02739nam 22004453u 450 991082257050332120230120113545.01-80282-109-0(CKB)5580000000336889EBL7012402(OCoLC)1328135934(AU-PeEL)EBL7012402(MiAaPQ)EBC7012402(BIP)081852038(EXLCZ)99558000000033688920220627d2022|||| u|| |engur|n|---|||||txtrdacontentcrdamediacrrdacarrierAmarg America's Strategic Military Aircraft ReserveHavertown Key Publishing20221 online resource (175 p.)Description based upon print version of record.1-913870-61-8 The United States military stores more than 4,000 aircraft in the Arizona desert at the 309th Aerospace Maintenance and Regeneration Group (AMARG) facility adjacent to Davis-Monthan Air Force Base. Known as the "Boneyard," this facility is much more than a place where aerospace vehicles come to die. Here some aircraft are maintained in both short- and long-term storage, while others serve as a "parts inventory on the wing" holding valuable spare parts in known locations ready to be harvested, overhauled, and returned to the fleet when needed. When an aircraft has yielded all the parts necessary to keep its brethren in the air, its carcass eventually meets the scrapper's torch.AMARG's storage rows are home to massive fleets of F-15, F-16, and F/A-18 fighters, aerial refueling tankers, C-130 and C-5 transports, helicopters of varying sizes, and bombers from the frontline B-1 to B-52s that are much older than the pilots flying them around the globe today. Among the rows are special use aircraft including the AWACS, P-3 maritime patrol bombers, aeromedical evacuation aircraft, and reconnaissance planes that serve a variety of missions, along with celebrity aircraft such as MiG killers that dominated the skies in aerial combat. As well as bringing the reader up to date with recent activities at AMARG, including the intake of new aircraft types, regeneration and the return to the fleet of aircraft formerly in storage, this book presents new, never-before-seen images that provide a visual tour of the Boneyard.AMARGMilitary Art And ScienceTechnology & Engineering358.4175Dunn Jim845782Veronico Nicholas A1479960AU-PeELAU-PeELAU-PeELBOOK9910822570503321Amarg3978266UNINA04728nam 22006255 450 991095179720332120250616124447.09783031732706303173270710.1007/978-3-031-73270-6(CKB)37391240400041(MiAaPQ)EBC31892473(Au-PeEL)EBL31892473(DE-He213)978-3-031-73270-6(OCoLC)1499718910(EXLCZ)993739124040004120250129d2024 u| 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierEnhancing Biomedical Education Integrating Digital Visualization and 3D Technologies /edited by Flora Gröning1st ed. 2024.Cham :Springer Nature Switzerland :Imprint: Springer,2024.1 online resource (540 pages)Biomedical Visualization,2731-6149 ;79783031732690 3031732693 Part I. Theory and Practice -- Chapter 1. Leveraging Pedagogy: Virtual Anatomy as a Versatile Adjunct to Modern Anatomy Education -- Chapter 2. A Review of the Effectiveness and Utility of Digital Resources in Anatomical Education -- Chapter 3. Student and Educator Perceptions of Asynchronous Anatomical Education and a Digital Anatomy Learning Resource -- Chapter 4. Guided Anatomy: Embedding Magnetic Resonance Imaging in Teaching and Research at Bristol -- Chapter 5. Teaching about Ethics, Fraud and Professionalism through Imaging: Reflections and Recommendations for Practice -- Part II. Resource Development -- Chapter 6. Developing Digital Resources for Anatomy Teaching Using Structured Light Scanning Technology: A Student and Educator Opinion-based Study -- Chapter 7. Production of Human Osteological Replicas Using a Combination of Structured Light Scanning and 3D Printing Technologies -- Chapter 8. 3D-Printed Vulva: An Educational Tool for Adolescents -- Chapter 9. Canine Oncology: Investigating 3D Technology as a Visual Pre-operative and Clinical Aid for Veterinary Surgeons Treating Dogs with Hepatocellular Carcinoma -- Chapter 10. Para-Sight: An Interactive Virtual Reality Application Exploring the Infection Mechanism Employed by Plasmodium Falciparum -- Chapter 11. Kidney Exploration: A Virtual Reality Experience for Public Understanding of the Structure and Function of the Kidneys -- Chapter 12. The Holographic Brain: Interactive Holography for Engaging Young People with Anatomy Education -- Chapter 13. User Experience of a 3D Augmented Reality Human Anatomy Creative-based Learning Application.This edited book explores digital visualization as a tool to communicate complex and often challenging biomedical content in an accessible and engaging way. The reader will learn how current visualization technology can be applied to a wide range of biomedical fields to benefit the learning of students and enhance the public understanding of science. The focus of this volume will be on the innovative use of digital visualization (2D or 3D) in biomedical education and public engagement. This includes medical imaging (i.e., magnetic resonance imaging and computed tomography) as well as other digital imaging techniques such as laser scanning. It also covers the use of state-of-the-art visualization tools (i.e., augmented and virtual reality, animations and 3D printing) and the integration of 3D models of anatomical structures into serious computer games. This book will appeal to educators, researchers and students in life science subjects as well as to healthcare professionals and designers of digital learning resources. The book will be a source of inspiration for any reader who is interested in using digital visualization as a meaningful and engaging communication tool for biomedical content, ranging from the anatomy and function of organs to the mechanisms of diseases and their prevention.Biomedical Visualization,2731-6149 ;7AnatomyMedical educationAnatomyMedical EducationEducació mèdicathubAnatomiathubLlibres electrònicsthubAnatomy.Medical education.Anatomy.Medical Education.Educació mèdicaAnatomia611571.3Gröning Flora1793452MiAaPQMiAaPQMiAaPQBOOK9910951797203321Enhancing Biomedical Education4333266UNINA