ScienceIQ.com

What Is a Bruise?

A bruise is a deposit of blood under the skin. It flows from tiny capillaries that break when you bump your shin on the furniture or take the batter's pop fly in the eye. The injury starts out looking red because of hemoglobin, the red pigment in red blood cells. As blood pools under the skin, light striking the red hemoglobin bounces back and ...

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WhatIsaBruise
Chemistry

Fire Retardant Gels

Ultra-absorbent diapers, the kind that will hold massive amounts of liquids, have been used for years, without a second thought given to the materials within them. Let's face it; those materials ... Continue reading

FireRetardantGels
Biology

The Ants Go Marching One by One, Hurrah!

Have you ever wondered how ants know the way from one place to another? Even when you remove them all, they are right back to the trail they were on before as if there were an invisible road telling ... Continue reading

AntsMarching
Astronomy

Backyard Telescopes for New Planets. Is it Possible?

Fifteen years ago, the largest telescopes in the world had yet to locate a planet orbiting another star. Today telescopes no larger than those available in department stores are proving capable of ... Continue reading

BackyardTelescopes
Geology

Metamorphic Rock

There are three rock types on earth, named according to how the rock is formed. Igneous rock forms as it cools to a solid from molten rock. Sedimentary rock is formed from the consolidation of ... Continue reading

MetamorphicRock

The Early Universe Soup

TheEarlyUniverseSoupIn the first few millionths of the second after the Big Bang, the universe looked very different than today. In fact the universe existed as a different form of matter altogether: the quark-gluon plasma or QGP, a weird 'soup' of quarks and gluons buzzing around frantically at temperatures of over 1,000,000,000,000 degrees.

Quarks are tiny particles (approximately same in size to electrons) which make up protons, neutrons and other so called 'hadron' particles. Just like photons are 'force carrier' particles for the electro-magnetic force, gluons are force carrier particles for the strong force. The strong force is the strongest force in the universe and is responsible for keeping the quarks 'glued' together inside protons and neutrons. The strong force is actually so strong that no one has even succeeded in separating individual quarks, they always come in pairs of two or three.

Immediately after the Big Bang the temperature was so high that it overpowered the gluons and freed the quarks to buzz around. The result was a dense 'soup' of free quarks and gluons; the quark-gluon plasma. This plasma quickly disappeared as the universe cooled. In fact, the QGP was gone within the first hundred-thousandth of a second when the gluons started 'trapping' all the quarks into hadrons (process called hadronization). After the first second or so the first nuclei started forming from those hadrons, and it took almost a billion years for the first atoms to form. Believe it or not, humans are trying to reproduce this QGP in the laboratory! A project called Phenix at the Brookhaven National Laboratory in Long Island is trying to produce QGP by smashing particles at extreme speeds inside an accelerator called RHIC (Relativisting Heavy Ion Collider). The early universe soup may be soon served at Brookhaven, back by popular demand after being forgotten for billions and billions of years!