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Что (кто) такое diagram languages - определение
COMMONLY USED WAY OF PLOTTING METEOROLOGICAL DATA TO HIGHLIGHT THE ROLE OF WAVES
Hovmoller diagram; Hovmoeller diagram
Найдено результатов: 2314
Venn diagram
![[[Stained-glass]] window with Venn diagram in [[Gonville and Caius College, Cambridge]]](https://commons.wikimedia.org/wiki/Special:FilePath/Venn-stainedglass-gonville-caius.jpg?width=200 "[[Stained-glass]] window with Venn diagram in [[Gonville and Caius College, Cambridge]]")
![Venn's construction for four sets (use [[Gray code]] to compute, the digit 1 means in the set, and the digit 0 means not in the set)](https://commons.wikimedia.org/wiki/Special:FilePath/Venn4.svg?width=200 "Venn's construction for four sets (use [[Gray code]] to compute, the digit 1 means in the set, and the digit 0 means not in the set)")
![Six-set Venn diagram made of only triangles [http://upload.wikimedia.org/wikipedia/commons/5/56/6-set_Venn_diagram_SMIL.svg (interactive version)]](https://commons.wikimedia.org/wiki/Special:FilePath/6-set_Venn_diagram.svg?width=200 "Six-set Venn diagram made of only triangles [http://upload.wikimedia.org/wikipedia/commons/5/56/6-set_Venn_diagram_SMIL.svg (interactive version)]")
DIAGRAM THAT SHOWS ALL POSSIBLE LOGICAL RELATIONS BETWEEN A COLLECTION OF SETS
Johnston diagram; Venn disagram; Venn diagrams; Ven diagram; Venn Diagram; Logic diagram; Venn diagramme; Vin diagram; Set diagram; Venn Diagrams; Area proportional Venn diagram; Area-proportional Venn diagram; Scaled Venn diagram; Venn-Euler diagram; Euler-Venn diagram; Euler–Venn diagram; Venn–Euler diagram; Generalised Venn Diagram; Generalised Venn diagram; Generalized Venn Diagram; Generalized Venn diagram; Edwards' Venn diagram; Edwards-Venn diagram; Edwards–Venn diagram; Symmetric Venn diagram; Cogwheel diagram; Primary diagram; Venn's primary diagram; Primary Venn diagram; Venn's Primary Diagram; Symmetrical Venn diagram; Simple symmetric Venn diagram; Simple symmetrical Venn diagram; Cylindrical Venn diagram; Elegant Venn diagram; Newroz diagram; Adelaide diagram; Hamilton diagram; Massey diagram; Victoria diagram; Palmerston North diagram; Manawatu diagram; Manawatū diagram; Two-set Venn diagram; Two-set diagram; 2-set Venn diagram; 2-set diagram; Three-set Venn diagram; Three-set diagram; 3-set Venn diagram; 3-set diagram; Four-set Venn diagram; Four-set diagram; 4-set Venn diagram; 4-set diagram; Five-set Venn diagram; Five-set diagram; 5-set Venn diagram; 5-set diagram; Six-set Venn diagram; Six-set diagram; 6-set Venn diagram; 6-set diagram; Seven-set Venn diagram; Seven-set diagram; 7-set Venn diagram; 7-set diagram; Eight-set Venn diagram; Eight-set diagram; 8-set Venn diagram; 8-set diagram; Nine-set Venn diagram; Nine-set diagram; 9-set Venn diagram; 9-set diagram; Ten-set Venn diagram; Ten-set diagram; 10-set Venn diagram; 10-set diagram; Eleven-set Venn diagram; Eleven-set diagram; 11-set Venn diagram; 11-set diagram; 2-Venn diagram; 3-Venn diagram; 4-Venn diagram; 6-Venn diagram; 5-Venn diagram; 7-Venn diagram; 8-Venn diagram; 9-Venn diagram; 10-Venn diagram; 11-Venn diagram; N-Venn diagram; Metrical Venn diagram; Exclusion diagram
A Venn diagram is a widely used diagram style that shows the logical relation between sets, popularized by John Venn (1834–1923) in the 1880s. The diagrams are used to teach elementary set theory, and to illustrate simple set relationships in probability, logic, statistics, linguistics and computer science.
