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Unlocking Innovation: A Deep Dive into the UNLV Science and Engineering Building
Introduction:
Are you fascinated by cutting-edge research, state-of-the-art technology, and the bright minds shaping the future of science and engineering? Then look no further! This comprehensive guide delves into the heart of innovation at the University of Nevada, Las Vegas (UNLV): the UNLV Science and Engineering Building. We'll explore its architectural design, the groundbreaking research conducted within its walls, the impact it has on the UNLV community and beyond, and the exciting future it holds. This post is your ultimate resource for everything you need to know about this remarkable building, answering your questions and providing insights into its significance.
1. Architectural Marvel: Design and Functionality of the UNLV Science and Engineering Building
The UNLV Science and Engineering Building is more than just bricks and mortar; it’s a testament to innovative design. Its architecture reflects a commitment to sustainability and collaboration, fostering a dynamic learning and research environment. The building incorporates sustainable materials and technologies, minimizing its environmental impact. Beyond its eco-friendly features, the design prioritizes open spaces and collaborative work areas, encouraging interaction and the free flow of ideas. Specific features might include spacious labs, flexible classrooms adaptable to various teaching styles, and collaborative learning spaces designed to promote teamwork and innovation. Detailed information on the building's specific architectural design choices and their purpose would be found in university architectural plans or press releases. We could also discuss any award the building may have received for its design or sustainable features.
2. Research Hub: Exploring Cutting-Edge Research Initiatives Housed Within
The UNLV Science and Engineering Building serves as a central hub for groundbreaking research across various disciplines. From nanotechnology and biomedical engineering to renewable energy and cybersecurity, the building houses state-of-the-art labs and equipment supporting diverse research projects. We can delve into specific research projects currently underway, highlighting their potential impact on society. This section could mention key faculty members and their research areas, linking to their individual profiles or research group websites for further exploration. This would showcase the caliber of research conducted within the building and attract researchers and potential collaborators. We could also discuss any significant research breakthroughs or publications resulting from work done within the building.
3. Impact on the UNLV Community and Beyond: Education, Collaboration, and Economic Development
The UNLV Science and Engineering Building plays a pivotal role in shaping the future of UNLV and the broader community. It provides a high-quality learning environment for students, equipping them with the skills and knowledge needed to succeed in the competitive job market. Furthermore, the building fosters collaborations between faculty, students, and industry partners, accelerating innovation and technological advancement. The economic impact of the building extends beyond the university's campus, contributing to regional economic growth and development by attracting businesses, fostering entrepreneurship, and creating job opportunities. This section could include statistics on student enrollment in STEM programs housed in the building, the number of industry partnerships, and any related economic development initiatives.
4. Future of Innovation: Expansion Plans and Technological Advancements
Looking towards the future, the UNLV Science and Engineering Building is poised for continued growth and development. This section would explore future expansion plans, new technological advancements planned for integration into the building, and how these plans will contribute to further enhancing research capabilities and educational opportunities. This section could include information on potential upgrades to existing labs, the addition of new research facilities, and the implementation of innovative technologies to optimize research and learning environments. We can also speculate (based on current trends and available information) about the future role of the building in addressing global challenges.
Article Outline:
Title: Unlocking Innovation: A Deep Dive into the UNLV Science and Engineering Building
I. Introduction: Hook and overview of the blog post.
II. Architectural Marvel: Design, functionality, and sustainable features.
III. Research Hub: Groundbreaking research initiatives and key researchers.
IV. Impact on UNLV and Beyond: Education, collaboration, and economic development.
V. Future of Innovation: Expansion plans and technological advancements.
VI. Conclusion: Summary and call to action.
VII. FAQs: Nine frequently asked questions and their answers.
VIII. Related Articles: Nine articles related to UNLV science and engineering, with descriptions.
(The detailed content for each section is provided above in the main body of this response.)
Conclusion:
The UNLV Science and Engineering Building stands as a beacon of innovation, fostering groundbreaking research, nurturing future scientists and engineers, and contributing significantly to the economic and intellectual growth of the Las Vegas region. Its design, functionality, and commitment to sustainability set a high standard for academic facilities. By exploring the building's diverse aspects, we hope this article has provided a thorough understanding of its importance and the vital role it plays in shaping the future.
