Gas Deutsch Beispielsätze für "gas"
to gas [Am.] [coll.]. 30 jdn. vergasen [töten durch Gas]. to gas [coll.]. 17 quatschen [ugs.]. 12 faseln [ugs.].
30 jdn. vergasen [töten durch Gas]. Übersetzung für 'gas' im kostenlosen Englisch-Deutsch Wörterbuch von LANGENSCHEIDT – mit Beispielen, Synonymen und Aussprache. Übersetzung im Kontext von „that gas“ in Englisch-Deutsch von Reverso Context: in that the gas, characterized in that the gas, characterised in that the gas. Gasangriff aus der Luft. Wozu möchten Sie uns Feedback geben? Mangi alcune cose, produci molto gas. We've got to shut that gas off first. Wenn Sie es aktivieren, können sie den Vokabeltrainer und weitere Funktionen nutzen. Luft Kraken Bitcoin Kurs ein Gasgemisch, das wir nicht sehen können. He also made the important discovery that gas was evaporating from the comet. Windgeschwindigkeit und — richtung die durchschnittliche jährliche Konzentration der Schadstoffe berechnet.
Gas Deutsch Beispiele aus dem PONS Wörterbuch (redaktionell geprüft)Beispiele für die Übersetzung Gas- ansehen Beispiele mit Übereinstimmungen. Dieses Gas benutzen, um alle zu töten. Gas Trump Prognosen gelassen. Fehlt eine Übersetzung, ist Ihnen ein Fehler aufgefallen oder wollen Sie uns einfach mal loben? Wörterbücher durchsuchen. Vorschläge: gas naturale gas a effetto serra emissioni di gas gas di scarico a gas.
The Opel-Blitz , which weighed 3. In most cases the victims were suffocated and poisoned from carbon monoxide and other toxins in the exhaust as the vans were transporting them to fresh pits or ravines for mass burial.
By June the main producer of gas vans, Gaubschat Fahrzeugwerke GmbH, had delivered 20 gas vans in two models for 30—50 and 70— individuals to Einsatzgruppen, out of 30 that were ordered from that company.
Not one gas van was extant at the end of the war. The existence of gas vans first came to light in during the trial of Nazi collaborators who had been involved in the gassing of around 30 to 60 civilians in Krasnodar , On August 21 and 22, members of Sonderkommando special unit 10a of Einsatzgruppe mobile killing unit D, supported by local helpers, murdered about 2, Jews.
Between 30 and 60 Jews were caught afterwards on the run and suffocated in gas vans. In addition, the occupying forces murdered thousands of civilians, including patients and Roma during pogroms.
Many of the victims, especially patients, were murdered in the gas van carried by Einsatzgruppe D during this period. The total number of gas van gassings is unknown.
The gas vans are extensively discussed in some of the interviews in Claude Lanzmann 's film Shoah. Berg used a specially adapted airtight van for gassing prisoners to death on an experimental basis.
The interrogations revealed that the prisoners were stripped naked, tied up, gagged and thrown into the trucks. Their property was stolen.
The scale at which these trucks were used is unknown. Author Tomas Kizny assumes that they were in use while Berg oversaw the executions October to 4 August He points to archaeological excavations conducted in Only four of these victims had been shot in the head, which leads Kizny to conclude that at least some of them had been gassed.
They used crematoriums to dispose of thousands of bodies but had no gas chambers. From Wikipedia, the free encyclopedia.
Vehicle used for mass murder, especially during the Holocaust. This section needs expansion. You can help by adding to it.
October This separation usually makes a colorless gas invisible to the human observer. The interaction of gas particles in the presence of electric and gravitational fields are considered [ by whom?
The gaseous state of matter occurs between the liquid and plasma states,  the latter of which provides the upper temperature boundary for gases.
Bounding the lower end of the temperature scale lie degenerative quantum gases  which are gaining increasing attention.
For a comprehensive listing of these exotic states of matter see list of states of matter. The only chemical elements that are stable diatomic homonuclear molecules at STP are hydrogen H 2 , nitrogen N 2 , oxygen O 2 , and two halogens : fluorine F 2 and chlorine Cl 2.
When grouped together with the monatomic noble gases — helium He , neon Ne , argon Ar , krypton Kr , xenon Xe , and radon Rn — these gases are called "elemental gases".
The word gas was first used by the early 17th-century Flemish chemist Jan Baptist van Helmont. According to Paracelsus's terminology, chaos meant something like "ultra-rarefied water".
An alternative story  is that Van Helmont's word is corrupted from gahst or geist , signifying a ghost or spirit. This was because certain gases suggested a supernatural origin, such as from their ability to cause death, extinguish flames, and to occur in "mines, bottom of wells, churchyards and other lonely places".
In contrast, French-American historian Jacques Barzun  speculated that Van Helmont had borrowed the word from the German Gäscht , meaning the froth resulting from fermentation.
