2,271 research outputs found
Stellar winds driven by Alfven waves
Models of stellar winds were considered in which the dynamic expansion of a corona is driven by Alfven waves propagating outward along radial magnetic field lines. In the presence of Alfven waves, a coronal expansion can exist for a broad range of reference conditions which would, in the absence of waves, lead to static configurations. Wind models in which the acceleration mechanism is due to Alfven waves alone and exhibit lower mass fluxes and higher energies per particle are compared to wind models in which the acceleration is due to thermal processes. For example, winds driven by Alfven waves exhibit streaming velocities at infinity which may vary between the escape velocity at the coronal base and the geometrical mean of the escape velocity and the speed of light. Upper and lower limits were derived for the allowed energy fluxes and mass fluxes associated with these winds
Book Review: Body Work: The Social Construction of Womenâs Body Image
Review of Body Work: The Social Construction of Womenâs Body Image by Sylvia K. Bloo
Florida Constitutional Law: Necessity of Freeholders\u27 Vote for County Building Anticipation Bonds
Book Review: A Lot to Learn: Girls, Women, and Education in the 20th Century
Review of A Lot to Learn: Girls, Women, and Education in the 20th Century by Helen Jefferson Lensky
Reflections on The Lion, the Witch, and the Wardrobe
C.S. Lewisâs The Lion, the Witch, and the Wardrobe is full of rich parallels of the Christian faith. This paper reflects on these connections and what they mean to the Christian reader
An Air Force Guide for Effective Meeting Management
The purpose of this research was to improve the effectiveness of organizational meetings thereby reducing the waste from ineffective meetings. Specifically, this thesis sought to answer three research questions addressing the essential elements for effective meetings, the benefits from productive meetings, and the information and skills critical to conducting meetings. The research questions were essentially answered through a comprehensive literature review and the use of the Delphi Technique. However, the solicitation of meeting materials from 16 Malcolm Baldridge National Quality Award winners and 90 Fortune 1,000 firms provided additional information. Seven experts, representing Air Force and industry, participated in two rounds of the Delphi Technique. The research identified the need for a concise and realistic length management tool to instruct managers on how to conduct effective meetings. Further, research highlighted that few corporations in industry have such a tool, even among those firms recognized as being the pinnacle of quality. The culmination of this effort was the development of an effective meeting management guide to outline and discuss the key elements for preparing and conducting organizational meetings. Recommendations to implement effective meeting management training using the guide are discussed
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Viscous coupling of shear-free turbulence across nearly flat fluid interfaces
The interactions between shear-free turbulence in two regions (denoted as + and â on either side of a nearly flat horizontal interface are shown here to be controlled by several mechanisms, which depend on the magnitudes of the ratios of the densities, Ï+/Ïâ, and kinematic viscosities of the fluids, ÎŒ+/ÎŒâ, and the root mean square (r.m.s.) velocities of the turbulence, u0+/u0â, above and below the interface. This study focuses on gasâliquid interfaces so that Ï+/Ïâ âȘ 1 and also on where turbulence is generated either above or below the interface so that u0+/u0â is either very large or very small. It is assumed that vertical buoyancy forces across the interface are much larger than internal forces so that the interface is nearly flat, and coupling between turbulence on either side of the interface is determined by viscous stresses. A formal linearized rapid-distortion analysis with viscous effects is developed by extending the previous study by Hunt & Graham (J. Fluid Mech., vol. 84, 1978, pp. 209â235) of shear-free turbulence near rigid plane boundaries. The physical processes accounted for in our model include both the blocking effect of the interface on normal components of the turbulence and the viscous coupling of the horizontal field across thin interfacial viscous boundary layers. The horizontal divergence in the perturbation velocity field in the viscous layer drives weak inviscid irrotational velocity fluctuations outside the viscous boundary layers in a mechanism analogous to Ekman pumping. The analysis shows the following. (i) The blocking effects are similar to those near rigid boundaries on each side of the interface, but through the action of the thin viscous layers above and below the interface, the horizontal and vertical velocity components differ from those near a rigid surface and are correlated or anti-correlated respectively. (ii) Because of the growth of the viscous layers on either side of the interface, the ratio uI/u0, where uI is the r.m.s. of the interfacial velocity fluctuations and u0 the r.m.s. of the homogeneous turbulence far from the interface, does not vary with time. If the turbulence is driven in the lower layer with Ï+/Ïâ âȘ 1 and u0+/u0â âȘ 1, then uI/u0â ~ 1 when Re (=u0âLâ/Îœâ) â« 1 and R = (Ïâ/Ï+)(vâ/v+)1/2 â« 1. If the turbulence is driven in the upper layer with Ï+/Ïâ âȘ 1 and u0+/u0â â« 1, then uI/u0+ ~ 1/(1 + R). (iii) Nonlinear effects become significant over periods greater than Lagrangian time scales. When turbulence is generated in the lower layer, and the Reynolds number is high enough, motions in the upper viscous layer are turbulent. The horizontal vorticity tends to decrease, and the vertical vorticity of the eddies dominates their asymptotic structure. When turbulence is generated in the upper layer, and the Reynolds number is less than about 106â107, the fluctuations in the viscous layer do not become turbulent. Nonlinear processes at the interface increase the ratio uI/u0+ for sheared or shear-free turbulence in the gas above its linear value of uI/u0+ ~ 1/(1 + R) to (Ï+/Ïâ)1/2 ~ 1/30 for airâwater interfaces. This estimate agrees with the direct numerical simulation results from Lombardi, De Angelis & Bannerjee (Phys. Fluids, vol. 8, no. 6, 1996, pp. 1643â1665). Because the linear viscousâinertial coupling mechanism is still significant, the eddy motions on either side of the interface have a similar horizontal structure, although their vertical structure differs
The International Urban Energy Balance Comparison Project: Initial Results from Phase 2.
