rosette crystals - translation to arabic
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rosette crystals - translation to arabic

TYPE OF GRAVITATIONAL SYSTEM
Kemplerer rosette; Rosette orbit

rosette crystals      
بلورات نجمية
بلورات نجمية      

rosette crystals

liquid crystal         
  • Chiral nematic phase; p refers to the chiral pitch (see text)
  • Chemical structure of [[cholesteryl benzoate]] molecule
  • Structure of liquid crystal display: 1 – vertical polarization filter, 2, 4 – glass with electrodes, 3 – liquid crystals, 5 – horizontal polarization filter, 6 – reflector
  • Structure of lyotropic liquid crystal. The red heads of surfactant molecules are in contact with water, whereas the tails are immersed in oil (blue): bilayer (left) and [[micelle]] (right).
  • Schematic of ordering in chiral liquid crystal phases. The chiral nematic phase (left), also called the cholesteric phase, and the smectic C* phase (right).
  • Alignment in a nematic phase
  • Schematic of alignment in the smectic phases. The smectic A phase (left) has molecules organized into layers. In the smectic C phase (right), the molecules are tilted inside the layers
  • Chemical structure of N-(4-methoxybenzylidene)-4-butylaniline (MBBA) molecule
  • The ''local nematic director'', which is also the ''local optical axis'', is given by the spatial and temporal average of the long molecular axes
  • Otto Lehmann
  • Phase transition between a nematic (left) and smectic A (right) phases observed between crossed [[polarizers]]. The black color corresponds to isotropic medium.
  • s2cid=164362391 }}</ref>
  • "Wikipedia" displayed on an LCD
STATE OF MATTER WITH PROPERTIES OF BOTH CONVENTIONAL LIQUIDS AND CRYSTALS
Nematic; Nematics; Liquid Crystal; Liquid crystals; Smectic; Smectic liquid crystal; Liquid Crystals; Nematic phase; Blue phases; Smectism; Nematism; LCD liquid; Liquid crystalline; Applications of liquid crystals
‎ بِلَّوْرَةٌ سائِلَة‎

Definition

liquid crystal
(liquid crystals)
A liquid crystal is a liquid that has some of the qualities of crystals, for example reflecting light from different directions in different ways.
N-COUNT

Wikipedia

Klemperer rosette

A Klemperer rosette is a gravitational system of (optionally) alternating heavier and lighter bodies orbiting in a symmetrical pattern around a common barycenter. It was first described by W.B. Klemperer in 1962, and is a special case of a central configuration.

Klemperer described rosette systems as follows:

Such symmetry is also possessed by a peculiar family of geometrical configurations which may be described as "rosettes". In these an even number of "planets" of two (or more) kinds, one (or some) heavier than the other, but all of each set of equal mass, are placed at the corners of two (or more) interdigitated regular polygons so that the lighter and heavier ones alternate (or follow each other in a cyclic manner).(p 163)

The simplest rosette would be a series of four alternating heavier and lighter bodies, 90 degrees from one another, in a rhombic configuration [Heavy, Light, Heavy, Light], where the two larger bodies have the same mass, and likewise the two smaller bodies have the same mass, all orbiting their (empty) geometric center. The more general trojan system has unequal masses for the two heavier bodies, which Klemperer also calls a "rhombic" system, and which is the only version that is not symmetric around the gravitational center.

The number of "mass types" can be increased, so long as the arrangement is symmetrical and cyclic pattern: e.g. [ 1,2,3 ... 1,2,3 ], [ 1,2,3,4,5 ... 1,2,3,4,5 ], [ 1,2,3,3,2,1 ... 1,2,3,3,2,1 ], etc.

Klemperer's article specifically analyzes regular polygons with 2–9 corners – dumbbell-shaped through nonagon – and non-centrally symmetric "rhombic rosettes" with three orbiting bodies, the outer two stationed at the middle orbiting body's triangular points (L4 and L5), which had already been described and studied by Lagrange in 1772. Systems with an even number of 4 or more corners can have alternating heavy and light masses at the corners, although the possible range of mass ratios is constrained by para-stability requirements; systems with odd numbers of corners must have equal masses at every corner. While Klemperer notes that all the rosettes and the rhombus are vulnerable to destabilization, the hexagonal rosette is the most nearly stable because the "planets" sit in each other's semi-stable triangular Lagrangian points, L4 and L5.(p 165)

The regular polygonal configurations ("rosettes") do not require a central mass (a "sun" at the center is optional, and if present it may bobble above and below the orbital plane), although a Lagrange-type rhombus does. If a central body is present, its mass constrains the ranges for the mass-ratio between the orbiting bodies.