Ray$96777$ - traducción al Inglés
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Ray$96777$ - traducción al Inglés

USE OF RAY–SURFACE INTERSECTION TESTS TO SOLVE A VARIETY OF PROBLEMS IN COMPUTER GRAPHICS AND COMPUTATIONAL GEOMETRY
Ray-casting; Raycasting; Ray shooting; Ray cast; Ray-intersection test
  • Game using ray casting rendering, making use of advanced techniques to render floor at multiple height levels.
  • Ray casting renderers cannot rotate the camera up and down<ref name="giantbomb_raycasting"/> like true 3D renderers (as seen on the left), therefore tricks such as shearing (right) are sometimes used to create an illusion of rotation.
  • Camera models
  • Camera local coordinate system with the "screen" in the Z=0 plane
  • Example line drawings made by casting rays. Two are standard plan views. One shows hidden edges as dashed lines.
  • Follow up rays for effects
  • Ray-cast image of idealized universal joint with shadow
  • The three binary operations: union (+), intersection (&), and difference (-)
  • Solid modeled by parallelepipeds
  • Ray in binary solid construction
  • Tree of enclosures
  • Two point light sources produce shadows

Ray      
n. Ray (eigennaam)
x-ray         
  • Chandra's image of the galaxy cluster Abell 2125 reveals a complex of several massive multimillion-degree-Celsius gas clouds in the process of merging.
  • photoabsorption]], as well as a leveling off at higher photon energies due to [[Compton scattering]]. The attenuation length is about four orders of magnitude longer for hard X-rays (right half) compared to soft X-rays (left half).
  • Abdominal radiograph]] of a pregnant woman, a procedure that should be performed only after proper assessment of benefit versus risk
  • CT scan]] ([[transverse plane]]) slice – a modern application of [[medical radiography]]
  • Example of a [[Crookes tube]], a type of [[discharge tube]] that emitted X-rays
  • Taking an X-ray image with early [[Crookes tube]] apparatus, late 1800s. The Crookes tube is visible in center. The standing man is viewing his hand with a [[fluoroscope]] screen. The seated man is taking a [[radiograph]] of his hand by placing it on a [[photographic plate]]. No precautions against radiation exposure are taken; its hazards were not known at the time.
  • access-date= 2007-12-03}}</ref>
  • radiation exposure]] during the X-ray procedure would be negligible.
  • Patient undergoing an x-ray exam in a hospital radiology room
  • Images by James Green, from "Sciagraphs of British Batrachians and Reptiles" (1897), featuring (from left) ''Rana esculenta'' (now ''[[Pelophylax lessonae]]''), ''Lacerta vivipara'' (now ''[[Zootoca vivipara]]''), and ''[[Lacerta agilis]]''
  • Plain radiograph of the right knee
  • Phase-contrast X-ray image of a spider
  • Surgical removal of a bullet whose location was diagnosed with X-rays (see inset) in 1897
  • Ionizing radiation hazard symbol
  • A [[chest radiograph]] of a female patient, demonstrating a [[hiatal hernia]]
  • characteristic K lines]] for rhodium atoms.
  • publisher=Society of Photographic Instrumentation Engineers}}</ref>
  • [[Wilhelm Röntgen]]
  • X-ray fine art photography of [[needlefish]] by [[Peter Dazeley]]
  • 1896 plaque published in ''"Nouvelle Iconographie de la Salpetrière"'', a medical journal. In the left a hand deformity, in the right same hand seen using [[radiography]]. The authors named the technique Röntgen photography.
  • UV light]]. Different applications use different parts of the X-ray spectrum.
  • Each dot, called a reflection, in this diffraction pattern forms from the constructive interference of scattered X-rays passing through a crystal. The data can be used to determine the crystalline structure.
ELECTROMAGNETIC RADIATION OF WAVELENGTH RANGING FROM 10 PM TO 10 NM
X ray; Röntgen ray; X-Ray; Hard X-ray; Roentgen ray; X-Ray Spectrum; Xray; Roentgen radiation; X rays; Roentgen Rays; Rontgen Rays; X Ray; Röntgen radiation; X-rayed; Soft X-ray; Soft X-rays; Hard X-rays; X-Rays; Hard x-ray; Soft x-ray; X-RAY; Xrays; Röntgen rays; X-ray photo; X-ray dye; X-rays; Roentgen rays; Rontgen ray; X-ray technology; Rontgen rays; Rontgen radiation; X-radiation; X-raying; Röntgen field; X - ray; Radio diagnostics; X-ray generation; X-ray radiation; X-waves; X radiation; X wave; X waves; Frank Austin and the Frost brothers; X-ray safety; X+rays; HX photons; SX photons; XRAY; X-ray scanner; History of X-ray technology; X-radiograph; Border control x-ray
X-straal; Röntgenstraal; Röntgenfoto nemen
gamma rays         
  • Gamma emission spectrum of cobalt-60
  • The total absorption coefficient of aluminium (atomic number 13) for gamma rays, plotted versus gamma energy, and the contributions by the three effects. As is usual, the photoelectric effect is largest at low energies, Compton scattering dominates at intermediate energies, and pair production dominates at high energies.
  • Alpha radiation]] consists of [[helium]] nuclei and is readily stopped by a sheet of paper. [[Beta radiation]], consisting of [[electron]]s or [[positron]]s, is stopped by an aluminium plate, but gamma radiation requires shielding by dense material such as lead or concrete.
  • The red dots show some of the ~500 terrestrial gamma-ray flashes daily detected by the Fermi Gamma-ray Space Telescope through 2010. Credit: NASA/Goddard Space Flight Center.
  • 60}}
  • NASA guide to electromagnetic spectrum showing overlap of frequency between X-rays and gamma rays
  • In practice, gamma ray energies overlap with the range of X-rays, especially in the higher-frequency region referred to as "hard" X-rays. This depiction follows the older convention of distinguishing by wavelength.
  • Image of entire sky in 100 MeV or greater gamma rays as seen by the EGRET instrument aboard the [[CGRO]] spacecraft. Bright spots within the galactic plane are [[pulsar]]s while those above and below the plane are thought to be [[quasar]]s.
  • A [[hypernova]]. Artist's illustration showing the life of a [[massive star]] as [[nuclear fusion]] converts lighter elements into heavier ones. When fusion no longer generates enough pressure to counteract gravity, the star rapidly collapses to form a [[black hole]]. Theoretically, energy may be released during the collapse along the axis of rotation to form a long duration [[gamma-ray burst]].
  • access-date=2011-11-08}}</ref>
  • Fermi's]] Large Area Telescope (LAT).
  • The total absorption coefficient of lead (atomic number 82) for gamma rays, plotted versus gamma energy, and the contributions by the three effects. Here, the photoelectric effect dominates at low energy. Above 5 MeV, pair production starts to dominate.
  • VACIS]] (vehicle and container imaging system)
ELECTROMAGNETIC RADIATION OF HIGH FREQUENCY AND THEREFORE HIGH ENERGY
Gamma-ray; Gamma radiation; Gamma Ray; Gamma decay; Gamma particle; Gamma Radiation; Γ Radaition; Gamma particles; Gamma Rays; Gamma photon; Gamma Rays and their characteristics; Gamma-Ray; Gamma-rays; Gammaray; G Radaition; Gamma Ray Control; Gamma rays; Secondary radiation; Gamma-decay; Γ-ray; Γ-rays; Γ radiation; Gamma-ray source; Gamma-ray production; Gamma ray generation; Gamma ray production; Gamma-ray generation; Gamma emission; Γ ray; Y photons; Γ rays; Gamma-irradidated; Gamma-irradiated
gamma-straling (electromagnetische straling, straling afkomstig van een atoomkern)

