Public Perceptions of Food Safety: Assessing the Risks Posed by Genetic Modification, Irradiation, Pesticides, Microbiological Contamination and High Fat/High Calorie Foods

[Excerpt] In general, people in the developed world have access to a safe and varied supply of food. Instead of systemic hunger, many developed countries have problems with obesity and other kinds of eating disorders among their citizenry. It is within this context that some find public concerns about the safety of food both paradoxical and misplaced. Nevertheless, understanding how people perceive the risk associated with food is an important exercise in demonstrating accountability and in setting priorities for regulation. With the advent of technologies for producing genetically modified foods, and the development of fat blockers like Olestra, the public is increasingly being asked to judge the social acceptability of various kinds of food modifications. In addition to interpreting the risks and benefits associated with these newer innovations, the public is also balancing the risks and benefits of more familiar food interventions. Not only must consumers of food assess the merits of genetic modification and food irradiation, they still must consider exposure to pesticide residues and microbiological contaminants like Salmonella, Listeria, Escherichia coli, and Campylobacter. Additionally, with high rates of cardiovascular disease and elevated concerns about developing diseases like diabetes, many people seriously consider the fat and sugar content of the foods they consume. This exploratory study examines how the public perceives food risks by employing a ranking exercise, a scale for assessing food safety practices, a scale for combining elements from the psychometric paradigm (e.g., voluntary exposure, perceived benefit, and perceived risk) across five potential food hazards, and demographic variables (sex, age, and level of education) most commonly linked to the perception of food risks

Risk Assessment and Sustainable Development: Towards a Concept of Sustainable Risk

Dr. Mehta examines two dominant approaches for managing health and environmental risks and suggests that they would better serve if integrated

Overcoming Recession through Effective Business Communication Approaches (A Study in Indian Scenario)

No business activity can be completed without effective business communication network. The stage of economic turmoil is the most important time for any organization to regroup its strategy. At this juncture, strong, transparent and constant internal and external communication networks play a vital role. The global meltdown is a blessing in disguise for the organizations to invigorate their business communication network. The present paper aims to study multifarious approaches of Business Communication applied by Indian Organizations to combat the turbulent period of recession in a successful manner.

Few-Boson Processes in the Presence of an Attractive Impurity under One-Dimensional Confinement

We consider a few-boson system confined to one dimension with a single distinguishable particle of lesser mass. All particle interactions are modeled with $\delta$-functions, but due to the mass imbalance the problem is nonintegrable. Universal few-body binding energies, atom-dimer and atom-trimer scattering lengths are all calculated in terms of two parameters, namely the mass ratio: $m_{\text{L}}/m_{\text{H}}$, and ratio $g_{\text{HH}}/g_{\text{HL}}$ of the $\delta$-function couplings. We specifically identify the values of these ratios for which the atom-dimer or atom-trimer scattering lengths vanish or diverge. We identify regions in this parameter space in which various few-body inelastic process become energetically allowed. In the Tonks-Girardeau limit ($g_{\text{HH}}\rightarrow \infty$), our results are relevant to experiments involving trapped fermions with an impurity atom

Matrices coupled in a chain. I. Eigenvalue correlations

The general correlation function for the eigenvalues of $p$ complex hermitian matrices coupled in a chain is given as a single determinant. For this we use a slight generalization of a theorem of Dyson.Comment: ftex eynmeh.tex, 2 files, 8 pages Submitted to: J. Phys.

A Tight Excess Risk Bound via a Unified PAC-Bayesian-Rademacher-Shtarkov-MDL Complexity

We present a novel notion of complexity that interpolates between and generalizes some classic existing complexity notions in learning theory: for estimators like empirical risk minimization (ERM) with arbitrary bounded losses, it is upper bounded in terms of data-independent Rademacher complexity; for generalized Bayesian estimators, it is upper bounded by the data-dependent information complexity (also known as stochastic or PAC-Bayesian, $\mathrm{KL}(\text{posterior} \operatorname{\|} \text{prior})$ complexity. For (penalized) ERM, the new complexity reduces to (generalized) normalized maximum likelihood (NML) complexity, i.e. a minimax log-loss individual-sequence regret. Our first main result bounds excess risk in terms of the new complexity. Our second main result links the new complexity via Rademacher complexity to $L_2(P)$ entropy, thereby generalizing earlier results of Opper, Haussler, Lugosi, and Cesa-Bianchi who did the log-loss case with $L_\infty$. Together, these results recover optimal bounds for VC- and large (polynomial entropy) classes, replacing localized Rademacher complexity by a simpler analysis which almost completely separates the two aspects that determine the achievable rates: 'easiness' (Bernstein) conditions and model complexity.Comment: 38 page