Venn diagram
DIAGRAM THAT SHOWS ALL POSSIBLE LOGICAL RELATIONS BETWEEN A COLLECTION OF SETS
Johnston diagram; Venn disagram; Venn diagrams; Ven diagram; Venn Diagram; Logic diagram; Venn diagramme; Vin diagram; Set diagram; Venn Diagrams; Area proportional Venn diagram; Area-proportional Venn diagram; Scaled Venn diagram; Venn-Euler diagram; Euler-Venn diagram; Euler–Venn diagram; Venn–Euler diagram; Generalised Venn Diagram; Generalised Venn diagram; Generalized Venn Diagram; Generalized Venn diagram; Edwards' Venn diagram; Edwards-Venn diagram; Edwards–Venn diagram; Symmetric Venn diagram; Cogwheel diagram; Primary diagram; Venn's primary diagram; Primary Venn diagram; Venn's Primary Diagram; Symmetrical Venn diagram; Simple symmetric Venn diagram; Simple symmetrical Venn diagram; Cylindrical Venn diagram; Elegant Venn diagram; Newroz diagram; Adelaide diagram; Hamilton diagram; Massey diagram; Victoria diagram; Palmerston North diagram; Manawatu diagram; Manawatū diagram; Two-set Venn diagram; Two-set diagram; 2-set Venn diagram; 2-set diagram; Three-set Venn diagram; Three-set diagram; 3-set Venn diagram; 3-set diagram; Four-set Venn diagram; Four-set diagram; 4-set Venn diagram; 4-set diagram; Five-set Venn diagram; Five-set diagram; 5-set Venn diagram; 5-set diagram; Six-set Venn diagram; Six-set diagram; 6-set Venn diagram; 6-set diagram; Seven-set Venn diagram; Seven-set diagram; 7-set Venn diagram; 7-set diagram; Eight-set Venn diagram; Eight-set diagram; 8-set Venn diagram; 8-set diagram; Nine-set Venn diagram; Nine-set diagram; 9-set Venn diagram; 9-set diagram; Ten-set Venn diagram; Ten-set diagram; 10-set Venn diagram; 10-set diagram; Eleven-set Venn diagram; Eleven-set diagram; 11-set Venn diagram; 11-set diagram; 2-Venn diagram; 3-Venn diagram; 4-Venn diagram; 6-Venn diagram; 5-Venn diagram; 7-Venn diagram; 8-Venn diagram; 9-Venn diagram; 10-Venn diagram; 11-Venn diagram; N-Venn diagram; Metrical Venn diagram; Exclusion diagram
¦ noun a diagram representing mathematical or logical sets as circles, common elements of the sets being represented by intersections of the circles.
Origin
early 20th cent.: named after the English logician John Venn.
Free body diagram
DIAGRAM WHERE ALL FORCES ON A BODY OR PART OF A SYSTEM ARE DRAWN
Force diagram; Free-body diagram; Isolation diagram; Freebody diagram; Kinetic diagram
A free body diagram consists of a diagrammatic representation of a single body or a subsystem of bodies isolated from its surroundings showing all the forces acting on it.
Pressure–volume diagram
.svg?width=200 "Human heart")
DIAGRAM IN THERMODYNAMICS, PLOTING PRESSURE VERSUS VOLUME, TYPICALLY USED FOR THERMODYNAMIC PROCESSES
P-V diagram; PV-diagram; PV diagram; PV Diagram; Guyton's PV graph; Engine indicator; P-V Diagram; P-v Diagram; Pressure volume diagram; Pressure-volume diagram
A pressure–volume diagram (or PV diagram, or volume–pressure loop) is used to describe corresponding changes in volume and pressure in a system. They are commonly used in thermodynamics, cardiovascular physiology, and respiratory physiology.
Temperature–entropy diagram
THERMODYNAMIC DIAGRAM USED IN THERMODYNAMICS TO VISUALIZE CHANGES TO TEMPERATURE AND SPECIFIC ENTROPY DURING A THERMODYNAMIC PROCESS OR CYCLE AS THE GRAPH OF A CURVE
Temperature-entropy diagram; T s diagram; Ts diagram; T-s diagram; TS diagram; T–s diagram; Temperature entropy diagram; Temperature vs. specific entropy diagram
A temperature–entropy diagram, or T–s diagram, is a thermodynamic diagram used in thermodynamics to visualize changes to temperature and specific entropy during a thermodynamic process or cycle as the graph of a curve. It is a useful and common tool, particularly because it helps to visualize the heat transfer during a process.
