3,205 research outputs found
Dynamic Response of a Cylindrical Shell Segment Subjected to an Arbitrary Loading
Dynamic response analysis for underground cylindrical shell segments subjected to blast loadin
Forces and conductances in a single-molecule bipyridine junction
Inspired by recent measurements of forces and conductances of bipyridine
nano-junctions, we have performed density functional theory calculations of
structure and electron transport in a bipyridine molecule attached between gold
electrodes for seven different contact geometries. The calculations show that
both the bonding force and the conductance are sensitive to the surface
structure, and that both properties are in good agreement with experiment for
contact geometries characterized by intermediate coordination of the metal
atoms corresponding to a stepped surface. The conductance is mediated by the
lowest unoccupied molecular orbital, which can be illustrated by a quantitative
comparison with a one-level model. Implications for the interpretation of the
experimentally determined force and conductance distributions are discussed
Axisymmetric Dynamic Response of Spherical and Cylindrical Shells
Axisymmetric dynamic response of spherical and cylindrical shell
Towards Grower-friendly Apple Crop Thinning by Tree Shading
Light management with shading nets, which reduce sunlight by 74%, might be an
alternative to chemicals commonly used for thinning on apple trees. To study the effect of
shading on crop load and fruit quality, trials were conducted in field experiments with the
cultivars Golden Delicious and Elstar in 2006. Trees were either covered 25 days after full
bloom (DAFB) with a net during three days, or until the peak of fruit fall, observed after
seven days shading. Ideal time length for optimal crop yield was seven days shading for
Elstar and three days shading for Golden Delicious. Alternate bearing could be decreased
as flower initiation counts the following year showed. In both experiments, inner quality of
fruit such as sugar and firmness showed good values at optimal shading duration
compared with chemical + hand thinning. In 2007, a second field trial was conducted with
cultivars Golden Delicious and Topaz to study the time period for shading in further detail.
Shading was done for three days at 19, 26 and 33 DAFB using two net types (three- and
two-meter-net width, covering the trees entirely or only down to 50 cm above ground). For
Golden Delicious, shading after 19 and 26 days reduced fruits per 100 flower cluster to the
same extent as with chemical + hand thinning. There was no difference between the two
net types. For Topaz, shading after 19 days showed the best results. Regarding inner
quality of both cultivars, only sugar content for Golden Delicious could be significantly
improved after 19 and 26 days shading. Further analyses are still under way (e.g. for
acidity).
This study is part of an effort for increasing European consumption with fruit from
sustainable production systems, the ISAFRUIT-EU-project
The Emergence of Insight in Problem Solving
This paper relates the notion of insight in problem solving to the current debate concerning epistemological and ontological emergence. The psychological school that stresses the relevance of insight for solving certain types of problems has been Gestalt theory. In classical Gestaltist writings, however, there is not much information about the question of whether or not insights are wholes with emergent properties. It is only in the more recent literature that this question is formulated. The present paper provides examples of insight problems (section I). Then it shows how insight was characterized in Gestalt theoretical writings, in particular by K. Duncker (II), and how this relates to the philosophical debate on emergence (III). After presenting two stances in research on problem solving that resemble the positions arguing for epistemological and ontological emergence (IV), I conclude with suggesting an alternative by complementing the basic part-whole framework with bidirectional processes found in perceptual reversals of ambiguous figures (V). In so doing I suggest to understand insight as âintersight,â which is not an emergent whole, but a hinge or switch that mediates between two or more part-whole structures (here: problem and solution).This paper relates the notion of insight in problem solving to the current debate concerning epistemological and ontological emergence. The psychological school that stresses the relevance of insight for solving certain types of problems has been Gestalt theory. In classical Gestaltist writings, however, there is not much information about the question of whether or not insights are wholes with emergent properties. It is only in the more recent literature that this question is formulated. The present paper provides examples of insight problems (section I). Then it shows how insight was characterized in Gestalt theoretical writings, in particular by K. Duncker (II), and how this relates to the philosophical debate on emergence (III). After presenting two stances in research on problem solving that resemble the positions arguing for epistemological and ontological emergence (IV), I conclude with suggesting an alternative by complementing the basic part-whole framework with bidirectional processes found in perceptual reversals of ambiguous figures (V). In so doing I suggest to understand insight as âintersight,â which is not an emergent whole, but a hinge or switch that mediates between two or more part-whole structures (here: problem and solution)
Faddeev equations with three-nucleon force in momentum space
Modified Faddeev equations that allow the inclusion of irreducible three-body forces in addition to two-body interactions are formulated and the technical apparatus for their solution in momentum space is described. Results for the triton binding energy are obtained with realistic two-nucleon interactions and the Tucson-Melbourne two-pion exchange three-nucleon force and compared with previous calculations. Excellent agreement with the results of other groups is found confirming that the accuracy of present-day techniques for handling three-nucleon forces is very high indeed
Relativistic calculation of the triton binding energy and its implications
First results for the triton binding energy obtained from the relativistic
spectator or Gross equation are reported. The Dirac structure of the nucleons
is taken into account. Numerical results are presented for a family of
realistic OBE models with off-shell scalar couplings. It is shown that these
off-shell couplings improve both the fits to the two-body data and the
predictions for the binding energy.Comment: 5 pages, RevTeX 3.0, 1 figure (uses epsfig.sty
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