The answers require observing the dynamics of electronic excitations or of molecules themselves as they explore spatially heterogeneous landscapes
in condensed phase systems,» Ginsberg says.
The reaction rate between atmospheric hydrogen chloride (HCl) and chlorine nitrate (ClONO2) is greatly enhanced in the presence of ice particles; HCl dissolves readily into ice, and the collisional reaction probability for ClONO2 on the surface of ice with HCl in the mole fraction range from ∼ 0.003 to 0.010 is in the range from ∼ 0.05 to 0.1 for temperatures near 200 K. Chlorine (Cl2) is released into the gas phase on a time scale of at most a few milliseconds, whereas nitric acid (HNO3), the other product, remains
in the condensed phase.
Not exact matches
As the first matter began to emerge from the Big Bang, it went through a number of
phases much as steam
condenses to water and eventually freezes as it cools — except rather than water, you get the first recognizable matter
in the universe — a hot soup of quarks and gluons.
Earlier research had suggested that semivolatile compounds — those that move through air
in both the gas and
condensed phases — tend to pass through skin relatively slowly.
The star system consists of a young star still
in an early development
phase and three gas clouds which are rapidly
condensing by gravitational forces.
Compared to isolated electron - molecule experiments, the
condensed -
phase measurements are made under conditions closer to those found
in living tissue.
The measurements were made
in a
condensed -
phase environment.
Indeed, although climatologists and other scientists have long focused on gases
in the atmosphere, they have not closely examined the role played by so - called
condensed phase particles.
In addition to new experimental approaches for investigations of complex materials systems, she has pioneered stochastic simulation methods for complex condensed phase chemical reactions including transport in inorganic and organic solids and liquid
In addition to new experimental approaches for investigations of complex materials systems, she has pioneered stochastic simulation methods for complex
condensed phase chemical reactions including transport
in inorganic and organic solids and liquid
in inorganic and organic solids and liquids.
Loss ′ s research interests include many aspects of the theory of
condensed matter systems with a particular focus on spin - dependent and
phase - coherent phenomena («mesoscopics»)
in semiconducting nanostructures and molecular magnets.
Featuring iconic words, numbers or dates - One, Utopia, Riot, 1968, 1980 - these works reclaim the commercial landscape of signage
in order to underscore the cultural potency of language and image
condensed together into singular
phases and shared historical moments.
In condensed matter physics, Dyson also did studies in the phase transition of the Ising model in 1 dimension and spin waves [11] Dyson was awarded the Lorentz Medal in 1966 and Max Planck medal in 196
In condensed matter physics, Dyson also did studies
in the phase transition of the Ising model in 1 dimension and spin waves [11] Dyson was awarded the Lorentz Medal in 1966 and Max Planck medal in 196
in the
phase transition of the Ising model
in 1 dimension and spin waves [11] Dyson was awarded the Lorentz Medal in 1966 and Max Planck medal in 196
in 1 dimension and spin waves [11] Dyson was awarded the Lorentz Medal
in 1966 and Max Planck medal in 196
in 1966 and Max Planck medal
in 196
in 1969.
[Response: SO2 would be
in the gas
phase, but it
condenses to small particles, which actually cool the planet by scattering visible light to space.
This energy will be delivered, after some time, to air when the water molecules
in the gas
phase condense into droplets.
Even if there were significant self - absorbed GHG band IR from the surface, none of it could thermalise
in the gas
phase because the IR Activated Density of States ** is solely a function of temperature so the excess energy pseudo-diffuses to thermalise at interfaces with
condensed matter.
As previously reported
in issue 18 of Passive House Plus, the company began to apply its learnings to new build
in last year's 15 unit second
phase at Silken Park, itself a laudable low energy project which featured essentially the same wall build - up, but with double rather than triple - glazed windows, a strip foundation system, demand controlled ventilation and
condensing gas boilers.