Time–distance diagram
User:Wribln/Time distance diagram; Time distance diagram; Time-distance diagram
A time–distance diagram is generally a diagram with one axis representing time and the other axis distance. Such charts are used in the aviation industry to plot flights,Aeroplane and commercial aviation news, Volume 87, 1954 or in scientific research to present effects in respect to distance over time.
Hertzsprung–Russell diagram
![An HR diagram with the [[instability strip]] and its components highlighted](https://commons.wikimedia.org/wiki/Special:FilePath/HR-diag-instability-strip.svg?width=200 "An HR diagram with the [[instability strip]] and its components highlighted")
![main-sequence]] turn-off at different ages](https://commons.wikimedia.org/wiki/Special:FilePath/Open cluster HR diagram ages.gif?width=200 "main-sequence]] turn-off at different ages")
SCATTER PLOT OF STARS SHOWING THE RELATIONSHIP BETWEEN THE STARS' ABSOLUTE MAGNITUDES (LUMINOSITIES OR BRIGHTNESS) VERSUS THEIR EFFECTIVE TEMPERATURES (STELLAR CLASSIFICATIONS OR COLOUR)
Hertzsprung-Russel diagram; Hertzsprung-Russell Diagram; Hertzsprung-Russell; HR diagram; Hertzsprung-Russell classifications; Color-magnitude diagram; H-R Diagram; Hr diagram; Hertzsprung-russel diagrams; HR Diagram; Colour-Magnitude Diagram; Color magnitude diagram; HR-diagram; Hertzsprung-Rusell diagram; Hertzsprung-Russell graph; Hertzsprung-Russell plot; Hertzsprung-Russell data; Hertzprung Russell; Hertsprung-Russell; Hertsprung-Russel; Hertsprung-Russel diagram; Hertsprung-Russell diagram; HRMD; Hertzsprung russell diagram; Hertzsprung-Russell diagram; Hr Diagram; H-R diagram; Herzprung Russel diagram; Color-luminosity diagram; C-M diagram; Hertzsprung Russell Diagram; Hertzsprung-Russel Diagram; H R Diagram; H-R; Hertzsprung- Russell Diagram; Hertzsprung–Russell Diagram; H–R diagram; Main line stars; Color–magnitude diagram; Hertzsprung–Russell (H–R) diagram; Hertzsprung-Russell (H-R) diagram
The Hertzsprung–Russell diagram, abbreviated as H–R diagram, HR diagram or HRD, is a scatter plot of stars showing the relationship between the stars' absolute magnitudes or luminosities versus their stellar classifications or effective temperatures. The diagram was created independently in 1911 by Ejnar Hertzsprung and by Henry Norris Russell in 1913, and represented a major step towards an understanding of stellar evolution.
Penrose diagram
TWO-DIMENSIONAL DIAGRAM THAT CAPTURES THE CAUSAL RELATIONS BETWEEN DIFFERENT POINTS IN SPACETIME
Conformal infinity; Conformal boundary; Conformal diagram
In theoretical physics, a Penrose diagram (named after mathematical physicist Roger Penrose) is a two-dimensional diagram capturing the causal relations between different points in spacetime through a conformal treatment of infinity. It is an extension of a Minkowski diagram where the vertical dimension represents time, and the horizontal dimension represents a space dimension.
Neutron-acceptance diagram shading
Neutron Acceptance Diagram Shading
Neutron-acceptance diagram shading (NADS) is a beam simulation technique. Unlike Monte-Carlo simulation codes like McStas, NADS does not trace individual neutrons but traces linearly-related bunches in a reduced-dimensionality phase space.
