it‚ and turned it upside down into a tub of ice-cold water‚ crushing it with pressure. The movement of gas particles was a crucial component of this experiment. After the can was placed onto the hot plate‚ as the water heated up‚ the gas particles inside of the can started to move faster due to the relationship between temperature and the average kinetic energy‚ or average motion energy‚ of the gas particles. As the temperature increased‚ so did the speed of the particles inside of the can. Particles
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experience of the soldiers was beyond anything that had ever been faced before. A soldier who was attacked by poison gas says that “It seemed as if [his] lungs were gradually shutting up and [his] heart pounded away in [his] ears like the beat of a drum. On looking at the chap next to [him‚ he] felt sick‚ for green stuff was oozing from the side of his mouth.” (Pressey‚ “Poisonous Gas”). After getting attacked‚ this soldier isn’t only poisoned physically‚ but is poisoned mentally as he looks at the
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analog electronics question paper. its of mumbai universiy hello you are awesome go to hell *Electrons are partying* Suddenly protons come and attack the.. Just a while b4 the electrons are to be defeated someone comes and rescues them.. . One of the electron asks‚ "who are you?" . The guy replies.. "I’m Bond.. Covalent bond" :D an example of a baseband network; also called narrowband; contrast with broadband. BAUMÉ DEGREES A unit of specific gravity used in the acid and syrup
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the MEA process that was run at Tarong pilot plant will be discussed based on the simulation process results were obtained from the Aspen plus V8.4. The flow rate of the flue gas of 599.9kg/hr at 103.7◦C generated from the coal-fired power station entered the pilot plant through the pre-treatment column. The flow rate of flue gas became 585.8kg/hr due to the removed of acidic components and water and its temperature was reduced to approximately 32.6◦C due to cooled process. The amount of cooled water
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of Gases Purpose: The purpose of this experiment was to understand the gases; Hydrogen‚ Oxygen‚ and Carbon Dioxide. The experiment helped me understand the properties of these gases‚ specifically their physical and chemical properties. Data: Gas | Flame Reaction | Glowing Splint | Limewater Reaction | Bromothymol Blue Reaction | Hydrogen | Loud Pop | | | | Oxygen | | Glowing Brighter | | | Hydrogen & Oxygen | Loud Pop‚ extinguished fire | | | | Carbon Dioxide | | Glow
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|Chemistry Review 1 |TEACHER ANSWER KEY | | |June 06‚ 2011 | | | |’see explanation below’
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16 Characteristics of a Gas Page 17 Pictures of Gases Page 18 Q & A Page 19 Bibliography Page 20 Kinetic Theory of Molecules The kinetic theory of molecules describes the behavior of matter in terms of particles in motion. This theory makes these assumptions: 1. Gases are made up of particles with no defined volume but with a defined mass. In other words their volume is miniscule compared to the distance between themselves and other molecules. 2. Gas particles undergo no intermolecular
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What happens when oil does peak? by Joel Bainerman Peak oil is often referred to as "Hubberts Peak"‚ a geophysicist who observed that oil well production followed a bell curve. According to the mainstream‚ convention view‚ peak oil is set to occur around 2006-2008. When peak oil occurs‚ production will decline approximately 3% per year at a time where global demand is increasing at 3% per year. What will all this mean for you and me- the average folk? Which industries will suffer the most- and
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the matter uniformly occupies its container. ’‚ CAPTION‚ ’gas’‚BELOW‚LEFT‚ WIDTH‚ 200‚ FGCOLOR‚ ’#D9D9D9’‚ BGCOLOR‚ ’#90A0B6’‚ TEXTCOLOR‚ ’#000000’‚ CAPCOLOR‚ ’#000066’‚ OFFSETX‚ +100‚ OFFSETY‚ -110);" onmouseout="return nd();" onclick="return overlib(’ A state of matter in which the distance between particles changes as necessary so that the matter uniformly occupies its container. ’‚ STICKY‚ CLOSECLICK‚ CAPTION‚ ’gas’‚BELOW‚LEFT‚ WIDTH‚ 200‚ FGCOLOR‚ ’#D9D9D9’‚ BGCOLOR‚ ’#90A0B6’
Free Gas Pressure Thermodynamics
No fixed shape‚ has fixed volume‚ flow easily. Gas: when collected into vessels occupies all space inside vessel‚ takes shape of container‚ no fixed shape or volume. Arrangement of particles in solids‚ liquids & gases • Attractive force among particles strongest in solid. Particles are close together& arranged in a fixed pattern. • Weaker attractive force in liquids than solids. Particles not as close as in solid but more closer than in gas. Particles loosely packed ‚ have freedom of moving
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