Writing Ionic Formulas continued
... 13. Many ionic compounds that contain calcium have been in use for so long that they are often identified by their mineral or common names, which were given to them before their chemical composition was determined. Write the ionic formulas for the following calcium compounds, whose common or mineral ...
... 13. Many ionic compounds that contain calcium have been in use for so long that they are often identified by their mineral or common names, which were given to them before their chemical composition was determined. Write the ionic formulas for the following calcium compounds, whose common or mineral ...
Taming the Electronic Structure of Lead and Eka-lead
... ground state electronic configuration of d9s232,33 contrary to the d10s1 configurations of the lighter coinage metals; while the bipositive cations of Zn, Cd, and Hg have a d10 configuration, the divalent eka-mercury (E112) cation has a d8s2 ground state.34 It was also predicted35 that eka-thallium (E1 ...
... ground state electronic configuration of d9s232,33 contrary to the d10s1 configurations of the lighter coinage metals; while the bipositive cations of Zn, Cd, and Hg have a d10 configuration, the divalent eka-mercury (E112) cation has a d8s2 ground state.34 It was also predicted35 that eka-thallium (E1 ...
Low-energy fusion dynamics of weakly bound nuclei
... The PLATYPUS model uses two notions: classical trajectory and MonteCarlo sampling of probability densities. This approach has been developed in close collaboration with experimenters [3, 4]. The model is implemented in the PLATYPUS code [5]. For a given impact parameter and bombarding energy, a weak ...
... The PLATYPUS model uses two notions: classical trajectory and MonteCarlo sampling of probability densities. This approach has been developed in close collaboration with experimenters [3, 4]. The model is implemented in the PLATYPUS code [5]. For a given impact parameter and bombarding energy, a weak ...
The Polarizable Continuum Model Goes Viral! - Munin
... The vast majority of chemical phenomena happens in complex environments, where the molecule of interest can interact with a large number of other moieties, solvent molecules or residues in a protein. These systems represent an ongoing challenge to our modelling capabilities, especially when high acc ...
... The vast majority of chemical phenomena happens in complex environments, where the molecule of interest can interact with a large number of other moieties, solvent molecules or residues in a protein. These systems represent an ongoing challenge to our modelling capabilities, especially when high acc ...
Non-relativistic quantum theory consistent with
... EPR paradox [12], [13] reflects one of the most peculiar and principal features of classical non-relativistic quantum mechanics. The authors A. Einstein, B. Podolsky and N. Rosen considered two quantum systems I and II that initially interacted and then interaction stopped. Now certain quantity is m ...
... EPR paradox [12], [13] reflects one of the most peculiar and principal features of classical non-relativistic quantum mechanics. The authors A. Einstein, B. Podolsky and N. Rosen considered two quantum systems I and II that initially interacted and then interaction stopped. Now certain quantity is m ...
The Hydrogen Atom: a Review on the Birth of Modern Quantum
... In scientific literature the discovery of hydrogen in atomic form is usually attributed to H. Cavendish and dates back to 1766 [1]. Since its discovery it was mainly characterized for its physico-chemical properties in order to study in detail its behavior in combustion reactions. It is only in 1855 ...
... In scientific literature the discovery of hydrogen in atomic form is usually attributed to H. Cavendish and dates back to 1766 [1]. Since its discovery it was mainly characterized for its physico-chemical properties in order to study in detail its behavior in combustion reactions. It is only in 1855 ...
Statistical Mechanics That Takes into Account Angular
... determining equations of this hypersurface are the equalities that fix the values of controllable motion integrals. A controllable motion integral is a phase function, the value of which does not vary with the motion of the system and can be measured. An isolated system universally has the Hamiltoni ...
... determining equations of this hypersurface are the equalities that fix the values of controllable motion integrals. A controllable motion integral is a phase function, the value of which does not vary with the motion of the system and can be measured. An isolated system universally has the Hamiltoni ...
Bridging scales in nuclear physics
... successfully describes the strong interaction between quarks and gluons. However, modelling the atomic nuclei based on its basic constituents and the strong interaction, does not seem to capture the complexity of atomic nuclei. Despite the tremendous efforts put into modelling the hadron-hadron inte ...
... successfully describes the strong interaction between quarks and gluons. However, modelling the atomic nuclei based on its basic constituents and the strong interaction, does not seem to capture the complexity of atomic nuclei. Despite the tremendous efforts put into modelling the hadron-hadron inte ...
One-Particle Density Matrix Functional for Correlation in Molecular
... close to the CCD ones, which are accurate results for the basis set correlation energies. Note that the percentage of the correlation energy obtained by CCD decreases as the size of the molecule increases, whereas our functional keeps giving a substantial portion of the correlation energy (see, e.g. ...
... close to the CCD ones, which are accurate results for the basis set correlation energies. Note that the percentage of the correlation energy obtained by CCD decreases as the size of the molecule increases, whereas our functional keeps giving a substantial portion of the correlation energy (see, e.g. ...
THE QUANTUM BEATING AND ITS NUMERICAL SIMULATION
... degenerate, energy level. A superposition of these two states is shown to evolve concentrating periodically inside one well or the other, with a frequency proportional to the energy difference (see section 2.1 below). According to the mathematical quantum theory of molecular structure developed in t ...
... degenerate, energy level. A superposition of these two states is shown to evolve concentrating periodically inside one well or the other, with a frequency proportional to the energy difference (see section 2.1 below). According to the mathematical quantum theory of molecular structure developed in t ...
352
... which is of the same functional form as that extensively used in our previous study of helium and its isoelectronic ions.11 Table I also shows the specific ranges of the integers included in Eq. 共8兲 as the function of the order n of the free ICI calculations. 共For n = 1, see footnote.兲 The variables ...
... which is of the same functional form as that extensively used in our previous study of helium and its isoelectronic ions.11 Table I also shows the specific ranges of the integers included in Eq. 共8兲 as the function of the order n of the free ICI calculations. 共For n = 1, see footnote.兲 The variables ...
Two-dimensional quantum gravity may be formulated as a
... solvent (x 111(z + H)I y) to vanish at x,. In other words, there is no tunneling through the poles and the eigenstates stay localized between two successive poles [x" x,J or between the first pole x, and +=. This leads various authors'·'·' to suggest that a non perturbative definition of two-dimens ...
... solvent (x 111(z + H)I y) to vanish at x,. In other words, there is no tunneling through the poles and the eigenstates stay localized between two successive poles [x" x,J or between the first pole x, and +=. This leads various authors'·'·' to suggest that a non perturbative definition of two-dimens ...
