ScienceIQ.com

How Does The Turtle Get Its Shell?

Many invertebrates, such as beetles and lobsters, have shells, but the turtle is the only living vertebrate with a shell (except for the armadillo or course). A turtle's top shell is called the 'carapace', and the matching bottom shell is called the 'plastron.' How does a turtle get his pair of protective shells? Why he grows them of course! ...

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HowDoesTheTurtleGetItsShell
Biology

What Elements Are Required By Animals And Plants For Survival?

An understanding of our fragile environment can begin with a recognition of the importance of certain elements, commonly called 'mineral substances' (such as iron and zinc), in the lives of humans and ... Continue reading

AnimalsPlantsSurvival
Astronomy

The Real Lord of the Rings

Why is Saturn the only planet with bright, easily seen rings? Saturn is not the only planet in our solar system with rings. Jupiter, Neptune and Uranus all have rings. Jupiter's rings are much smaller ... Continue reading

Saturn
Chemistry

What Is Acetone?

Acetone is a manufactured chemical that is also found naturally in the environment. It is a colorless liquid with a distinct smell and taste. It evaporates easily, is flammable, and dissolves in ... Continue reading

WhatIsAcetone
Engineering

NASA Hits a Hole-In-One

How are NASA and golf related? Ask the professional golfers using clubs made from NASA's space-age technology. NASA needed stronger, more durable materials for its space missions. A landmark discovery ... Continue reading

NASAHitsaHoleInOne

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.