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Crab Nebula

For millions of years a star shone in the far off constellation of Taurus. So far away, and so faint that even if our eyes were ten thousand times more sensitive, the star would still not be visible to us on the Earth. Then one day, in a few seconds, all that changed. An explosion beyond belief in its intensity lit up the heavens; it still shines, ...

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CrabNebula
Physics

Coming In Strong On Your AM Dial

The AM radio dial would be nothing but chaos and noise without a very basic rule - turn down the power at night. The Federal Communications Commission (FCC) controls and regulates the airwaves in the ... Continue reading

AMRadioWaves
Geology

Pointing North

The needle of a compass is a small magnet, one that is allowed to pivot in the horizontal plane. The needle experiences a torque from the ambient magnetic field of the Earth. The reaction to this ... Continue reading

PointingNorth
Astronomy

Does The Sun Go A Bit Wobbly?

Our Sun may seem an enduring, unwavering beacon in the sky, but in truth it has a 'heartbeat' of sorts--a pulsation between dimmer and brighter phases so slow that it only 'beats' 9 times each ... Continue reading

WobblySun
Medicine

There's No Such Thing as a Safe Suntan

Every time you step outdoors, you are bombarded by ultraviolet (UV) radiation from the sun. UV rays cause the number of free radicals in cells to increase. Free radicals are atoms or molecules that ... Continue reading

SafeSuntan

Why Does Cement Set?

WhyDoesCementSetConcrete has been known for literally thousands of years. It is a testament to the enduring strength of this material that concrete structures from those long-ago times are still standing strong today. What is going on inside concrete that makes this so? The answer is crystallization. When mixed with water, the molecular structure of the cement powder actually changes. Once all of the components are thoroughly mixed, and a more-or-less homogeneous mixture is obtained, the wetted components begin to recrystallize. But they don't just form the same things that they were before. What makes this work is that the components recrystallize as hydrated compounds. Each molecule of recrystallized and reformed material now incorporates a specific number of water molecules into the crystal. The water that was added to the mixture doesn't just evaporate or drain away; it actually becomes an integral part of the solid concrete.

As the wet mixture sets and hardens, billions of very small crystal blooms form throughout the mass and bind the whole thing together into a solid block. It is due to the physical interconnectedness of these crystal blooms and the other solid inclusions that concrete is so resistant to crushing, fracturing, stretching, and shearing. Once the wet mixture has solidified, it is not affected by water. Nor does water have much of an effect on the wet mixture once it has been put in place. A minor excess of water on the outside of the mass, such as occurs with standing water or when the surface is troweled smooth actually results in the formation of a smoother hard surface. The outside material separates from the larger aggregate particles and contains mostly recrystallized components and small aggregate particles. On solidification, these finer particles produce a smoother finished surface.

Too much water added to a mixture will prevent proper solidification; there is simply too much water to be included in the recrystallization process. Similarly, water that washes across the surface of the wet mixture carries away the dissolved components and prevents the mixture from solidifying. Mixtures for underwater applications - so-called 'hydraulic cement' - are blends designed to resist the intrusion of new water. It sets up quite quickly initially, which also keeps water out, and finishes setting in the normal way. Since air is not involved in the solidification process, it does not matter whether the concrete sets up to a solid block out of the water or completely under the water.