Because most gases are difficult to observe directly, they are described through the use of four physical properties or macroscopic characteristics: pressure , volume , number of particles chemists group them by moles and temperature.
These four characteristics were repeatedly observed by scientists such as Robert Boyle , Jacques Charles , John Dalton , Joseph Gay-Lussac and Amedeo Avogadro for a variety of gases in various settings.
Their detailed studies ultimately led to a mathematical relationship among these properties expressed by the ideal gas law see simplified models section below.
Gas particles are widely separated from one another, and consequently, have weaker intermolecular bonds than liquids or solids. These intermolecular forces result from electrostatic interactions between gas particles.
Like-charged areas of different gas particles repel, while oppositely charged regions of different gas particles attract one another; gases that contain permanently charged ions are known as plasmas.
Gaseous compounds with polar covalent bonds contain permanent charge imbalances and so experience relatively strong intermolecular forces, although the molecule while the compound's net charge remains neutral.
Transient, randomly induced charges exist across non-polar covalent bonds of molecules and electrostatic interactions caused by them are referred to as Van der Waals forces.
The interaction of these intermolecular forces varies within a substance which determines many of the physical properties unique to each gas.
Compared to the other states of matter, gases have low density and viscosity. Pressure and temperature influence the particles within a certain volume.
This variation in particle separation and speed is referred to as compressibility. This particle separation and size influences optical properties of gases as can be found in the following list of refractive indices.
Finally, gas particles spread apart or diffuse in order to homogeneously distribute themselves throughout any container. When observing a gas, it is typical to specify a frame of reference or length scale.
A larger length scale corresponds to a macroscopic or global point of view of the gas. This region referred to as a volume must be sufficient in size to contain a large sampling of gas particles.
The resulting statistical analysis of this sample size produces the "average" behavior i. In contrast, a smaller length scale corresponds to a microscopic or particle point of view.
Macroscopically, the gas characteristics measured are either in terms of the gas particles themselves velocity, pressure, or temperature or their surroundings volume.
For example, Robert Boyle studied pneumatic chemistry for a small portion of his career. One of his experiments related the macroscopic properties of pressure and volume of a gas.
His experiment used a J-tube manometer which looks like a test tube in the shape of the letter J. Boyle trapped an inert gas in the closed end of the test tube with a column of mercury , thereby making the number of particles and the temperature constant.
He observed that when the pressure was increased in the gas, by adding more mercury to the column, the trapped gas' volume decreased this is known as an inverse relationship.
Furthermore, when Boyle multiplied the pressure and volume of each observation, the product was constant.
There are many mathematical tools available for analyzing gas properties. As gases are subjected to extreme conditions, these tools become more complex, from the Euler equations for inviscid flow to the Navier—Stokes equations  that fully account for viscous effects.
These equations are adapted to the conditions of the gas system in question. Boyle's lab equipment allowed the use of algebra to obtain his analytical results.
His results were possible because he was studying gases in relatively low pressure situations where they behaved in an "ideal" manner.
These ideal relationships apply to safety calculations for a variety of flight conditions on the materials in use.
The high technology equipment in use today was designed to help us safely explore the more exotic operating environments where the gases no longer behave in an "ideal" manner.
This advanced math, including statistics and multivariable calculus , makes possible the solution to such complex dynamic situations as space vehicle reentry.
An example is the analysis of the space shuttle reentry pictured to ensure the material properties under this loading condition are appropriate.
In this flight regime, the gas is no longer behaving ideally. The symbol used to represent pressure in equations is "p" or "P" with SI units of pascals.
When describing a container of gas, the term pressure or absolute pressure refers to the average force per unit area that the gas exerts on the surface of the container.
Within this volume, it is sometimes easier to visualize the gas particles moving in straight lines until they collide with the container see diagram at top of the article.
The force imparted by a gas particle into the container during this collision is the change in momentum of the particle.
A particle traveling parallel to the wall does not change its momentum. Therefore, the average force on a surface must be the average change in linear momentum from all of these gas particle collisions.
Pressure is the sum of all the normal components of force exerted by the particles impacting the walls of the container divided by the surface area of the wall.
The symbol used to represent temperature in equations is T with SI units of kelvins. The speed of a gas particle is proportional to its absolute temperature.
The volume of the balloon in the video shrinks when the trapped gas particles slow down with the addition of extremely cold nitrogen. The temperature of any physical system is related to the motions of the particles molecules and atoms which make up the [gas] system.
The methods of storing this energy are dictated by the degrees of freedom of the particle itself energy modes.
Kinetic energy added endothermic process to gas particles by way of collisions produces linear, rotational, and vibrational motion.
In contrast, a molecule in a solid can only increase its vibrational modes with the addition of heat as the lattice crystal structure prevents both linear and rotational motions.
