Dependence of Intramolecular Vibrational Relaxation on Central
... overestimate the rapidity of the energy relaxation process since the rotational and hot-band congestion can cause extensive inhomogeneous broadening in the measurement. For example, the gas-phase photoacoustic spectra of benzene suggest that IVR is very rapid in the overtones of the C-H stretches.* ...
... overestimate the rapidity of the energy relaxation process since the rotational and hot-band congestion can cause extensive inhomogeneous broadening in the measurement. For example, the gas-phase photoacoustic spectra of benzene suggest that IVR is very rapid in the overtones of the C-H stretches.* ...
Comparison of Functionals for Metal Hexaboride Band Structure
... comprise the structural framework. Boron-boron and metal-boron bonds clearly influence the electronic properties extant in the hexaboride suite [3] and are explored in more detail in this work. Electronic properties are generally controlled by the behavior of electrons within a small energy range (~ ...
... comprise the structural framework. Boron-boron and metal-boron bonds clearly influence the electronic properties extant in the hexaboride suite [3] and are explored in more detail in this work. Electronic properties are generally controlled by the behavior of electrons within a small energy range (~ ...
Biochemical Thermodynamics
... Chapter 1 • The First Law neutral molecules (such as nutrients) across cell membranes, motion of the organism (for example, through the contraction of muscles), and anabolism, the biosynthesis of small and large molecules. The biosynthesis of DNA may be regarded as an anabolic process in which energ ...
... Chapter 1 • The First Law neutral molecules (such as nutrients) across cell membranes, motion of the organism (for example, through the contraction of muscles), and anabolism, the biosynthesis of small and large molecules. The biosynthesis of DNA may be regarded as an anabolic process in which energ ...
Electron Density Distributions Calculated for the Nickel Sulfides
... Electron Densities for Ni Sulfides and Ni Metal strength14 of an M-S bonded interaction and the coordination number of the M atom are not well-defined quantities in the sense that they are for the classical coordinated polyhedra in oxides, rendering Pauling’s rules14 less satisfactory in the determ ...
... Electron Densities for Ni Sulfides and Ni Metal strength14 of an M-S bonded interaction and the coordination number of the M atom are not well-defined quantities in the sense that they are for the classical coordinated polyhedra in oxides, rendering Pauling’s rules14 less satisfactory in the determ ...
Anomalies in mid-high-temperature linear thermal expansion
... acoustic properties [1–3], metallic foams are drawing increasing attention from both the academic and industrial fields. A lot of works discussed the dependence of the mechanical properties on the structural parameters [4–8] and properties of the cell wall material [9, 10]. It has been revealed that ...
... acoustic properties [1–3], metallic foams are drawing increasing attention from both the academic and industrial fields. A lot of works discussed the dependence of the mechanical properties on the structural parameters [4–8] and properties of the cell wall material [9, 10]. It has been revealed that ...
Introduction to colloid and sol-gel chemistry
... charged and will migrate in one or other direction when subjected to an electric field. It has been observed that there is a tendency for charges to accumulate at any interface between two phases, because, the relative affinities of the cations and anions for the two phases are, in general, differen ...
... charged and will migrate in one or other direction when subjected to an electric field. It has been observed that there is a tendency for charges to accumulate at any interface between two phases, because, the relative affinities of the cations and anions for the two phases are, in general, differen ...
Thermal Analysis of High Power Pulse Laser Module
... incurs time and temperature dependent creep deformation at low stress level; while epoxy has easier manufacturing process, but it has much lower thermal conductivity and also other electrical and material stability issues. In this paper, thermal analysis is conducted on a 3-D finite element model of ...
... incurs time and temperature dependent creep deformation at low stress level; while epoxy has easier manufacturing process, but it has much lower thermal conductivity and also other electrical and material stability issues. In this paper, thermal analysis is conducted on a 3-D finite element model of ...
Chemical Bonding II
... MO diagram for Li through N The elements on the left side of period 2 have a fairly small energy gap between the 2s and 2p orbitals. As a result, interaction between s and p orbitals is possible. This can be viewed in different ways. ...
... MO diagram for Li through N The elements on the left side of period 2 have a fairly small energy gap between the 2s and 2p orbitals. As a result, interaction between s and p orbitals is possible. This can be viewed in different ways. ...
Heat transfer physics
Heat transfer physics describes the kinetics of energy storage, transport, and transformation by principal energy carriers: phonons (lattice vibration waves), electrons, fluid particles, and photons. Heat is energy stored in temperature-dependent motion of particles including electrons, atomic nuclei, individual atoms, and molecules. Heat is transferred to and from matter by the principal energy carriers. The state of energy stored within matter, or transported by the carriers, is described by a combination of classical and quantum statistical mechanics. The energy is also transformed (converted) among various carriers.The heat transfer processes (or kinetics) are governed by the rates at which various related physical phenomena occur, such as (for example) the rate of particle collisions in classical mechanics. These various states and kinetics determine the heat transfer, i.e., the net rate of energy storage or transport. Governing these process from the atomic level (atom or molecule length scale) to macroscale are the laws of thermodynamics, including conservation of energy.