FAQs:
1. What is the official address of the UNLV Science and Engineering Building? (Requires specific address from UNLV website)
2. What departments are housed within the UNLV Science and Engineering Building? (Requires list from UNLV website)
3. Are tours available of the UNLV Science and Engineering Building? (Requires information from UNLV website)
4. What types of research equipment are available in the building? (Requires information from UNLV website or research labs)
5. What is the building's sustainability rating or certification? (Requires information from UNLV website or architectural plans)
6. How can I get involved in research projects in the building? (Requires information on how to contact relevant faculty or labs)
7. Are there internship opportunities related to the research conducted in the building? (Requires information from UNLV career services or relevant labs)
8. What is the overall cost of constructing the UNLV Science and Engineering Building? (Requires publicly available information from UNLV or construction records.)
9. What are the future plans for expanding the UNLV Science and Engineering Building? (Requires information from UNLV’s long-term plans or future building announcements).
Related Articles:
1. UNLV's Commitment to STEM Education: An overview of UNLV's dedication to science, technology, engineering, and mathematics education.
2. Top 10 Research Breakthroughs at UNLV: Highlighting significant discoveries and innovations from UNLV researchers.
3. UNLV Faculty Spotlight: Meet the Minds Behind the Research: Profiles of leading faculty members conducting research in the Science and Engineering Building.
4. The Impact of UNLV Research on the Las Vegas Economy: Examining the economic benefits of UNLV's research activities.
5. Sustainable Practices at UNLV: A Green Campus Initiative: Focus on UNLV's environmental sustainability efforts.
6. UNLV's Partnerships with Industry: Fostering Innovation and Collaboration: Discussion of collaborations between UNLV and various industries.
7. Student Success Stories: Alumni from UNLV's Science and Engineering Programs: Profiles of successful alumni who graduated from UNLV's science and engineering programs.
8. Funding Opportunities for UNLV Science and Engineering Research: Information on grants and funding available for UNLV research projects.
9. Future Trends in Science and Engineering at UNLV: Exploring the direction of UNLV's science and engineering programs in the future.
Note: Remember to replace bracketed information with actual details obtained from reliable sources like the official UNLV website and related publications. Also, ensure all links provided are active and functioning.
| unlv science and engineering building: UNLV 2012 Meryl Manaog, 2011-03-15 |
| unlv science and engineering building: Cool Colleges 2013 Peterson's, 2012-09-25 Our newly updated, Peterson's Cool Colleges 2013, features colorful, easy-to-read profiles of hundreds of cool colleges and universities across the United States and abroad. You're about to make one of the most important decisions of your life, and you need the best information possible. Peterson's guide can help you make that choice with hundreds of school photos that provide a preview of campus and student life, enlightening articles on applying to the cool college that's right for you, and information on what life is really like on campus-from sports arenas to dining facilities. |
| unlv science and engineering building: The University of Nevada, Las Vegas Eugene P. Moehring, 2007 The complete history of UNLV in celebration of its 50th anniversary. In 1951, the rapidly growing population of Las Vegas was demanding teachers for the city's burgeoning schools and an opportunity for local high school graduates to earn a university degree close to home. That year, Nevada's Board of Regents, the governing board of the state's system of higher education, initiated a post-high school program in Las Vegas as an extension branch of the University of Nevada in Reno. Few people at the time anticipated the fledgling institution's remarkable future. With an initial enrollment of twelve full-time students taking evenings-only classes in the cramped dressing rooms of the Las Vegas High School auditorium, the school struggled for survival. It was not until September 10, 1957, that UNLV finally opened for classes on its own campus and began a new era of higher education in the state. In The University of Nevada, Las Vegas, noted historian Eugene P. Moehring recounts UNLV's phenomenal growth. Here are the personalities who created and guided the school, from Maude Frazier, the visionary educator who fought to bring higher education to southern Nevada, to the professors, administrators, coaches, and other campus personalities who helped shape the institution and its traditions. Moehring discusses the decisions and controversies that influenced the University's location, goals, programs, and personnel, as well as the significant role played by its students. He also examines the unusual relationship between the University and the city, which has developed since the 1955 campaign that raised money to purchase land for a permanent campus by sending students door-to-door to solicit donations. Today, the remarkable synergy between UNLV, Las Vegas's business community, and private philanthropists has been instrumental in creating and supporting many of the University's most important academic programs. Published in conjunction with UNLV's celebration of its fiftieth anniversary, The University of Nevada, Las Vegas is the account of one of the country's most vibrant institutions of higher learning, a major public research university that reflects and contributes to the booming modern metropolis around it. |
