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10 Tips for Healthy Hair

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10 Tips for Healthy Hair

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This video offers tips on how African American women can achieve and maintain long, natural, healthy hair.

Hair is a protein filament that grows through the epidermis from follicles deep within the dermis. The fine, soft hair found on many nonhuman mammals is typically called fur; wool is the characteristically curly hair found on sheep and goats. Found exclusively in mammals, hair is one of the defining characteristics of the mammalian class.

Although other non-mammals, especially insects, show filamentous outgrowths, these are not considered “hair” in the scientific sense. So-called “hairs” (trichomes) are also found on plants.

The projections on arthropods such as insects and spiders are actually insect bristles, composed of a polysaccharide called chitin. There are varieties of cats, dogs, and mice bred to have little or no visible fur. In some species, hair is absent at certain stages of life. The main component of hair fiber is keratin.

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Newton’s Apple

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Myth: Newton devised his universal law of gravity when an apple fell on his head from the tree under which he was sitting

It is always exciting to think of a great discovery happening in the blink of an eye due to a coincidental event – we consider that if it were not for the right person being in the right place at the right time, man would have lost an incredibly significant piece of knowledge. For this reason people have clung to the idea that Newton devised his universal law of gravity because of an apple hitting him on the head. But in fact the first mention of an apple in relation to Newton came 60 years after his death: “Whilst he was musing in a garden it came into his thought that the power of gravity (which brought an apple from the tree to the ground) was not limited to a certain distance from the earth but that this power must extend much further.” (John Conduitt)

Interesting Fact: Though he is better known for his love of science, the Bible was Sir Isaac Newton’s greatest passion. He devoted more time to the study of Scripture than to science, and he said, “I have a fundamental belief in the Bible as the Word of God, written by those who were inspired. I study the Bible daily.” He spent a great deal of time trying to discover hidden messages within the Bible.

Living robots powered by muscle

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The robot is a dramatic example of the marriage of biotechnology with nanotechnology

Tiny robots powered by living muscle have been created by scientists at the University of California, Los Angeles.

The devices were formed by “growing” rat cells on microscopic silicon chips, the researchers report in the journal Nature Materials.

Less than a millimetre long, the miniscule robots can move themselves without any external source of power.

The work is a dramatic example of the marriage of biotechnology with the tiny world of nanotechnology.

In nanotechnology, researchers often turn to the natural world for inspiration.

But Professor Carlo Montemagno, of the University of California, Los Angeles, turns to nature not for ideas, but for actual starting materials.

In the past he has made rotary nano-motors out of genetically engineered proteins. Now he has grown muscle tissue onto tiny robotic skeletons.

Living device

Montemano’s team used rat heart cells to create a tiny device that moves on its own when the cells contract. A second device looks like a minute pair of frog legs.

“The bones that we’re using are either a plastic or they’re silicon based,” he said. “So we make these really fine structures that mechanically have hinges that allow them to move and bend.

“And then by nano-scale manipulation of the surface chemistry, the muscle cells get the cues to say, ‘Oh! I want to attach at this point and not to attach at another point’. And so the cells assemble, then they undergo a change, so that they actually form a muscle.

“Now you have a device that has a skeleton and muscles on it to allow it to move.”

Under a microscope, you can see the tiny, two-footed “bio-bots” crawl around.

Professor Montemagno says muscles like these could be used in a host of microscopic devices – even to drive miniature electrical generators to power computer chips.

But when biological cells become attached to silicon – are they alive?

“They’re absolutely alive,” Professor Montemagno told BBC News. “I mean the cells actually grow, multiply and assemble – they form the structure themselves. So the device is alive.”

The notion is likely to disturb many who already have concerns about nanotechnology.

But for Carlo Montemagno, a professor of engineering, it makes sense to match the solutions that nature has already found through billions of years of evolution to the newest challenges in technology.