«One question that screams out to be answered is whether we'll see the same sort of perfect fluid that we see at RHIC,» Zajc says, «or whether we'll see something
like an ideal gas where the quarks and gluons are essentially free.
There is a whole science to uppermost atmosphere physics, where a lot of stuff typically breaks down (
like the ideal gas law and Local Thermodynamic Equilibrium which climatologists take for granted) but it's almost a different field all together with little, if any, influence on surface temperature and energy budget discussions.
Think both H2O and CO2 act sort of
like a ideal gas, and CO2 is more like an ideal gas as compared to H2O gas.
What I've seen often enough in AGW reasoning is Carbon Dioxide's properties described as an ideal gas — which is how I came into these arguments — especially by one physics PhD who claimed that CO2 mixes thoroughly in the atmosphere because it behaves
like an ideal gas; that a pool of CO2 on the floor in a room will therefore diffuse into the atmosphere of the room according to the random nature of the ideal gas without any work being done to move it, fan or open window and so on, and once thoroughly mixed can not be unmixed without work being done.
Not exact matches
These galaxies are known for a much higher rate of star formation compared to sedate Milky Way -
like galaxies, making these structures
ideal to study galaxy growth and the interplay between
gas, dust, stars, and the black holes at the centers of galaxies.
And even the wastelands of health
like gas stations have nuts, so they are pretty
ideal keto snack.
Villa Hacienda La Cresta is
ideal for entertaining thanks to a two level open - air courtyard, alfresco dining area for 22, and little extras
like a wood - fire pizza oven and
gas grill.
AGWSF's Greenhouse Effect doesn't have convection because it doesn't have real
gases, it has substituted the imaginary
ideal gas without properties and processes, but our real Earth's atmosphere does have convection — the heavy ocean of real fluid
gas oxygen and nitrogen weighing a ton on our shoulders, a stone per square inch, acts
like a blanket around the Earth stopping the heat escaping, compare with the Moon which has extreme swings of temperature.
«A study
like this will be the
ideal way to try and estimate what the impact of the recent oil and
gas boom has had on methane emissions,» Wecht said.
The
gas on the bottom behaves
like an ordinary
ideal gas, after all, and expands when warmed at constant pressure.
Yes, such experimental evidence as there is refutes the assertion that there can be a stable thermal separation in any isolated system, including an
ideal gas in a thermally isolated vessel
like the Uranium centrifuges with their enormous g - forces.
If the pool balls are perfectly elastic,
like the molecules of an
ideal gas, the top one pops up a bit in reaction because of conservation of momentum and energy.
The
gas at the top of the tube would be warmed (thus increasing its pressure slightly (
ideal gas laws temperature change constant volume tube) and
like a piston this pressure increase would propagate down the tube at the local speed of sound in the
gas causing adiabatic heating of the
gas in each subsequent layer until it reached the bottom of the tube, instantly replacing the heat lost to the silver wire.
Turn on any diffusion (not that you could ever really turn it off), turn on any sort of heat conduction without bulk transport (not that you could ever really turn it off — you can compute what the conductivity is for an
ideal gas and it is strictly non-zero, just
like the dynamic viscosity:
Those same textbooks carefully demonstrate that there is no lapse rate in an
ideal gas in a gravitational field in thermal equilibrium because, as is well known, thermal equilibrium is an isothermal state; nothing as simple as gravity can function
like a «Maxwell's Demon» to cause the spontaneous stable equilibrium separation of
gas molecules into hotter and colder reservoirs.
An
ideal gas collides instantly — a hard sphere approximation,
like perfectly elastic pool balls.
It is also interesting to note that if, the second term in vanishes (making any temperature a «low» temperature as) and gravity does indeed behave
like additional degrees of freedom in the specific heat of the entire system while every small subvolume of the
gas still behaves precisely
like an ordinary
ideal gas with kinetic energy $ \ frac -LCB- 3 -RCB--LCB- 2 -RCB- NkT $ and yes, with detailed balance across any vertical surface (although yes, Joe, my argument involving shifting the MB distribution was sloppy and imprecise — hopefully you
like this one better but the result is the same either way).
First,
like elsewhere in Asia, natural
gas is an
ideal transition fuel to a future regional energy economy based upon renewables.
With so much end extreme interglacial normal climate «noise» it is seems
like such a LEAP to matheMANNically manufacture CO2 numerical / Nutticelli attribution anywhere near close enough to allow calculation of the
ideal gas law concentration.
The
ideal gas does not exist, it creates an impossible and ludicrous world which one can see by extrapolating from
ideal gas descriptions and seeing that is not what the natural world around us looks
like.
The context being the point I'm making that the Greenhouse Effect is built on science fraud by sleight of hand changes to real physics, the
ideal gas / real
gas is just one example — the real world around us is nothing
like it is depicted in the AGW GHE..
I've given before the example of the oximeter, that «uses» the Beers - Lambert law, but then has to adjust it because the law is idealised and not of the real world,
like using
ideal gas laws.
if you are going to build a shower room then looks
like this unit would be
ideal, just need a
gas bottle and water supply piped to it.
Though 12 - 15 miles may seem
like a small range for an electric car, it nonetheless stands to translate into some major savings on
gas usage — it could be
ideal for close commuters and around - town drivers.
Laws which apply only to closed systems, laws which apply only to
ideal gases, which are purely imaginary, and
like here with Ira's diagram, simply reversing the attribution of properties has caused this incredible confusion which it is very difficult to correct.
Anyway, as Miskolczi found, that laws taken out of context can't be used in the real world, for real applied science problems we need to know that an
ideal gas is imaginary,
like «average», and not real, and NASA and the Stefan - Bolzmann saga is another example, which uses flat earth physics thinking it describes a 3 - dimensional universe.
In an
ideal world, I'd love this to work
like asking Siri for «nearby
gas stations» when you're navigating: Query driving songs, and Siri will pull up the top ten or fifteen activity - based playlists, then ask you if you'd
like to listen to the first one, or something else.