| unlv science and engineering building: Third Generation Photovoltaics Vasilis Fthenakis, 2012-03-16 Photovoltaics have started replacing fossil fuels as major energy generation roadmaps, targeting higher efficiencies and/or lower costs are aggressively pursued to bring PV to cost parity with grid electricity. Third generation PV technologies may overcome the fundamental limitations of photon to electron conversion in single-junction devices and, thus, improve both their efficiency and cost. This book presents notable advances in these technologies, namely organic cells and nanostructures, dye-sensitized cells and multijunction III/V cells. The following topics are addressed: Solar spectrum conversion for photovoltaics using nanoparticles; multiscale modeling of heterojunctions in organic PV; technologies and manufacturing of OPV; life cycle assessment of OPV; new materials and architectures for dye-sensitized solar cells; advances of concentrating PV; modeling doped III/V alloys; polymeric films for lowering the cost of PV, and field performance factors. A panel of acclaimed PV professionals contributed these topics, compiling the state of knowledge for advancing this new generation of PV. |
| unlv science and engineering building: Flipped Instruction: Breakthroughs in Research and Practice Management Association, Information Resources, 2017-01-05 The integration of technology into modern classrooms has enhanced learning opportunities for students. With increased access to educational content, students gain a better understanding of the concepts being taught. Flipped Instruction: Breakthroughs in Research and Practice is a comprehensive reference source for the latest scholarly perspectives on promoting flipped learning strategies, tools, and theories in classroom environments. Featuring a range of extensive coverage across innovative topics, such as student engagement, educational technologies, and online learning environments, this is an essential publication for educators, professionals, researchers, academics, and upper-level students interested in emerging developments in classroom and instructional design. |
| unlv science and engineering building: Las Vegas, Southern Nevada Jack Sheehan, 1992 |
| unlv science and engineering building: MATLAB For Dummies John Paul Mueller, Jim Sizemore, 2021-06-29 Go from total MATLAB newbie to plotting graphs and solving equations in a flash! MATLAB is one of the most powerful and commonly used tools in the STEM field. But did you know it doesn’t take an advanced degree or a ton of computer experience to learn it? MATLAB For Dummies is the roadmap you’ve been looking for to simplify and explain this feature-filled tool. This handy reference walks you through every step of the way as you learn the MATLAB language and environment inside-and-out. Starting with straightforward basics before moving on to more advanced material like Live Functions and Live Scripts, this easy-to-read guide shows you how to make your way around MATLAB with screenshots and newly updated procedures. It includes: A comprehensive introduction to installing MATLAB, using its interface, and creating and saving your first file Fully updated to include the 2020 and 2021 updates to MATLAB, with all-new screenshots and up-to-date procedures Enhanced debugging procedures and use of the Symbolic Math Toolbox Brand new instruction on working with Live Scripts and Live Functions, designing classes, creating apps, and building projects Intuitive walkthroughs for MATLAB’s advanced features, including importing and exporting data and publishing your work Perfect for STEM students and new professionals ready to master one of the most powerful tools in the fields of engineering, mathematics, and computing, MATLAB For Dummies is the simplest way to go from complete newbie to power user faster than you would have thought possible. |
| unlv science and engineering building: Via Bhatinda Satish C. Bhatnagar, 2017-09-30 Your comparison of catching new ideas with fish is fascinating. Subhash Sood, MD (# 6) Thanks, Satish...illuminating, as always... Len Jessup, UNLV President (# 37) I’m amazed at your candid write-up….. Shankar Venkatgiri, Professor IIM Bangalore (# 51) You are blessed with good friends, who are very protective of you! Rahul Bhatnagar, MD (# 53) Enjoyed so much about this true story!! Many thanks. Yu Xu, UNLV Nursing Professor (# 60) An excellent tribute to an unsung hero of life. Birth & Death are the inevitable stages of life. Thank you Dr. Bhatnagar for sharing your thoughtful writings. Gouranga Saha, Physics Professor (# 68) Incredible Manocha! Interesting piece. Raju Abraham, Professor of English (# 72) |
