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Pangea

From about 280-230 million years ago, (Late Paleozoic Era until the Late Triassic) the continent we now know as North America was continuous with Africa, South America, and Europe. Pangea first began to be torn apart when a three-pronged fissure grew between Africa, South America, and North America. Rifting began as magma welled up through the ...

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Pangea
Chemistry

Catalysts

Chemical reactions are interactions between atoms and molecules that result in a change in their relative arrangements and interconnections. The reaction affects only individual atoms and molecules, ... Continue reading

Catalysts
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
Biology

Yes! We Have New Bananas

Did you know that a plant disease determined what banana variety is in your market? Bananas, which originated in Africa and are now grown in every tropical region, are perhaps the most popular fruit ... Continue reading

YesWeHaveNewBananas
Biology

The Dogma of Life

Dogmas are authoritative tenets common in religion and philosophy. But in molecular biology? Molecular biology has a central dogma, proposed by Francis Crick in 1953, that says that genetic ... Continue reading

MolecularBiology

Hybrid Cars: The Magic Braking

HybridCarsYou have undoubtedly seen one of the hybrid cars on the road. You probably heard that they are unlike any other fossil fuel or electric car. They are sort of both.

If you owned one of these hybrid cars, you would put gasoline into it, just like you do for your regular car. You would not have to recharge it, like an electric car. Still, your hybrid car would be capable of using half the gasoline that your regular car does for the same trip! How is that possible? The secret is in the braking.

When you step on your brakes, what happens? The car slows down because two metal blocks in your wheels rub together. This friction-based braking produces a lot of heat; just like the palms of your hands get warm when you rub them together rapidly. This heat is basically wasted energy. Hybrid cars have a more intelligent braking system, so called regenerative braking. Instead of wasting the heat energy, they transfer it to an electrical generator and battery (and hence self-charge), or a fly-wheel and store it for later use. The onboard computer then calculates the best time to use this stored energy and reduce combustion engine use. Thus a hybrid car drives on combustion engine only part of the time. This switch between combustion engine and electric motor power is in most cases so seamless that you don't even notice it. This concept is ingenious and environment-friendly.