Von Kármán–Gabrielli diagram
DIAGRAM
Gabrielli–von Kármán diagram; Von Kármán-Gabrielli diagram; Von Kárman Gabrielli Diagram; Von Kárman Gabrielli diagram; Von Kárman gabrielli Diagram; Von Kárman gabrielli diagram; Von Kárman-Gabrielli Diagram; Von Kárman-Gabrielli diagram; Von Kárman-gabrielli Diagram; Von Kárman-gabrielli diagram; Von Kárman—Gabrielli Diagram; Von Kárman—Gabrielli diagram; Von Kárman—gabrielli Diagram; Von Kárman—gabrielli diagram; Von Kárman–Gabrielli Diagram; Von Kárman–Gabrielli diagram; Von Kárman–gabrielli Diagram; Von Kárman–gabrielli diagram; Von Kármán Gabrielli Diagram; Von Kármán Gabrielli diagram; Von Kármán gabrielli Diagram; Von Kármán gabrielli diagram; Von Kármán-Gabrielli Diagram; Von Kármán-gabrielli Diagram; Von Kármán-gabrielli diagram; Von Kármán—Gabrielli Diagram; Von Kármán—Gabrielli diagram; Von Kármán—gabrielli Diagram; Von Kármán—gabrielli diagram; Von Kármán–Gabrielli Diagram; Von Kármán–gabrielli Diagram; Von Kármán–gabrielli diagram; Von Karman Gabrielli Diagram; Von Karman Gabrielli diagram; Von Karman gabrielli Diagram; Von Karman gabrielli diagram; Von Karman-Gabrielli Diagram; Von Karman-Gabrielli diagram; Von Karman-gabrielli Diagram; Von Karman-gabrielli diagram; Von Karman—Gabrielli Diagram; Von Karman—Gabrielli diagram; Von Karman—gabrielli Diagram; Von Karman—gabrielli diagram; Von Karman–Gabrielli Diagram; Von Karman–Gabrielli diagram; Von Karman–gabrielli Diagram; Von Karman–gabrielli diagram; Von Karmán Gabrielli Diagram; Von Karmán Gabrielli diagram; Von Karmán gabrielli Diagram; Von Karmán gabrielli diagram; Von Karmán-Gabrielli Diagram; Von Karmán-Gabrielli diagram; Von Karmán-gabrielli Diagram; Von Karmán-gabrielli diagram; Von Karmán—Gabrielli Diagram; Von Karmán—Gabrielli diagram; Von Karmán—gabrielli Diagram; Von Karmán—gabrielli diagram; Von Karmán–Gabrielli Diagram; Von Karmán–Gabrielli diagram; Von Karmán–gabrielli Diagram; Von Karmán–gabrielli diagram; Von kárman Gabrielli Diagram; Von kárman Gabrielli diagram; Von kárman gabrielli Diagram; Von kárman gabrielli diagram; Von kárman-Gabrielli Diagram; Von kárman-Gabrielli diagram; Von kárman-gabrielli Diagram; Von kárman-gabrielli diagram; Von kárman—Gabrielli Diagram; Von kárman—Gabrielli diagram; Von kárman—gabrielli Diagram; Von kárman—gabrielli diagram; Von kárman–Gabrielli Diagram; Von kárman–Gabrielli diagram; Von kárman–gabrielli Diagram; Von kárman–gabrielli diagram; Von kármán Gabrielli Diagram; Von kármán Gabrielli diagram; Von kármán gabrielli Diagram; Von kármán gabrielli diagram; Von kármán-Gabrielli Diagram; Von kármán-Gabrielli diagram; Von kármán-gabrielli Diagram; Von kármán-gabrielli diagram; Von kármán—Gabrielli Diagram; Von kármán—Gabrielli diagram; Von kármán—gabrielli Diagram; Von kármán—gabrielli diagram; Von kármán–Gabrielli Diagram; Von kármán–Gabrielli diagram; Von kármán–gabrielli Diagram; Von kármán–gabrielli diagram; Von karman Gabrielli Diagram; Von karman Gabrielli diagram; Von karman gabrielli Diagram; Von karman gabrielli diagram; Von karman-Gabrielli Diagram; Von karman-Gabrielli diagram; Von karman-gabrielli Diagram; Von karman-gabrielli diagram; Von karman—Gabrielli Diagram; Von karman—Gabrielli diagram; Von karman—gabrielli Diagram; Von karman—gabrielli diagram; Von karman–Gabrielli Diagram; Von karman–Gabrielli diagram; Von karman–gabrielli Diagram; Von karman–gabrielli diagram; Von karmán Gabrielli Diagram; Von