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Finding Ice In The Rocks--Evidence Of Earth's Ice Ages

In the late 1700s, geologists began trying to determine how huge boulders of granite weighing several tons could have moved as much as 80 km (50 miles) from their origins in the Swiss Alps. Some thought they must have been transported by the Great Flood. Geologists who examined the alpine valleys downslope from glaciers noted that the hard bedrock ...

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EarthsIceAges
Biology

Does Your Beagle Have A Belly Button?

Our navels, also know as belly buttons, are scars left over from our umbilical cords. While in the mother's womb, a baby receives food and oxygen and rids itself of waste through the umbilical cord. ... Continue reading

BeagleBellyButton
Physics

The Doppler Effect

As any object moves through the air, the air near the object is disturbed. The disturbances are transmitted through the air at a distinct speed called the speed of sound, because sound itself is just ... Continue reading

TheDopplerEffect
Biology

Where Do Frogs Go In The Winter?

Mammals are endotherms, meaning they maintain a constant body temperature no matter what the environmental conditions are. For example, humans, dogs and cats are mammals. When the weather gets cold, ... Continue reading

WhereDoFrogsGoInTheWinter
Astronomy

Large Asteroid Zooms Safely Past Earth

A mountain-sized asteroid made its closest approach to Earth at 9:35 a.m. Eastern Time on Wednesday, Sept. 29, 2004. Although asteroid 4179 Toutatis came no closer than four times the distance between ... Continue reading

LargeAsteroidZoomsPastEarth

You, Graphite and Diamonds

GraphiteDiamondsLiving things, including you and me, and diamonds, are made of the same substance: the element carbon (C). Carbon atoms in our bodies are bound to other atoms, such as hydrogen and oxygen, in organic molecules, while those in a diamond are bound to other carbon atoms to form a pure crystalline structure. Another form of pure carbon is graphite. Even though we are carbon relatives with graphite and diamonds, diamonds are by far the strongest.

In a diamond, all four outer electrons of the carbon atom are covalently bonded to other carbon atoms to form an extremely strong three-dimensional crystalline structure. In contrast, only three of the four outer electrons of the carbon atom are bonded to other carbon atoms in graphite; forming sheets of carbon atoms rather than a 3D crystal. Hence graphite is very slippery (carbon sheets slipping on top of each other) and breakable, while diamonds are the hardest material on Earth.

All diamonds were formed between 1 and 3 billion years ago by a combination of extremely high temperatures and pressures, about 100 miles (160 km) deep inside the Earth. At the same temperature, graphite only needs a third or a quarter of that pressure to form. As a result, graphite forms much closer to the Earth's surface and is easily mined. So how do we extract diamonds? Do we dig mines 100 miles deep? Fortunately, we don't have to. Diamonds get carried up to the surface by volcanic eruptions while embedded into volcanic rock known as kimberlite. Volcanic eruptions travel upwards at speeds anywhere between 10 and 100 mph (16 to 160 km/h). If they traveled much slower, diamonds would convert to graphite on the way up. We would have never known about diamonds, and engagements would have had a whole different feel to them … a slippery and black one.