Many urban land surface schemes have been developed, incorporating different assumptions about the features of, and processes occurring at, the surface. Here, the first results from Phase 2 of an international comparison are presented. Evaluation is based on analysis of the last 12 months of a 15 month dataset. In general, the schemes have best overall capability to model net all-wave radiation. The models that perform well for one flux do not necessarily perform well for other fluxes. Generally there is better performance for net all wave radiation than sensible heat flux. The degree of complexity included in the models is outlined, and impacts on model performance are discussed in terms of the data made available to modellers at four successive stages
Lipolysis generates platelet dysfunction after in vivo heparin administration
Heparin, when administered to patients undergoing operations using cardiopulmonary bypass, induces plasma changes that gradually impair platelet macroaggregation, but heparinization of whole blood in vitro does not have this effect. The plasma changes induced by heparin in vivo continue to progress in whole blood ex vivo. Heparin releases several endothelial proteins, including lipoprotein lipase, hepatic lipase, platelet factor-4 and superoxide dismutase. These enzymes, which remain active in plasma ex vivo, may impair platelet macroaggregation after in vivo heparinization and during cardiopulmonary bypass
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On the structure of Langmuir turbulence
The Stokes drift induced by surface waves distorts turbulence in the wind-driven mixed layer of the ocean, leading to the development of streamwise vortices, or Langmuir circulations, on a wide range of scales. We investigate the structure of the resulting Langmuir turbulence, and contrast it with the structure of shear turbulence, using rapid distortion theory (RDT) and kinematic simulation of turbulence. Firstly, these linear models show clearly why elongated streamwise vortices are produced in Langmuir turbulence, when Stokes drift tilts and stretches vertical vorticity into horizontal vorticity, whereas elongated streaky structures in streamwise velocity fluctuations (u) are produced in shear turbulence, because there is a cancellation in the streamwise vorticity equation and instead it is vertical vorticity that is amplified. Secondly, we develop scaling arguments, illustrated by analysing data from LES, that indicate that Langmuir turbulence is generated when the deformation of the turbulence by mean shear is much weaker than the deformation by the Stokes drift. These scalings motivate a quantitative RDT model of Langmuir turbulence that accounts for deformation of turbulence by Stokes drift and blocking by the airâsea interface that is shown to yield profiles of the velocity variances in good agreement with LES. The physical picture that emerges, at least in the LES, is as follows. Early in the life cycle of a Langmuir eddy initial turbulent disturbances of vertical vorticity are amplified algebraically by the Stokes drift into elongated streamwise vortices, the Langmuir eddies. The turbulence is thus in a near two-component state, with suppressed and . Near the surface, over a depth of order the integral length scale of the turbulence, the vertical velocity (w) is brought to zero by blocking of the airâsea interface. Since the turbulence is nearly two-component, this vertical energy is transferred into the spanwise fluctuations, considerably enhancing at the interface. After a time of order half the eddy decorrelation time the nonlinear processes, such as distortion by the strain field of the surrounding eddies, arrest the deformation and the Langmuir eddy decays. Presumably, Langmuir turbulence then consists of a statistically steady state of such Langmuir eddies. The analysis then provides a dynamical connection between the flow structures in LES of Langmuir turbulence and the dominant balance between Stokes production and dissipation in the turbulent kinetic energy budget, found by previous authors
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