Process versus product: which determines consumer demand for genetically modified apples?

One debate in the literature regarding consumers’ reactions to genetically modified food (GMF) centres on whether consumers react to the process of gene technology or to the specific GMF products. Results from a choice experiment survey in New Zealand indicate that consumers are heterogeneous with regard to GMF and that some modifications are viewed more positively than others. These findings suggest that for some consumers the process of gene technology is the decisive factor in evaluatingGMF, while for others the different potential GMF products are valued according to their enhanced attributes.choice modelling, consumer surveys, food, genetic modification, preferences, Consumer/Household Economics, Demand and Price Analysis,

To Disclose or Not to Disclose: Duty of Candor Obligations of the United States and Foreign Patent Offices

Many patent offices around the world have rigorous prior art disclosure requirements. U.S. patent applicants not only must meet each individual country\u27s criteria for disclosure, but also must contend with allegations of inequitable conduct from patent infringers which may render their patents unenforceable. This article argues that the new prior art disclosure rules promulgated by the USPTO unfairly shift the burden of examining patent applications onto patent applicants, and create a situation ripe for allegations of inequitable conduct. This article also examines how other countries handle disclosure obligations, and recommends several alternative systems that would meet the USPTO\u27s objectives of increasing quality and efficiency while relieving the plague of inequitable conduct cases

To Disclose or Not to Disclose: Duty of Candor Obligations of the United States and Foreign Patent Offices

Many patent offices around the world have rigorous prior art disclosure requirements. U.S. patent applicants not only must meet each individual country\u27s criteria for disclosure, but also must contend with allegations of inequitable conduct from patent infringers which may render their patents unenforceable. This article argues that the new prior art disclosure rules promulgated by the USPTO unfairly shift the burden of examining patent applications onto patent applicants, and create a situation ripe for allegations of inequitable conduct. This article also examines how other countries handle disclosure obligations, and recommends several alternative systems that would meet the USPTO\u27s objectives of increasing quality and efficiency while relieving the plague of inequitable conduct cases

The pulsed air gust generator Final report

Wind tunnel simulation of jet pulsing apparatus for controlled gust

Space station integrated propulsion and fluid systems study

The program study was performed in two tasks: Task 1 addressed propulsion systems and Task 2 addressed all fluid systems associated with the Space Station elements, which also included propulsion and pressurant systems. Program results indicated a substantial reduction in life cycle costs through integrating the oxygen/hydrogen propulsion system with the environmental control and life support system, and through supplying nitrogen in a cryogenic gaseous supercritical or subcritical liquid state. A water sensitivity analysis showed that increasing the food water content would substantially increase the amount of water available for propulsion use and in all cases, the implementation of the BOSCH CO2 reduction process would reduce overall life cycle costs to the station and minimize risk. An investigation of fluid systems and associated requirements revealed a delicate balance between the individual propulsion and fluid systems across work packages and a strong interdependence between all other fluid systems

A synaptic learning rule for exploiting nonlinear dendritic computation

Information processing in the brain depends on the integration of synaptic input distributed throughout neuronal dendrites. Dendritic integration is a hierarchical process, proposed to be equivalent to integration by a multilayer network, potentially endowing single neurons with substantial computational power. However, whether neurons can learn to harness dendritic properties to realize this potential is unknown. Here, we develop a learning rule from dendritic cable theory and use it to investigate the processing capacity of a detailed pyramidal neuron model. We show that computations using spatial or temporal features of synaptic input patterns can be learned, and even synergistically combined, to solve a canonical nonlinear feature-binding problem. The voltage dependence of the learning rule drives coactive synapses to engage dendritic nonlinearities, whereas spike-timing dependence shapes the time course of subthreshold potentials. Dendritic input-output relationships can therefore be flexibly tuned through synaptic plasticity, allowing optimal implementation of nonlinear functions by single neurons

Instability of toroidal magnetic field in jets and plerions

Jets and pulsar-fed supernova remnants (plerions) tend to develop highly organized toroidal magnetic field. Such a field structure could explain the polarization properties of some jets, and contribute to their lateral confinement. A toroidal field geometry is also central to models for the Crab Nebula - the archetypal plerion - and leads to the deduction that the Crab pulsar's wind must have a weak magnetic field. Yet this `Z-pinch' field configuration is well known to be locally unstable, even when the magnetic field is weak and/or boundary conditions slow or suppress global modes. Thus, the magnetic field structures imputed to the interiors of jets and plerions are unlikely to persist. To demonstrate this, I present a local analysis of Z-pinch instabilities for relativistic fluids in the ideal MHD limit. Kink instabilities dominate, destroying the concentric field structure and probably driving the system toward a more chaotic state in which the mean field strength is independent of radius (and in which resistive dissipation of the field may be enhanced). I estimate the timescales over which the field structure is likely to be rearranged and relate these to distances along relativistic jets and radii from the central pulsar in a plerion. I conclude that a concentric toroidal field is unlikely to exist well outside the Crab pulsar's wind termination shock. There is thus no dynamical reason to conclude that the magnetic energy flux carried by the pulsar wind is much weaker than the kinetic energy flux. Abandoning this inference would resolve a long-standing puzzle in pulsar wind theory.Comment: 28 pages, plain TeX. Accepted for publication in Ap