ScienceIQ.com

An Old Science Experiment On The Moon

The most famous thing Neil Armstrong left on the moon 35 years ago is a footprint, a boot-shaped depression in the gray moondust. Millions of people have seen pictures of it, and one day, years from now, lunar tourists will flock to the Sea of Tranquility to see it in person. Peering over the rails ... 'hey, mom, is that the first one?' Will anyone ...

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AnOldScienceExperimentOnTheMoon
Chemistry

Your Nose Knows!

Would you like spearmint or caraway flavor? That's a strange choice, but believe it or not, they are the same thing. Well, almost. Spearmint and caraway both contain a molecule called carvone with the ... Continue reading

YourNoseKnows
Biology

Synchronicity

There's something called synchronicity that we've probably all experienced at one time or another. Some people prefer the term 'meaningful coincidence.' You're thinking about your friend from high ... Continue reading

Sinchronicity
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

When A Bass Isn't A Bass

Chilean Sea Bass, a very popular though overfished deep-sea fish, is not a bass at all. It is actually a Patagonian Toothfish (Dissostichus eleginoides), or sometimes its cousin, the Antarctic ... Continue reading

SeaBass

What is Oxidation?

WhatisOxidationThe term 'oxidation' derives from the ancient observation of rust (oxide) formation. Early chemists could determine an increase in the weight of a metal as it apparently captured something from the air and transformed into a completely different material The 'something' was eventually identified as oxygen, and the new materials that formed were called 'oxides'. The chemical process came to be known as oxidation.

The underlying transaction of oxidation was eventually identified as an alteration of the electronic structure of an element or compound. More accurately, this can be described as how strongly an atom 'owns' or controls the electrons around it. In an ion and ionic bonding, the atom controls its electrons completely, either by accepting them or by giving them up. In covalent bonding, an atom can be seen as sharing control of its electrons with another atom.

In oxidation, an atom loses control over a certain number of electrons to a material called an oxidizing agent. The loss of electrons by a chemical species is oxidation. Oxidation always occurs simultaneously with reduction. For example, the sulfide ion, S2-, can be easily oxidized to neutral sulfur atoms. To do this, each sulfide ion must give up ownership of two electrons to an oxidizing agent. In another example, the two carbon atoms of a carbon - carbon double bond lose control of two electrons in the reaction with an oxidizing agent to form two C - O bonds.