The Eye in History is a comprehensive manual describing the structure and function of the eye, ocular disorders and their treatment. Beginning with an introduction to anatomy and discussion on different disorders, the authors also review eye diseases of famous historical people and perception differences between men and women. The final sections discuss eye surgery and future technologies including the bionic eye, nanotechnology and gene therapy. Edited by Frank Joseph Goes of the Goes Eye Centre in Belgium, this multi-authored book has contributions from specialists throughout Europe, as well as the USA. 830 full colour images and illustrations assist comprehension. Key points Comprehensive guide to structure and function of the eye, ocular disorders and treatment Includes sections on eye diseases of famous historical people, the art of painting and perception Discusses future technologies including bionic eye, nanotechnology and gene therapy Edited by Frank Joseph Goes of Goes Eye Centre, Belgium, with contributions from authors across Europe and the USA Features 830 full colour images and illustrations
This most complete resource is back in a full-color, thoroughly revised, updated, and significantly expanded 4th Edition that incorporates all of the many scientific and technological advances that are changing the scope of practice in this multidisciplinary field. Learned authors Joseph McCulloch and Luther Kloth have gathered world renown experts in wound management to present a comprehensive text that is evidence based, clinically focused and practical. Responding to the ever-changing field of wound management, the 4th Edition is far from a simple update; it is virtually a brand-new text. The committed and respected teams of authors and contributors have broadened the scope of this text and expanded it from 14 to 35 chapters.
This thoroughly revised and updated Fourth Edition of a time-honored text provides the reader with a comprehensive introduction to the field of scanning electron microscopy (SEM), energy dispersive X-ray spectrometry (EDS) for elemental microanalysis, electron backscatter diffraction analysis (EBSD) for micro-crystallography, and focused ion beams. Students and academic researchers will find the text to be an authoritative and scholarly resource, while SEM operators and a diversity of practitioners — engineers, technicians, physical and biological scientists, clinicians, and technical managers — will find that every chapter has been overhauled to meet the more practical needs of the technologist and working professional. In a break with the past, this Fourth Edition de-emphasizes the design and physical operating basis of the instrumentation, including the electron sources, lenses, detectors, etc. In the modern SEM, many of the low level instrument parameters are now controlled and optimized by the microscope’s software, and user access is restricted. Although the software control system provides efficient and reproducible microscopy and microanalysis, the user must understand the parameter space wherein choices are made to achieve effective and meaningful microscopy, microanalysis, and micro-crystallography. Therefore, special emphasis is placed on beam energy, beam current, electron detector characteristics and controls, and ancillary techniques such as energy dispersive x-ray spectrometry (EDS) and electron backscatter diffraction (EBSD). With 13 years between the publication of the third and fourth editions, new coverage reflects the many improvements in the instrument and analysis techniques. The SEM has evolved into a powerful and versatile characterization platform in which morphology, elemental composition, and crystal structure can be evaluated simultaneously. Extension of the SEM into a "dual beam" platform incorporating both electron and ion columns allows precision modification of the specimen by focused ion beam milling. New coverage in the Fourth Edition includes the increasing use of field emission guns and SEM instruments with high resolution capabilities, variable pressure SEM operation, theory, and measurement of x-rays with high throughput silicon drift detector (SDD-EDS) x-ray spectrometers. In addition to powerful vendor- supplied software to support data collection and processing, the microscopist can access advanced capabilities available in free, open source software platforms, including the National Institutes of Health (NIH) ImageJ-Fiji for image processing and the National Institute of Standards and Technology (NIST) DTSA II for quantitative EDS x-ray microanalysis and spectral simulation, both of which are extensively used in this work. However, the user has a responsibility to bring intellect, curiosity, and a proper skepticism to information on a computer screen and to the entire measurement process. This book helps you to achieve this goal. Realigns the text with the needs of a diverse audience from researchers and graduate students to SEM operators and technical managers Emphasizes practical, hands-on operation of the microscope, particularly user selection of the critical operating parameters to achieve meaningful results Provides step-by-step overviews of SEM, EDS, and EBSD and checklists of critical issues for SEM imaging, EDS x-ray microanalysis, and EBSD crystallographic measurements Makes extensive use of open source software: NIH ImageJ-FIJI for image processing and NIST DTSA II for quantitative EDS x-ray microanalysis and EDS spectral simulation. Includes case studies to illustrate practical problem solving Covers Helium ion scanning microscopy Organized into relatively self-contained modules – no need to "read it all" to understand a topic Includes an online supplement—an extensive "Database of Electron–Solid Interactions"—which can be accessed on SpringerLink, in Chapter 3
Adapted from our best-selling text, Chronic Illness: Impact and Intervention, Eighth Edition by Pamala D. Larsen and Ilene Morof Lubkin, this text includes recent definitions and models of care aimed towards chronic disease management (CDM) currently used in Canada. Canadian and global perspectives on chronic illness management are addressed throughout the text, and chapters on the role of primary health care in chronic care, family nursing, global health, and chronic illness are included to address the needs of nursing curriculum standards in Canada. Key Features *Chapter on complementary therapies within a Canadian health context *Every chapter is updated to include Canadian content and an emphasis on global healthcare *Contains theoretical and practical perspectives to address the continuing emergence of chronic illness in Canada and the world
This brief will examine and explore some tools and techniques that can be used to develop interfaces for learning environments. Interface design has been a topic in software engineering for many years. The advent of graphical user interfaces has created many remedies and challenges for the software engineer. In recent years with an increased emphasis in educational technology, instructional designers are also included in this arena. The interface can be a driver in terms of a learning environment’s ability to engage a student. It can also provide a point of information exchange and therefore learning between the student and the environment’s software. Thus, the issue of an interface is vital to the success of a learning environment. This brief will produce a variety of interfaces for various environments to allow the designer to contrast and compare them based upon the required purpose. The designer will have a toolkit filled with tools and techniques which will allow for interfaces that will engage the student and facilitate their learning. The primary audiences are K-12 and post-secondary educators who desire to create digital media based educational materials.
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