18,177 research outputs found
A Marxian Analysis of Inter-Industry Linkages and the Time Structure of Production
In this paper we analyze and model the flows of capital in an interlinked economy exhibiting complete simple reproduction. Drawing heavily on Marx\u27s description of circulation in volume 2 of Capital, we graphically and symbolically model the transfer of value between money, productive, and commodity capital. In addition, we allow for the creation of surplus value through production. Combining this with Marx\u27s discussion of simple reproduction and the MELT (Monetary Expression of Labor Time), our model illustrates a capitalist economy in a state of general equilibrium. As a powerful descriptive tool, this mathematical and Maple-coded model combines the insights of volumes 1 and 2 of Capital to enable a more complete understanding of Marxian theory. This model will be usable both as a descriptive and teaching tool, as well as potentially being used to analyze the equalization of profit rates, and the related transformation problem
Electronic libraries and electronic librarians: Who does what in a national electronic community
This talk will have two parts: First, I'm going to describe very briefly what this new kind of library technology is like through a discussion of the Worm Community System (WCS), why it is going to be very important, and why it will involve a lot of money. What I want to emphasize at the start
is that while WCS may seem like an esoteric research project, in fact it is
one of the flagship information projects funded by the National Science
Foundation. In addition, the National Information Infrastructure Act looms
in the immediate future, authorizing an enormous amount of money to be
spent in the development of digital libraries in specialized areas. Digital libraries
will require information systems like WCS. This project has become a national
model of this new kind of information system, but its primary content is really
just a special collection, in the same sense you already know. It is an important
national effort, but there will be lots of other efforts like this in many different
subject areas.
Second, I'm going to discuss in more detail what kinds of people are required
to do this kind of activity. The roles range from traditional librarians all the
way to systems architects. Similarly, the roles range from those that involve
no computer knowledge at all to those that involve very intensive computing.
My expectation is that people who call themselves "librarians" in the foreseeable
future will actually span this entire range, even though now they are significantly
skewed towards the traditional end.published or submitted for publicatio
Optimization of a satellite project
Improvement in technological performance by project optimizatio
The importance of nuclear masses in the astrophysical rp-process
The importance of mass measurements for astrophysical capture processes in
general, and for the rp-process in X-ray bursts in particular is discussed. A
review of the current uncertainties in the effective lifetimes of the major
waiting points 64Ge, 68Se, and 72Kr demonstrates that despite of recent
measurements uncertainties are still significant. It is found that mass
measurements with an accuracy of the order of 10 keV or better are desirable,
and that reaction rate uncertainties play a critical role as well.Comment: 14 pages, 4 figures, to appear in International Journal of Mass
Spectroscop
How proteins are transported into mitochondria
Most mitochondrial polypeptides are synthesized outside the organelle as precursors which are usually larger than the âmatureâ polypeptides found within mitochondria. The precursors are imported into the mitochondria by a process which is independent of protein synthesis but dependent on high-energy phosphate bonds inside the mitochondria. This mechanism is basically different from that which governs the movement of secretory polypeptides across the membrane of the endoplasmic reticulum
Quantum mechanical reactive scattering for three-dimensional atom plus diatom systems. II. Accurate cross sections for H+H_2
Accurate threeâdimensional reactive and nonreactive quantum mechanical cross sections for the H+H_2 exchange reaction on the PorterâKarplus potential energy surface are presented. Tests of convergence in the calculations indicate an accuracy of better than 5% for most of the results in the energy range considered (0.3 to 0.7 eV total energy). The reactive differential cross sections are exclusively backward peaked, with peak widths increasing monotonically from about 32° at 0.4 eV to 51° at 0.7 eV. Nonreactive inelastic differential cross sections show backwards to sidewards peaking, while elastic ones are strongly forward peaked with a nearly monotonic decrease with increasing scattering angle. Some oscillations due to interferences between the direct and exchange amplitudes are obtained in the paraâtoâpara and orthoâtoâortho antisymmetrized cross sections above the effective threshold for reaction. Nonreactive collisions do not show a tendency to satisfy a "j_zâconserving" selection rule. The reactive cross sections show significant rotational angular momentum polarization with the m_j=mâČ_j=0 transition dominating for low reagent rotational quantum number j. In constrast, the degeneracy averaged rotational distributions can be fitted to statistical temperaturelike expressions to a high degree of accuracy. The integral cross sections have an effective threshold total energy of about 0.55 eV, and differences between this quantity and the corresponding 1D and 2D results can largely be interpreted as resulting from bending motions in the transition state. In comparing these results with those of previous approximate dynamical calculations, we find best overall agreement between our reactive integral and differential cross sections and the quasiclassical ones of Karplus, Porter, and Sharma [J. Chem. Phys. 43, 3259 (1965)], at energies above the quasiclassical effective thresholds. This results in the near equality of the quantum and quasiclassical thermal rate constants at 600 K. At lower temperatures, however, the effects of tunneling become very important with the quantum rate constant achieving a value larger than the quasiclassical one by a factor of 3.2 at 300 K and 18 at 200 K
Quantum mechanical reactive scattering for three-dimensional atom plus diatom systems. I. Theory
A method is presented for accurately solving the Schrödinger equation for the reactive collision of an atom with a diatomic molecule in three dimensions on a single BornâOppenheimer potential energy surface. The Schrödinger equation is first expressed in bodyâfixed coordinates. The wavefunction is then expanded in a set of vibrationârotation functions, and the resulting coupled equations are integrated in each of the three arrangement channel regions to generate primitive solutions. Next, these are smoothly matched to each other on three matching surfaces which appropriately separate the arrangement channel regions. The resulting matched solutions are linearly combined to generate wavefunctions which satisfy the reactance and scattering matrix boundary conditions, from which the corresponding R and S matrices are obtained. The scattering amplitudes in the helicity representation are easily calculated from the body fixed S matrices, and from these scattering amplitudes several types of differential and integral cross sections are obtained. Simplifications arising from the use of parity symmetry to decouple the coupledâchannel equations, the matching procedures and the asymptotic analysis are discussed in detail. Relations between certain important angular momentum operators in bodyâfixed coordinate systems are derived and the asymptotic solutions to the bodyâfixed Schrödinger equation are analyzed extensively. Application of this formalism to the threeâdimensional H+H_2 reaction is considered including the use of arrangement channel permutation symmetry, evenâodd rotational decoupling and postantisymmetrization. The range of applicability and limitations of the method are discussed
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