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Orientation Angle (orientation + angle)

Distribution by Scientific Domains
Life Sciences50%

Selected Abstracts

Electrophoretic collision of a DNA molecule with a small elliptical obstacle

ELECTROPHORESIS, Issue 5 2010
Jaeseol Cho
Abstract We present a Brownian dynamics study of the collision and unhooking of a ,-DNA molecule with an elliptical obstacle. The semi-major and semi-minor axes of the obstacle are comparable to the radius of gyration of the DNA, and the field is sufficiently strong to cause frequent hairpin formation upon collision. We focus on how the dynamics of a head-on collision (impact parameter of zero) are affected by the angle between the major axis of the ellipse and the direction of the electric field far from the elliptical surface. When this orientation angle breaks the symmetry of the system, we find that the collision dynamics are considerably more complicated than the cylindrical obstacle case. In particular, a higher strain rate at the stagnation point on an elliptical surface does not always lead to a higher hooking probability. As a result, elliptical obstacles should be less effective than cylindrical obstacles for DNA separations based on hairpin formation. [source]

Effect of loading on the organization of the collagen fibril network in juvenile equine articular cartilage

JOURNAL OF ORTHOPAEDIC RESEARCH, Issue 9 2009
Pieter A.J. Brama
Abstract We investigated the effects of exercise-induced loading on the collagen network of equine articular cartilage. Collagen fibril architecture at a site (1) subjected to intermittent high-intensity loading was compared with that of an adjacent site (2) sustaining continuous low-level load. From horses exposed to forced exercise (CONDEX group) or not (PASTEX group), the spatial parallelism of fibrils and the orientation angle between fibrils and the surface at depths 9 µm apart through cartilage from surface to tidemark were determined using polarized light microscopy, and expressed as parallelism index (PI) and orientation index (OI). PI was significantly higher in site 2 than 1 in CONDEX and PASTEX groups. PI was significantly higher in forced exercised horses at site 2 but not site 1. OI was significantly greater (more perpendicular to the surface) in the superficial and deep cartilage of site 2 than 1 in both CONDEX and PASTEX groups. Superficial zone OI was higher in exercised horses at site 1 but not at site 2. Exercise increased collagen parallelism and affected orientation. The site differences in OI indicate that Benninghoff's classic predominantly perpendicular arcades appear not to be a consistent architectural feature, but adapt to local forces sustained. © 2009 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res [source]

Spin-decoherence effects on the pumped spin-dependent transport through a quantum dot

PHYSICA STATUS SOLIDI (B) BASIC SOLID STATE PHYSICS, Issue 6 2009
Hui Pan
Abstract We theoretically study the spin-decoherence effects on the pumped spin-polarized current through a quantum dot subject to a rotating magnetic field and coupled to two ferromagnetic electrodes. The dependence of the current on the magnetic moment orientation angle of the two leads is greatly influenced by the spin pump and the spin decoherence. The spin pump destroys the normal spin-valve effects, and the spin decoherence makes the current exhibiting a quite complicated angle dependence. These distinct transport behaviors can be used as electrical schemes for detection of electron spin resonance and spin decoherence. Moreover, the current is closely related to the magnetic Rabi frequency and the detuning, in which the spin decoherence also plays an important role, and thus the pumped spin-polarized current can be used as a sensitive tool to measure these pumping parameters. (© 2009 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim) [source]

A numerical method for the determination of dextrous workspaces of Gough,Stewart platforms

INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN ENGINEERING, Issue 4 2001
L. J. du Plessis
Abstract An optimization approach to the computation of the boundaries of different dextrous workspaces of parallel manipulators is presented. A specific dextrous workspace is the region in space in which, at each position of the working point, a manipulator can control the orientation of its upper working platform through a specified range of orientation angles. Here the dextrous workspace is determined from the intersection of suitably chosen fixed orientation workspaces, which are found by application of a constrained optimization algorithm. The procedure is simple and has the considerable advantage that it may easily be automated. The method is illustrated by its application to both a planar and spatial Gough,Stewart platform. Copyright © 2001 John Wiley & Sons, Ltd. [source]

The evolution of orbit orientation and encephalization in the Carnivora (Mammalia)

JOURNAL OF ANATOMY, Issue 5 2009
John A. Finarelli
Abstract Evolutionary change in encephalization within and across mammalian clades is well-studied, yet relatively few comparative analyses attempt to quantify the impact of evolutionary change in relative brain size on cranial morphology. Because of the proximity of the braincase to the orbits, and the inter-relationships among ecology, sensory systems and neuroanatomy, a relationship has been hypothesized between orbit orientation and encephalization for mammals. Here, we tested this hypothesis in 68 fossil and living species of the mammalian order Carnivora, comparing orbit orientation angles (convergence and frontation) to skull length and encephalization. No significant correlations were observed between skull length and orbit orientation when all taxa were analysed. Significant correlations were observed between encephalization and orbit orientation; however, these were restricted to the families Felidae and Canidae. Encephalization is positively correlated with frontation in both families and negatively correlated with convergence in canids. These results indicate that no universal relationship exists between encephalization and orbit orientation for Carnivora. Braincase expansion impacts orbit orientation in specific carnivoran clades, the nature of which is idiosyncratic to the clade itself. [source]

Mechanical and morphological properties for sandwich composites of wood/PVC and glass fiber/PVC layers

JOURNAL OF APPLIED POLYMER SCIENCE, Issue 6 2010
Narudol Mongkollapkit
Abstract This work manufactured sandwich composites from glass fiber/poly(vinyl chloride) (GF/PVC) and wood/PVC layers, and their mechanical and morphological properties of the composites in three GF orientation angles were assessed. The effects of K value (or viscosity index) of PVC and Dioctyl phthalate (DOP) loading were of our interests. The GF/PVC was used as core layer whereas wood/PVC was the cover layers. The experimental results indicated that PVC with low K value was recommended for the GF/PVC core layer for fabrication of GF/WPVC sandwich composites. The improvement of PVC diffusion at the interface between the GF and the PVC core layer was obtained when using PVC with K value of 58. This was because it could prevent de-lamination between composite layers which would lead to higher mechanical properties of the sandwich composites, except for the tensile modulus. The sandwich composites with 0° GF orientation possessed relatively much higher mechanical properties as compared with those with 45° and 90° GF orientations, especially for the impact strength. Low mechanical properties of the sandwich composites with 45° and 90° GF orientation angles could be overcome by incorporation of DOP plasticizer into the GF/PVC core layer with the recommended DOP loadings of 5,10 parts per hundred by weight of PVC components. © 2010 Wiley Periodicals, Inc. J Appl Polym Sci, 2010 [source]