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X Ray Quotes

Browse 19 quotes about X Ray.

X Ray Quotes

“Borges's extreme architecture attempts to visualize the universe by assigning to every object real and unreal, now and yet to come, a code or sign, a corresponding figure within the Library. It seeks to render totality visible, to effect a total visibility and visuality. The Library of Babel is a view of the universe inside and out, an X-ray of the universe and universal X-ray, seen from within and without. It is a representation of everywhere: a perfect duplication of the universe. And of you: universal. An endless and eternal cinema, an imaginary archive that extends into the universe until it is indistinguishable from it, until you are indistinguishable from the universe.”

“People ask me where I got my x-ray powers. I inherited them from my parents in parental supervision. Erase the dots and your doubts if you think that I was 'raysed' alone.”

“Allergies, it seems like everyone is developing them. I lived an allergy free life until I passed through a computed tomography X-ray scanner having my lungs examined. Afterwards I was extremely reactive to pollen with a runny nose and heavy sneezing every spring. It does respond to allergy medication and in my medicine cupboard you will find numerous allergy medications. Research into X-Ray radiation revealed that allergies are a known side effect of the exposure.”

“It's a shame, when I'm at the checkout line, and the cashier holds up my bill to the light, in search for a ghost president, or slashing a yellow marker to see if counterfeit. Even in money we can't be trusted. Makes we wonder whats next, will the government make a marker to slash our hand, or an x-ray we will have to walk through, to check if we have a dishonest heart or corrupt spirit?”

“I was working with a Crookes tube covered by a shield of black cardboard. A piece of barium platino-cyanide paper lay on the bench there. I had been passing a current through the tube, and I noticed a peculiar black line across the paper. ... The effect was one which could only be produced in ordinary parlance by the passage of light. No light could come from the tube because the shield which covered it was impervious to any light known even that of the electric arc. ... I did not think I investigated. ... I assumed that the effect must have come from the tube since its character indicated that it could come from nowhere else. ... It seemed at first a new kind of invisible light. It was clearly something new something unrecorded. ... There is much to do, and I am busy, very busy. [Describing to a journalist the discovery of X-rays that he had made on 8 Nov 1895.]”

“In describing a protein it is now common to distinguish the primary, secondary and tertiary structures. The primary structure is simply the order, or sequence, of the amino-acid residues along the polypeptide chains. This was first determined by [Frederick] Sanger using chemical techniques for the protein insulin, and has since been elucidated for a number of peptides and, in part, for one or two other small proteins. The secondary structure is the type of folding, coiling or puckering adopted by the polypeptide chain: the a-helix structure and the pleated sheet are examples. Secondary structure has been assigned in broad outline to a number of librous proteins such as silk, keratin and collagen; but we are ignorant of the nature of the secondary structure of any globular protein. True, there is suggestive evidence, though as yet no proof, that a-helices occur in globular proteins, to an extent which is difficult to gauge quantitatively in any particular case. The tertiary structure is the way in which the folded or coiled polypeptide chains are disposed to form the protein molecule as a three-dimensional object, in space. The chemical and physical properties of a protein cannot be fully interpreted until all three levels of structure are understood, for these properties depend on the spatial relationships between the amino-acids, and these in turn depend on the tertiary and secondary structures as much as on the primary. Only X-ray diffraction methods seem capable, even in principle, of unravelling the tertiary and secondary structures. [Co-author with G. Bodo, H. M. Dintzis, R. G. Parrish, H. Wyckoff, and D. C. Phillips]”

“There's an urban myth, still popular in some quarters, that the Glock can't be detected by X-ray machines. The myth was spread by a Bruce Willis line in the 1990 movie Die Hard 2: "That punk pulled a Glock 7 on me. You know what that is? It's a porcelain gun, made in Germany. Doesn't show up on your airport X-ray machines." Every bit of the line was false: there was no such thing as a "Glock 7"; Glocks are made of polymer, not porcelain; it was made in Austria, not Germany; and they do show up on X-ray machines. But in a strange twist, the firestorm of controversy triggered by the false rumors may have helped goose publicity and aid Glock sales.”

“This early X-ray revealed the bones and impressive ring of Bertha Röntgen, wife of Wilhelm Röntgen. Wilhelm, who feared he'd gone mad, was relieved when his wife also saw the bones of her hand on a barium-coated plate. She, less sanguine, thought it an omen of death.”