in the blood stream. Researchers developed the first antiviral drug ... Continue reading

FightingViruses

Mixed Up In Space

MixedInSpaceImagine waking up in space. Groggy from sleep, you wonder ... which way is up? And where are my arms and legs? Throw in a little motion sickness, and you'll get an idea of what it can feel like to be in space. Consider, for example, 'up' and 'down.' On Earth we always know which way is up because gravity tells us. Sensors in our inner ears can feel the pull of gravity and tell our brain which way is up. In space, however, there is no pull of gravity and the world can suddenly seem topsy-turvy.

Our balance isn't the only thing affected by the absence of weight. The nerves in our body's joints and muscles normally tell us where our arms and legs are without having to look. But without the pull of gravity, we can lose that awareness, too.

These sorts of mismatches between what the eyes see and what the body feels can trigger 'space sickness.' Figuring out how to prevent space sickness, and how to treat it when it happens, is a high priority for NASA. For that reason, in 1997, NASA helped establish the National Space Biomedical Research Institute (NSBRI). There researchers study how humans adapt to weightlessness and work to develop 'countermeasures' against space sickness. Much of the NSBRI's research is conducted on Earth and can directly benefit millions of people who never leave our planet. For example, an estimated two million American adults suffer chronic problems with dizziness or balance. Figuring out why we're mixed up in space can have some down-to-Earth benefits!