deutsch scatter - acceptOb in kosmopolitischen Städten oder in ärmlichen Flüchtlingslagern, in Israel oder in den besetzten Gebieten, in der arabischen Welt oder im Westen - palästinensische Künstler leben heutzutage so weit verstreut , dass kohärente Kunstbewegungen nahezu unmöglich sind.. Das Streubild sollte nach ca. Das Regime hatte eindeutig erwartet, dass sich die Menschenansammlungen, die gegen die betrügerische Wahl vom The semiconductor photo-device as set forth in claim 1, in which said top surface 22e; 32f is roughened so as to scatter a reflecting light 26b incident into said internal space. Orthographisch ähnliche Wörter cattery , chatter , clatter , shatter , smatter , spatter , swatter Sattler. Mein Suchverlauf Meine Favoriten. Britisches Englisch Amerikanisches Englisch to scatter sth. Many of the texts have been substantially updated and revised for the current publication, and Boullata has arranged them in a manner that both beautifully and painfully replicates the fragmentation of his subject matter..
Scatter deutsch - this magnificentLets you store preset values to use in other Scatter objects. Die Wirtschaftseinheiten der Branche sind klein und weit verstreut. And round about them will serve youths of perpetual freshness:. Diese Sätze sind von externen Quellen und können mitunter Fehler enthalten. Seine Familie, sagt Orfahli, sei über den gesamten Nahen Osten verstreut. The results of the most recent cloning operation remain selected even if you close and later reopen the Scatter Objects dialog. Otherwise your message will be regarded as spam. Langenscheidt Englisch-Deutsch Wörterbuch scatter. Aus dem Umfeld der Suche disperse. Britisches Englisch Amerikanisches Englisch to be scattered to the four winds form. Britisches Englisch Amerikanisches Englisch scatter cushion. Orthographisch ähnliche Wörter cattery , chatter , clatter , shatter , smatter , spatter , swatter Sattler. Scatter a little tapioca, like salt over an icy road. Auf diese Weise muss weniger Speicher verteilt werden. DE verstreuen zerstreuen auseinander jagen auseinander treiben auseinanderjagen auseinanderstieben auseinandertreiben sich verteilen sich zerstreuen vergeuden verschleudern zerstieben zunichte machen. Beispiele, die Punkte enthalten, ansehen 13 Beispiele mit Übereinstimmungen. Carl Orffs Carmina Burana gehören zu den meistaufgeführten Werken. Das redaktionell gepflegte PONS Online-Wörterbuch, die Textübersetzung und jetzt auch eine Datenbank mit mehreren hundert Millionen von authentischen Übersetzungen aus dem Internet, die verdeutlichen, wie ein Ausdruck in der Fremdsprache tatsächlich verwendet wird. Britisches Englisch Amerikanisches Englisch scatter diagram. Legacy chart colors cannot be applied to Bubble and Scatter charts. You will no longer have to laboriously search for full texts on your computer. They came in force one night, and we had to scatter.
Multiple scattering is highly analogous to diffusion , and the terms multiple scattering and diffusion are interchangeable in many contexts.
Optical elements designed to produce multiple scattering are thus known as diffusers. Coherent backscattering , an enhancement of backscattering that occurs when coherent radiation is multiply scattered by a random medium, is usually attributed to weak localization.
Not all single scattering is random, however. A well-controlled laser beam can be exactly positioned to scatter off a microscopic particle with a deterministic outcome, for instance.
Such situations are encountered in radar scattering as well, where the targets tend to be macroscopic objects such as people or aircraft. Similarly, multiple scattering can sometimes have somewhat random outcomes, particularly with coherent radiation.
The random fluctuations in the multiply scattered intensity of coherent radiation are called speckles. Speckle also occurs if multiple parts of a coherent wave scatter from different centers.
In certain rare circumstances, multiple scattering may only involve a small number of interactions such that the randomness is not completely averaged out.
These systems are considered to be some of the most difficult to model accurately. The description of scattering and the distinction between single and multiple scattering are tightly related to wave—particle duality.
Scattering theory is a framework for studying and understanding the scattering of waves and particles. Prosaically, wave scattering corresponds to the collision and scattering of a wave with some material object, for instance sunlight scattered by rain drops to form a rainbow.
Scattering also includes the interaction of billiard balls on a table, the Rutherford scattering or angle change of alpha particles by gold nuclei , the Bragg scattering or diffraction of electrons and X-rays by a cluster of atoms, and the inelastic scattering of a fission fragment as it traverses a thin foil.
More precisely, scattering consists of the study of how solutions of partial differential equations , propagating freely "in the distant past", come together and interact with one another or with a boundary condition , and then propagate away "to the distant future".
Electromagnetic waves are one of the best known and most commonly encountered forms of radiation that undergo scattering. Scattering of light and radio waves especially in radar is particularly important.
Several different aspects of electromagnetic scattering are distinct enough to have conventional names. Major forms of elastic light scattering involving negligible energy transfer are Rayleigh scattering and Mie scattering.
Inelastic scattering includes Brillouin scattering , Raman scattering , inelastic X-ray scattering and Compton scattering. Light scattering is one of the two major physical processes that contribute to the visible appearance of most objects, the other being absorption.
