ScienceIQ.com

How Many Cows Does It Take To String A Tennis Racquet?

How many cows does it take to string a tennis racquet? According to Professor Rod Cross of the University of Sydney, an expert on the physics and technology of tennis, the answer is 3. Many top professional tennis players still prefer to string their racquets with natural gut instead of synthetics due to natural gut's soft feel, high elasticity and ...

Continue reading...

TennisRacquet
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
Chemistry

What Makes a Candle Burn?

Have you ever wondered how a candle works? If you haven't, think about it for a while. Why does it take so long for the wick to burn down? Why does it need a wick at all? ... Continue reading

CandleLight
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
Biology

What Makes Those Jumping Beans Jump?

Mexican jumping beans intrigue us because we don't understand how this inanimate object could actually jump, even though we see it with our own eyes. It is the question everyone wonders when they see ... Continue reading

WhatMakesThoseJumpingBeansJump

What Gives Hair Its Color?

WhatGivesHairItsColorPut a single hair under a microscope, and you'll see granules of black, brown, yellow, or red pigment. What you are seeing are tiny particles of melanin, the same pigment that gives skin its color. Inside hair follicles, special cells called melanocytes produce melanin, which is deposited in the middle layer, or cortex, of the three-layered hair shaft. As the hair grows upward, pigment continues to form in the cells of the cortex. Some hair follicles make more pigment than others. Usually the hair of eyebrows is the darkest colored hair on the body.

In hair as in skin, there are two kinds of melanin. Eumelanin makes hair black or brown. Pheomelanin makes it red or blond. Only redheads--or those carrying the genes for red hair--make pheomelanin. Auburn-hair results from pheomelanin nearly hidden by eumelanin, and pheomelanin present in small amounts can make black hair shiny.

Pigment production changes with age. Often Caucasians who are blond in infancy produce darker hair as they grow older. The gray or white hair of old age results from a loss of activity in the melanocytes. In young people, an enzyme called tyrosinase breaks apart the amino acid tyrosine as an important step in the manufacture of melanin. As people get older, less of that enzyme is produced, so less melanin is made. Eventually, the hair shaft grows out with little, if any pigment in the cortex. What's left is the color keratin. Keratin is the main protein that forms the structure of the hair shaft. Keratin without melanin looks yellowish gray.