Definición

X-ray crystallography
¦ noun the study of crystals and their structure by means of the diffraction of X-rays by the regularly spaced atoms of crystalline materials.

Wikipedia

Ray casting

Ray casting is the methodological basis for 3D CAD/CAM solid modeling and image rendering. It is essentially the same as ray tracing for computer graphics where virtual light rays are "cast" or "traced" on their path from the focal point of a camera through each pixel in the camera sensor to determine what is visible along the ray in the 3D scene. The term "Ray Casting" was introduced by Scott Roth while at the General Motors Research Labs from 1978–1980. His paper, "Ray Casting for Modeling Solids", describes modeled solid objects by combining primitive solids, such as blocks and cylinders, using the set operators union (+), intersection (&), and difference (-). The general idea of using these binary operators for solid modeling is largely due to Voelcker and Requicha's geometric modelling group at the University of Rochester. See solid modeling for a broad overview of solid modeling methods. This figure on the right shows a U-Joint modeled from cylinders and blocks in a binary tree using Roth's ray casting system, circa 1979.

Before ray casting (and ray tracing), computer graphics algorithms projected surfaces or edges (e.g., lines) from the 3D world to the image plane where visibility logic had to be applied. The world-to-image plane projection is a 3D homogeneous coordinate system transformation (aka: 3D projection, affine transformation, or projective transform (Homography)). Rendering an image in that way is difficult to achieve with hidden surface/edge removal. Plus, silhouettes of curved surfaces have to be explicitly solved for whereas it is an implicit by-product of ray casting, so there is no need to explicitly solve for it whenever the view changes.

Ray casting greatly simplified image rendering of 3D objects and scenes because a line transforms to a line. So, instead of projecting curved edges and surfaces in the 3D scene to the 2D image plane, transformed lines (rays) are intersected with the objects in the scene. A homogeneous coordinate transformation is represented by 4x4 matrix. The mathematical technique is common to computer graphics and geometric modeling. A transform includes rotations around the three axes, independent scaling along the axes, translations in 3D, and even skewing. Transforms are easily concatenated via matrix arithmetic. For use with a 4x4 matrix, a point is represented by [X, Y, Z, 1] and a direction vector is represented by [Dx, Dy, Dz, 0]. (The fourth term is for translation and that does not apply to direction vectors.)