ScienceIQ.com

Why Are Yawns Contagious?

Lots of animals yawn. It's a primitive reflex. Humans even begin to yawn before birth, starting about 11 weeks after conception. But contagious yawning doesn't start until about age 1 or 2. And even though yawning is used as a social signal by other animals, there's no clear evidence that yawning is contagious for other animals the way it is for ...

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YawnsContagious
Geology

Antarctica and Climate Change

Because of its influence on world weather and climate patterns, Antarctica lies at the heart of the debate on climate change and has become the premier location in which to study the effects of global ... Continue reading

AntarcticaandClimateChange
Biology

Cougars, A Jumping Star

Cougars would make great basketball or track-and-field players. Of all the big cats, they are the best jumpers. They can jump 40 feet forward from a standing position, and 15 feet or higher straight ... Continue reading

CougarsAJumpingStar
Astronomy

Sputnik and The Dawn of the Space Age

History changed on October 4, 1957, when the Soviet Union successfully launched Sputnik I. The world's first artificial satellite was about the size of a basketball, weighed only 183 pounds, and took ... Continue reading

Sputnik
Biology

How Do They Grow Those Colossal Pumpkins?

Those enormous pumpkins that set records every fall are living proof that both genes and environment make living things what they are. Home gardeners out to break the 2002 record for the world's ... Continue reading

ColossalPumpkins

X-ray Emissions From Comets

XrayEmissionsCometsThe X-ray emission from comets is produced by high-energy particles, but the high-energy particles come not from the comet but from the sun. Matter is continually evaporating from the solar corona in a flow called the solar wind. The solar wind is composed of ions of hydrogen, helium and small percentages of heavier elements such as carbon, nitrogen and oxygen moving at speeds in excess of a million kilometers per hour.

When these ions, which have a large positive charge, collide with a comet, they can pull electrons away from the neutral atoms (predominantly hydrogen) of the comet in what is called a charge-exchange collision. The electrons are usually captured into high-energy states of the solar wind ions, and emit X-rays as they shift into lower energy states. These X-rays have an energy that is equal to the difference in energy states, and if detected with an X-ray spectrometer, provide a telling signal that the charge-exchange collision is occurring.

By observing comets, scientists will learn more about the chemistry of the solar wind and the cloud of dust and gas surrounding comets.