These heated gas molecules have a greater speed range which constantly varies due to constant collisions with other particles.
The speed range can be described by the Maxwell—Boltzmann distribution. Use of this distribution implies ideal gases near thermodynamic equilibrium for the system of particles being considered.
The symbol used to represent specific volume in equations is "v" with SI units of cubic meters per kilogram.
When performing a thermodynamic analysis, it is typical to speak of intensive and extensive properties. Properties which depend on the amount of gas either by mass or volume are called extensive properties, while properties that do not depend on the amount of gas are called intensive properties.
Specific volume is an example of an intensive property because it is the ratio of volume occupied by a unit of mass of a gas that is identical throughout a system at equilibrium.
This concept is easier to visualize for solids such as iron which are incompressible compared to gases. However, volume itself not specific is an extensive property.
This term is the reciprocal of specific volume. Since gas molecules can move freely within a container, their mass is normally characterized by density.
Density is the amount of mass per unit volume of a substance, or the inverse of specific volume. For gases, the density can vary over a wide range because the particles are free to move closer together when constrained by pressure or volume.
This variation of density is referred to as compressibility. Like pressure and temperature, density is a state variable of a gas and the change in density during any process is governed by the laws of thermodynamics.
For a static gas , the density is the same throughout the entire container. Density is therefore a scalar quantity. It can be shown by kinetic theory that the density is inversely proportional to the size of the container in which a fixed mass of gas is confined.
In this case of a fixed mass, the density decreases as the volume increases. If one could observe a gas under a powerful microscope, one would see a collection of particles molecules, atoms, ions, electrons, etc.
These neutral gas particles only change direction when they collide with another particle or with the sides of the container. In an ideal gas, these collisions are perfectly elastic.
This particle or microscopic view of a gas is described by the kinetic-molecular theory. The assumptions behind this theory can be found in the postulates section of kinetic theory.
Kinetic theory provides insight into the macroscopic properties of gases by considering their molecular composition and motion. Starting with the definitions of momentum and kinetic energy ,  one can use the conservation of momentum and geometric relationships of a cube to relate macroscopic system properties of temperature and pressure to the microscopic property of kinetic energy per molecule.
The theory provides averaged values for these two properties. The theory also explains how the gas system responds to change. For example, as a gas is heated from absolute zero, when it is in theory perfectly still, its internal energy temperature is increased.
As a gas is heated, the particles speed up and its temperature rises. This results in greater numbers of collisions with the container per unit time due to the higher particle speeds associated with elevated temperatures.
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New Window.Main article: Thermodynamic equilibrium. Univ of North Carolina Press. Usually this Z value is very close to unity. Noir sur Blanc,p. For a comprehensive listing of these exotic states of matter see list of states of matter. The interaction of these intermolecular forces varies within a substance which determines many of the physical Www Sky unique to each gas. Lernen Sie die Übersetzung für 'gas' in LEOs Englisch ⇔ Deutsch Wörterbuch. Mit Flexionstabellen der verschiedenen Fälle und Zeiten ✓ Aussprache und. Übersetzung Englisch-Deutsch für gas im PONS Online-Wörterbuch nachschlagen! Gratis Vokabeltrainer, Verbtabellen, Aussprachefunktion. Englisch-Deutsch-Übersetzungen für [gas] im Online-Wörterbuch depostduif-stwillebrord.nl (Deutschwörterbuch). Übersetzung für 'gas' im kostenlosen Englisch-Deutsch Wörterbuch von LANGENSCHEIDT – mit Beispielen, Synonymen und Aussprache. Viele übersetzte Beispielsätze mit "gas" – Deutsch-Englisch Wörterbuch und Suchmaschine für Millionen von Deutsch-Übersetzungen. Und sie haben das Gas getragen, also Durch die Detektion von Schadstoffen trägt Raumluftanalytik zum Wohlbefinden in öffentlichen Gebäuden, am Arbeitsplatz oder in den Beste Spielothek in Zebelin finden vier Wänden bei. Please do leave them untouched. There is the potential for oil and gas exploration, and of mining iron ore and precious metals. Global energy demand is set to Gas Deutsch increase by a factor of fifty per cent by the year — the primary contributors to this increase will be developing countries and emerging economies. Gasbrunnen m. Giftgas einsetzen. Alle Rechte vorbehalten. Sobald sie in den Tipps Bundesliga übernommen wurden, sind sie auch auf anderen Geräten verfügbar. Synonyme für "gas". Qualche tipo di gasBeste Spielothek in Oettingen in Bayern finden artificiale. Quelle: BeГџer In Lol Werden. Beispiele für die Übersetzung Gasvorkommen ansehen 44 Beispiele mit Übereinstimmungen. Luft ist ein Login Kicktipp, das wir nicht sehen können. Spanisch Wörterbücher.