Legal capacities required for prevention and control of noncommunicable diseases

Law lies at the centre of successful national strategies for prevention and control of noncommunicable diseases. By law we mean international agreements, national and subnational legislation, regulations and other executive instruments, and decisions of courts and tribunals. However, the vital role of law in global health development is often poorly understood, and eclipsed by other disciplines such as medicine, public health and economics. This paper identifies key areas of intersection between law and noncommunicable diseases, beginning with the role of law as a tool for implementing policies for prevention and control of leading risk factors. We identify actions that the World Health Organization and its partners could take to mobilize the legal workforce, strengthen legal capacity and support effective use of law at the national level. Legal and regulatory actions must move to the centre of national noncommunicable disease action plans. This requires high-level leadership from global and national leaders, enacting evidence-based legislation and building legal capacities

Court Trial Empirical Survey: Interview Responses from Trial Judges Explaining Their Experiences and Views Regarding the Trial of Non-Jury Cases

Knowing how a judge will react to certain trial techniques in a trial can greatly enhance an attorney\u27s effectiveness in the courtroom. This article contains and explains the results of the authors\u27 empirical survey. Fifty-nine judges serving in both criminal and civil court in the Minneapolis-St. Paul area were surveyed, with each judge responding to thirty-eight questions designed to obtain objective information concerning their experiences and views on effective trial advocacy. The survey covered eight topics: (1) trial briefs; (2) pretrial chambers discussions; (3) opening statements; (4) direct and cross-examinations; (5) evidentiary matters; (6) closing arguments; (7) findings of fact and conclusions of law; and (8) quality of lawyer presentations. This article contains eight topic sections, each section containing a concise analysis of the respective topic and specific survey findings including tabulations of specific answers and listings of narrative explanatory responses

Learning by Doing - Preparing Law Students for the Practice of Law: The Legal Practicum

The MacCrate Report outlined ten skills that are essential for every practicing attorney and should ideally be taught in every law school. The Association of American Law Schools (AALS) concluded that these ten skills cannot be effectively obtained through every law school curriculum because of each school\u27s individual, economic limitations. This article demonstrates how one law school—William Mitchell College of Law, in St. Paul, Minnesota—has , since 1984, incorporated a cost effective Legal Practicum course into its curriculum to help meet the MacCrate Report goal of providing the law student with the opportunity to learn and apply fundamental lawyering skills. Part II of the article defines, describes, and highlights the “learning by doing” philosophy of The Legal Practicum, the course created by William Mitchell College of Law professors. Part III addresses teaching/learning theory and the educational reasons why The Legal Practicum is successful. Part IV outlines the administrative aspects of The Legal Practicum and how it can be added to existing law school curricula. Implementation of The Legal Practicum can help overcome many criticisms of legal education and can assist the law student in achieving the fundamental lawyering skills described by the MacCrate Report

The Effects on Agriculture in Utah of Water Transfers to Oil Shale Development

In Part I the institutional factors affecting water distribution in the Upper Colorado River Basin in general and specifically the Uintah Basin are presented. The historical development of the appropriation doctrine of water allocation is outlined and Utah water policy is examined. These institutional factors are analyzed in light of the prototype oil shale development in the Uintah Basin and potential impact on the area\u27s agricultural sector. Oil shale water estimates are compared with Uintah Basin water availability and examined with regard to population projections and municipal water use. Lastly, Utah water policy and the appropriation doctrine are viewed as restraints to efficient water transfers. In Part II irrigation water is treated as a random variable. Its actual quantity is not known ahead of time. If transfers of water to oil shale production affect the variability of water used in agriculture then there will be impacts in agriculture even if the farmers receive the same average quantity of water as originally. These impacts are analyzed in the context of the expected utility maximization hypothesis, i.e., the farmers are hypothesized to maximize expected utility. The measure of an increase in variability is the mean preserving spread. The analyses seek to determine the impact upon expected (average) real income (utility), expected profits (net farm income), purchased inputs, the price of water, and the price of land. The analyses are conducted for both the case where the farmers are risk neutral and the case where they are risk averse

A Comparison of Solar Wind and Estimated Solar System Xenon Abundances: A Test for Solid/ Gas Fractionation in the Solar Nebula

Significant fractionation of dust/gas from the original interstellar cloud during the formation of the solar system is a distinct possibility. Identification of such an effect would provide important clues to nebular processes. Fractionation of volatiles is not constrained by CI abundances and only for the most abundant ones by photospheric observations. The solar Xe elemental abundance is determined here via solar wind measurements from lunar ilmenites and normalized to Si by spacecraft data. The results are compared with estimated abundances assuming no fractionation, which are relatively well constrained for Xe by s-process calculations, odd-mass abundance interpolations, and odd-even abundance systematics. When corrected for solar wind/photospheric fractionation, the ^(130)Xe abundance given by surface layer oxidation of ilmenite from soil 71501, exposed within the last - 200 m.y., is 0.24 ± 0.09 normalized to Si = 10^6. This is indistinguishable from the estimates made assuming no solid/gas fractionation. A similar result was obtained for Kr by Wiens et al (1991). Results from breccia 79035 ilmenite, exposed at least ~1 Gy ago, indicate that the solar wind Xe flux may have been significantly higher relative to other noble gases, perhaps due to more efficient Xe ionization. If this is true, fluxes of C and S, which have similar first ionization potentials to Xe, should also be higher in the ancient solar wind from the same time period, though such variations have not been observed

Deepening Learning and Inspiring Rigor: Bridging Academic and Experiential Learning Using a Host Country Approach to a Study Tour

American students are increasingly incorporating study in a foreign country into their college educations, but many participate in short-term programs that limit their engagement with any more than the superficial aspects of the host culture. This article describes a short-term study abroad course for American students to Japan in which the authors drew on an “emic” host country model of group travel in an effort to combine high academic standards, personal growth, and deepened engagement with Japanese culture. The authors first consider the history of study tours in U.S. study abroad and then look at an alternative model provided by Japanese school trips. The authors explain the process by which their American students read, research, and work in groups to plan the itinerary for their study tour. The final section reports on their preliminary evaluations of the program and their plans for future excursions sponsored by the East Asian Studies program

Finitely Many Dirac-Delta Interactions on Riemannian Manifolds

This work is intended as an attempt to study the non-perturbative renormalization of bound state problem of finitely many Dirac-delta interactions on Riemannian manifolds, S^2, H^2 and H^3. We formulate the problem in terms of a finite dimensional matrix, called the characteristic matrix. The bound state energies can be found from the characteristic equation. The characteristic matrix can be found after a regularization and renormalization by using a sharp cut-off in the eigenvalue spectrum of the Laplacian, as it is done in the flat space, or using the heat kernel method. These two approaches are equivalent in the case of compact manifolds. The heat kernel method has a general advantage to find lower bounds on the spectrum even for compact manifolds as shown in the case of S^2. The heat kernels for H^2 and H^3 are known explicitly, thus we can calculate the characteristic matrix. Using the result, we give lower bound estimates of the discrete spectrum.Comment: To be published in JM