Surfaces described as white owe their appearance to multiple scattering of light by internal or surface inhomogeneities in the object, for example by the boundaries of transparent microscopic crystals that make up a stone or by the microscopic fibers in a sheet of paper.
More generally, the gloss or lustre or sheen of the surface is determined by scattering. Highly scattering surfaces are described as being dull or having a matte finish, while the absence of surface scattering leads to a glossy appearance, as with polished metal or stone.
Spectral absorption, the selective absorption of certain colors, determines the color of most objects with some modification by elastic scattering.
The apparent blue color of veins in skin is a common example where both spectral absorption and scattering play important and complex roles in the coloration.
Light scattering can also create color without absorption, often shades of blue, as with the sky Rayleigh scattering , the human blue iris , and the feathers of some birds Prum et al.
Rayleigh scattering is a process in which electromagnetic radiation including light is scattered by a small spherical volume of variant refractive index, such as a particle, bubble, droplet, or even a density fluctuation.
This effect was first modeled successfully by Lord Rayleigh , from whom it gets its name. In this size regime, the exact shape of the scattering center is usually not very significant and can often be treated as a sphere of equivalent volume.
Along with absorption, such scattering is a major cause of the attenuation of radiation by the atmosphere. The degree of scattering varies as a function of the ratio of the particle diameter to the wavelength of the radiation, along with many other factors including polarization , angle, and coherence.
For larger diameters, the problem of electromagnetic scattering by spheres was first solved by Gustav Mie , and scattering by spheres larger than the Rayleigh range is therefore usually known as Mie scattering.
In the Mie regime, the shape of the scattering center becomes much more significant and the theory only applies well to spheres and, with some modification, spheroids and ellipsoids.
Closed-form solutions for scattering by certain other simple shapes exist, but no general closed-form solution is known for arbitrary shapes.
Both Mie and Rayleigh scattering are considered elastic scattering processes, in which the energy and thus wavelength and frequency of the light is not substantially changed.
This shift involves a slight change in energy. At values of the ratio of particle diameter to wavelength more than about 10, the laws of geometric optics are mostly sufficient to describe the interaction of light with the particle, and at this point the interaction is not usually described as scattering.
For modeling of scattering in cases where the Rayleigh and Mie models do not apply such as irregularly shaped particles, there are many numerical methods that can be used.
Sophisticated software packages exist which allow the user to specify the refractive index or indices of the scattering feature in space, creating a 2- or sometimes 3-dimensional model of the structure.
For relatively large and complex structures, these models usually require substantial execution times on a computer.
From Wikipedia, the free encyclopedia. This article includes a list of references , but its sources remain unclear because it has insufficient inline citations.
To use varying color, specify c as a vector or a three-column matrix of RGB triplets. The option ax can precede any of the input argument combinations in the previous syntaxes.
Use s to make future modifications to the scatter chart after it is created. Create x as equally spaced values between 0 and. Create y as cosine values with random noise.
Then, create a scatter plot. Create a scatter plot using circles with different sizes. Specify the size in points squared.
Corresponding elements in x , y , and sz determine the location and size of each circle. To plot all circles with the equal area, specify sz as a numeric scalar.
Corresponding elements in x , y , and c determine the location and color of each circle. The scatter function maps the elements in c to colors in the current colormap.
Create a scatter plot and fill in the markers. Create vectors x and y as sine and cosine values with random noise. Then, create a scatter plot and use diamond markers with an area of points squared.
Create a scatter plot and set the marker edge color, marker face color, and line width. Create a figure with two subplots and add a scatter plot to each subplot.
Use filled diamond markers for the scatter plot in the lower subplot. Create a scatter plot and return the scatter series object, s.
Use s to query and set properties of the scatter series after it has been created. Set the line width to 0. Set the marker edge color to blue.
Set the marker face color using an RGB triplet color. Starting in Rb, you can use dot notation to set properties. Row or column vector — Use different sizes for each marker.
Corresponding elements in x , y , and sz determine the location and area of each marker. The length of sz must equal the length of x and y.
Three column matrix of RGB triplets — Use different colors for each marker. Each row of the matrix specifies an RGB triplet color for the corresponding marker.
The number of rows must equal the length of x and y. Vector — Use different colors for each marker and linearly map values in c to the colors in the current colormap.
The length of c must equal the length of x and y. To change the colormap for the axes, use the colormap function. If you have three points in the scatter plot and want the colors to be indices into the colormap, specify c as a three-element column vector.
An RGB triplet is a three-element row vector whose elements specify the intensities of the red, green, and blue components of the color. The intensities must be in the range [0,1] ; for example, [0.
Alternatively, you can specify some common colors by name. This table lists the long and short color name options and the equivalent RGB triplet values.
If you do not specify the axes and if the current axes are Cartesian axes, then the scatter function uses the current axes. To plot into polar axes, specify the PolarAxes object as the first input argument or use the polarscatter function.
To plot into geographic axes, specify the GeographicAxes object as the first input argument or use the geoscatter function.
Specify optional comma-separated pairs of Name,Value arguments. Name is the argument name and Value is the corresponding value.