karmán Gabrielli diagram; Von karmán gabrielli Diagram; Von karmán gabrielli diagram; Von karmán-Gabrielli Diagram; Von karmán-Gabrielli diagram; Von karmán-gabrielli Diagram; Von karmán-gabrielli diagram; Von karmán—Gabrielli Diagram; Von karmán—Gabrielli diagram; Von karmán—gabrielli Diagram; Von karmán—gabrielli diagram; Von karmán–Gabrielli Diagram; Von karmán–Gabrielli diagram; Von karmán–gabrielli Diagram; Von karmán–gabrielli diagram; Kárman Gabrielli Diagram; Kárman Gabrielli diagram; Kárman gabrielli Diagram; Kárman gabrielli diagram; Kárman-Gabrielli Diagram; Kárman-Gabrielli diagram; Kárman-gabrielli Diagram; Kárman-gabrielli diagram; Kárman—Gabrielli Diagram; Kárman—Gabrielli diagram; Kárman—gabrielli Diagram; Kárman—gabrielli diagram; Kárman–Gabrielli Diagram; Kárman–Gabrielli diagram; Kárman–gabrielli Diagram; Kárman–gabrielli diagram; Kármán Gabrielli Diagram; Kármán Gabrielli diagram; Kármán gabrielli Diagram; Kármán gabrielli diagram; Kármán-Gabrielli Diagram; Kármán-Gabrielli diagram; Kármán-gabrielli Diagram; Kármán-gabrielli diagram; Kármán—Gabrielli Diagram; Kármán—Gabrielli diagram; Kármán—gabrielli Diagram; Kármán—gabrielli diagram; Kármán–Gabrielli Diagram; Kármán–Gabrielli diagram; Kármán–gabrielli Diagram; Kármán–gabrielli diagram; Karman Gabrielli Diagram; Karman Gabrielli diagram; Karman gabrielli Diagram; Karman gabrielli diagram; Karman-Gabrielli Diagram; Karman-Gabrielli diagram; Karman-gabrielli Diagram; Karman-gabrielli diagram; Karman—Gabrielli Diagram; Karman—Gabrielli diagram; Karman—gabrielli Diagram; Karman—gabrielli diagram; Karman–Gabrielli Diagram; Karman–Gabrielli diagram; Karman–gabrielli Diagram; Karman–gabrielli diagram; Karmán Gabrielli Diagram; Karmán Gabrielli diagram; Karmán gabrielli Diagram; Karmán gabrielli diagram; Karmán-Gabrielli Diagram; Karmán-Gabrielli diagram; Karmán-gabrielli Diagram; Karmán-gabrielli diagram; Karmán—Gabrielli Diagram; Karmán—Gabrielli diagram; Karmán—gabrielli Diagram; Karmán—gabrielli diagram; Karmán–Gabrielli Diagram; Karmán–Gabrielli diagram; Karmán–gabrielli Diagram; Karmán–gabrielli diagram; Gabrielli-von Kármán diagram; What price speed
The von Kármán–Gabrielli diagram (also Gabrielli–von Kármán diagram, GvK diagram) is a diagram which compares the efficiency of transportation methods by plotting specific tractive force, or specific resistance against velocity (). It was first used by Theodore von Kármán and Giuseppe Gabrielli in their 1950 paper on this subject.
Википедия
Hovmöller diagram
A Hovmöller diagram is a common way of plotting meteorological data to highlight the behavior of waves, particularly tropical waves. The axes of Hovmöller diagrams depict changes over time of scalar quantities such as temperature, density, and other values of constituents in the atmosphere or ocean, such as depth, height, or pressure. Typically in that case, time is recorded along the abscissa, or x-axis, while 'vertical' values (of depth, height, pressure, etc.) are plotted along the ordinate, or y-axis.
The alternate orientation of axes may also be used, as a Hovmöller diagram may be plotted for longitude or latitude on the abscissa and for (advancing) time on the ordinate; then the contour values of a named physical field may be presented through color or shading.
The Hovmöller diagram was introduced by Ernest Aabo Hovmöller (1912-2008), a Danish meteorologist, in a paper published in 1949.