Biotechnology and the Law: A Consideration of Intellectual Property Rights and Related Social Issues

[Excerpt] “Recent advances in biotechnology are expected by many to improve crop yield, reduce reliance on agricultural inputs like pesticides and herbicides, alleviate world hunger, improve the safety and effectiveness of pharmaceuticals, assist in the discovery of genes that trigger diseases like cancer, and make more efficient our legal institutions through DNA testing. Clearly, innovations in biotechnology are a powerful force for social change, and they pose unique challenges and opportunities for legal scholars and institutions. This section of the Pierce Law Review focuses on the interface between law and technology by examining how innovations in biotechnology accelerate debates about social justice (on a global scale), the role of science, and the patenting of intellectual property. Since biotechnology, and the actors involved in the debates over intellectual property rights, are involved in a form of “high drama” that plays itself out in the social world, it is necessary to understand that technology does not exist in a vacuum. All technologies generate social change and affect, in varying degrees individuals, groups, institutions, etc. For example, the introduction of the pen changed how information is recorded. A pen is portable, relatively inexpensive and creates semi-permanent markings. The pen, however, represented a shift away from orality, created a note-taking culture and lessened our reliance on short-term memory. The pen also helped consolidate the power of bureaucracies where a reliance on efficiency and order was paramount. Legal documents are generally signed in ink. The pen plays a prominent role in our society and can be found in almost all institutions, including those where information/communication technology dominate. If these transformations can occur when a relatively simple technology is introduced, what can be said about the introduction of innovations arising from the science of biotechnology

Public Perceptions of Genetically Engineered Foods: Playing God or Trusting Science

The author considers whether levels of religiosity or scientism affect public perceptions of genetically engineered foods

Asymptotic behavior of a flat plate wake

An experimental study has been conducted to investigate the far-field, self-similar properties of a flat plate wake. A plane turbulent wake was generated at the trailing edge of a smooth splitter plate separating two legs of a Mixing Layer Wind Tunnel, with both initial boundary layers tripped. For the present study, both legs were operated at a free-steam velocity in the test section of 15 m/s, giving a Reynolds number based on wake momentum thickness of about 1750. Single profile measurements were obtained at five streamwise locations using a Pitot probe for the mean velocity measurements and a single cross-wire probe for the turbulence data, which included statistics up to third order. The mean flow data indicated a self-similar behavior beyond a streamwise distance equivalent to about 350 wake momentum thicknesses. However, the turbulence data show better collapse beyond a distance equivalent to about 500 momentum thicknesses, with all the measured peak Reynolds stresses achieving constant, asymptotic levels. The asymptotic mean flow behavior and peak primary stress levels agree well with theoretical predictions based on a constant eddy viscosity model. The present data also agree reasonably well with previous measurements, of which only one set extends into the self-similar region. Detailed comparisons with previous data are presented and discussed in this report

Contraction design for small low-speed wind tunnels

An iterative design procedure was developed for 2- or 3-dimensional contractions installed on small, low speed wind tunnels. The procedure consists of first computing the potential flow field and hence the pressure distributions along the walls of a contraction of given size and shape using a 3-dimensional numerical panel method. The pressure or velocity distributions are then fed into 2-dimensional boundary layer codes to predict the behavior of the boundary layers along the walls. For small, low speed contractions, it is shown that the assumption of a laminar boundary layer originating from stagnation conditions at the contraction entry and remaining laminar throughout passage through the successful designs is justified. This hypothesis was confirmed by comparing the predicted boundary layer data at the contraction exit with measured data in existing wind tunnels. The measured boundary layer momentum thicknesses at the exit of four existing contractions, two of which were 3-D, were found to lie within 10 percent of the predicted values, with the predicted values generally lower. From the contraction wall shapes investigated, the one based on a 5th order polynomial was selected for newly designed mixing wind tunnel installation