62 research outputs found
Froude supercritical flow processes and sedimentary structures: new insights from experiments with a wide range of grain sizes
Recognition of Froude supercritical flow deposits in environments that range from rivers to the ocean floor has triggered a surge of interest in their flow processes, bedforms and sedimentary structures. Interpreting these supercritical flow deposits is especially important because they often represent the most powerful flows in the geological record. Insights from experiments are key to reconstruct palaeoâflow processes from the sedimentary record. So far, all experimentally produced supercritical flow deposits are of a narrow grainâsize range (fine to medium sand), while deposits in the rock record often consist of a much wider grainâsize distribution. This paper presents results of supercriticalâflow experiments with a grainâsize distribution from clay to gravel. These experiments show that cyclic step instabilities can produce more complex and a larger variety of sedimentary structures than the previously suggested backsets and âscour and fillâ structures. The sedimentary structures are composed of irregular lenses, mounds and wedges with backsets and foresets, as well as undulating planar to lowâangle upstream and downstream dipping laminae. The experiments also demonstrate that the Froude number is not the only control on the sedimentary structures formed by supercriticalâflow processes. Additional controls include the size and migration rate of the hydraulic jump and the substrate cohesion. This study further demonstrates that Froude supercritical flow promotes suspension transport of all grain sizes, including gravels. Surprisingly, it was observed that all grain sizes were rapidly deposited just downstream of hydraulic jumps, including silt and clay. These results expand the range of dynamic mud deposition into supercriticalâflow conditions, where local transient shear stress reduction rather than overall flow waning conditions allow for deposition of fines. Comparison of the experimental deposits with outcrop datasets composed of conglomerates to mudstones, shows significant similarities and highlights the role of hydraulic jumps, rather than overall flow condition changes, in producing lithologically and geometrically complex stratigraphy
P156 Variations in breast screening in BRCA/high risk mutation carriers in a dedicated breast centre
Recommandations for a Brief International Cognitive Assessment for Multiple Sclerosis (BICAMS)
Background: Cognitive impairment in MS impacts negatively on many patients at all disease stages and in all subtypes. Full clinical cognitive assessment is expensive, requiring expert staff and special equipment. Test versions and normative data are not available for all languages and cultures.
Objective: To recommend a brief cognitive assessment for multiple sclerosis (MS) that is optimized for small centers, with one or few staff members, who may not have neuropsychological training and constructed to maximize international use.
Methods: An expert committee of twelve members representing the main cultural groups that have so far contributed considerable data about MS cognitive dysfunction was convened. Following exhaustive literature review, peer-reviewed articles were selected to cover a broad spectrum of cultures and scales that targeted cognitive domains vulnerable to MS. Each was rated by two committee members and candidates scales were rated on psychometric qualities (reliability, validity, and sensitivity), international application, ease of administration, feasibility in the specified context, and acceptability to patients.
Results: The committee recommended the Symbol Digit Modalities Test, if only 5 minutes was available, with the addition of the California Verbal Learning Test â Second Edition and the Brief Visuospatial Memory Test â Revised learning trials if a further 10 minutes could be allocated for testing.
Conclusions: A brief cognitive assessment for MS has been recommended. A validation protocol has been prepared for language groups and validation studies have commenced
Self-determination movements [forthcoming]
We argue that verification of recursive programs by means of the assertional
method of C.A.R. Hoare can be conceptually simplified using a modular
reasoning. In this approach some properties of the program are established
first and subsequently used to establish other program properties. We
illustrate this approach by providing a modular correctness proof of the
Quicksort program.Comment: 21 pages. appeared in: Languages: From Formal to Natural, Essays
Dedicated to Nissim Francez on the Occasion of His 65th Birthday. Lecture
Notes in Computer Science 5533 Springer 200
- âŠ