X-RAY wonder :) 14-billion-years-later: How X-rays Work.X rays hold a certain fascination in their ability to peer into the unknown and see bizarre things like snakes that have ingested light bulbs but like a lot of good things in science, X-rays were discovered entirely by accident. They’re usually attributed to Wilhelm Rontgen who noticed that a film across his lab begun to fluoresce during experiments with a Crooke’s Tube despite taking action to block radiation (in the form of a sheet of black card). It was then discovered that by moving his hand in between the Crooke’s tube and fluorescing screen he could see the bones in his hands.The ability for X rays to penetrate flesh and render hidden things visible lies in the amount of energy contained within them. They simply cannot be absorbed by most atoms because there is not enough of an energy difference between electron orbitals, as such they pass through most molecules and atoms unhindered. However heavier elements, such as calcium, are capable of absorbing X rays and so effectively block them. The formation of X rays lies in the reverse process. To produce high energy electromagnetic radiation electrons are accelerated and fired at a metal (typically tungsten) plate. These high velocity electrons ionize the metal by bumping off one of electrons in a lower energy orbital causing a higher energy electron to fall to the lower state and emit the difference of energies in the process as an X ray photon.

X-RAY wonder :)

14-billion-years-later:

How X-rays Work.

X rays hold a certain fascination in their ability to peer into the unknown and see bizarre things like snakes that have ingested light bulbs but like a lot of good things in science, X-rays were discovered entirely by accident. They’re usually attributed to Wilhelm Rontgen who noticed that a film across his lab begun to fluoresce during experiments with a Crooke’s Tube despite taking action to block radiation (in the form of a sheet of black card). It was then discovered that by moving his hand in between the Crooke’s tube and fluorescing screen he could see the bones in his hands.

The ability for X rays to penetrate flesh and render hidden things visible lies in the amount of energy contained within them. They simply cannot be absorbed by most atoms because there is not enough of an energy difference between electron orbitals, as such they pass through most molecules and atoms unhindered. However heavier elements, such as calcium, are capable of absorbing X rays and so effectively block them. The formation of X rays lies in the reverse process. To produce high energy electromagnetic radiation electrons are accelerated and fired at a metal (typically tungsten) plate. These high velocity electrons ionize the metal by bumping off one of electrons in a lower energy orbital causing a higher energy electron to fall to the lower state and emit the difference of energies in the process as an X ray photon.

Thanks for the chance.. let’s rock n’ rollin

:) :) :)

cheese cake :)

cheese cake :)

47 months & counting…

I supposed to have a happy & celebrating day today but suddenly a complete sadness appeared, buti na lang love natin isa’t isa.. we can stand even the deepest sadness of reality.. love you so much, Beh :)

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Hot Issue!!!

terrible headache

terrible people

Sharing Poetry: Edgar Allan Poe, "Valley of Unrest" ⇢

sharingpoetry:

Once it smiled a silent dell
Where the people did not dwell;
They had gone unto the wars,
Trusting to the mild-eyed stars,
Nightly, from their azure towers,
To keep watch above the flowers,
In the midst of which all day
The red sun-light lazily lay.
Now each visitor shall confess
The sad valley’s…

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WOOOOHOOOOO…

WOOOOHOOOOO…

(Source: courtneylewis, via shapeways)

89
Could 3D Printing Change the World? ⇢

smarterplanet:

Could 3D Printing Change the World? Technologies, Potential, and Implications of Additive Manufacturing explores the technology of AM and its broader implications, which include:

  • Assembly lines and supply chains could be reduced or eliminated for many products. AM can produce the final product—or large pieces of a final product— in one process.
  • Designs, not products, would move around the world as digital files are printed anywhere with any printer to meet design parameters. A “STL” design file can be sent via the Internet and printed in 3D.
  • Products could be printed on demand without the need for inventories.
  • A given manufacturing facility would be capable of printing a huge range of products without retooling—and each printing could be customized without additional cost.
  • Production and distribution of material products could become de-globalized as production is brought closer to the consumer.
  • Manufacturing could be pulled away from “manufacturing platforms” like China back to the countries where the products are consumed, reducing global economic imbalances as export countries’ surpluses are reduced and importing countries’ reliance on imports shrink.
  • The carbon footprint of manufacturing and transport as well as overall energy use in manufacturing could be reduced substantially and thus global “resource productivity” greatly enhanced and carbon emissions reduced.
  • Reduced need for labor in manufacturing could be politically destabilizing in some economies while others, especially aging societies, might benefit from the ability to produce more goods with fewer people while reducing reliance on imports.
  • The United States, the current leader in AM technology, could experience a renaissance in innovation, design, IP exports, and manufacturing, enhancing its relative economic strength and geopolitical influence.

whisperoftheshot:

(Source: whisperoftheshot, via shapeways)

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7million

it is.. ikaw lang ang happy.. where’s the  incentive?