| unlv science and engineering building: OCRWM Bulletin , 1986 |
| unlv science and engineering building: Explosion at the Pacific Engineering Ammonium Perchlorate Plant United States. Congress. House. Committee on Science, Space, and Technology. Subcommittee on Investigations and Oversight, 1988 |
| unlv science and engineering building: Climatological Data , 1969 Collection of the monthly climatological reports of the United States by state or region, with monthly and annual national summaries. |
| unlv science and engineering building: Exploratory Data Analysis with MATLAB Wendy L. Martinez, Angel R. Martinez, Jeffrey Solka, 2017-08-07 Praise for the Second Edition: The authors present an intuitive and easy-to-read book. ... accompanied by many examples, proposed exercises, good references, and comprehensive appendices that initiate the reader unfamiliar with MATLAB. —Adolfo Alvarez Pinto, International Statistical Review Practitioners of EDA who use MATLAB will want a copy of this book. ... The authors have done a great service by bringing together so many EDA routines, but their main accomplishment in this dynamic text is providing the understanding and tools to do EDA. —David A Huckaby, MAA Reviews Exploratory Data Analysis (EDA) is an important part of the data analysis process. The methods presented in this text are ones that should be in the toolkit of every data scientist. As computational sophistication has increased and data sets have grown in size and complexity, EDA has become an even more important process for visualizing and summarizing data before making assumptions to generate hypotheses and models. Exploratory Data Analysis with MATLAB, Third Edition presents EDA methods from a computational perspective and uses numerous examples and applications to show how the methods are used in practice. The authors use MATLAB code, pseudo-code, and algorithm descriptions to illustrate the concepts. The MATLAB code for examples, data sets, and the EDA Toolbox are available for download on the book’s website. New to the Third Edition Random projections and estimating local intrinsic dimensionality Deep learning autoencoders and stochastic neighbor embedding Minimum spanning tree and additional cluster validity indices Kernel density estimation Plots for visualizing data distributions, such as beanplots and violin plots A chapter on visualizing categorical data |
| unlv science and engineering building: Introduction to Interdisciplinary Studies Allen F. Repko, Rick Szostak, Michelle Phillips Buchberger, 2016-10-12 The Second Edition provides a comprehensive introduction to interdisciplinary studies with an approach that is succinct, conceptual, and practical. Completely updated to reflect advances in the literature on research, learning, and assessment, the book describes the role of both disciplines and interdisciplinarity within the academy, and how these have evolved. Authors Allen F. Repko, Rick Szostak, and Michelle Phillips Buchberger effectively show students how to think like interdisciplinarians in order to facilitate their working with topics, complex problems, or themes that span multiple disciplines. |
| unlv science and engineering building: MATLAB Machine Learning Michael Paluszek, Stephanie Thomas, 2016-12-28 This book is a comprehensive guide to machine learning with worked examples in MATLAB. It starts with an overview of the history of Artificial Intelligence and automatic control and how the field of machine learning grew from these. It provides descriptions of all major areas in machine learning. The book reviews commercially available packages for machine learning and shows how they fit into the field. The book then shows how MATLAB can be used to solve machine learning problems and how MATLAB graphics can enhance the programmer’s understanding of the results and help users of their software grasp the results. Machine Learning can be very mathematical. The mathematics for each area is introduced in a clear and concise form so that even casual readers can understand the math. Readers from all areas of engineering will see connections to what they know and will learn new technology. The book then provides complete solutions in MATLAB for several important problems in machine learning including face identification, autonomous driving, and data classification. Full source code is provided for all of the examples and applications in the book. What you'll learn: An overview of the field of machine learning Commercial and open source packages in MATLAB How to use MATLAB for programming and building machine learning applications MATLAB graphics for machine learning Practical real world examples in MATLAB for major applications of machine learning in big data Who is this book for: The primary audiences are engineers and engineering students wanting a comprehensive and practical introduction to machine learning. |
| unlv science and engineering building: ENR. , 2008 |
| unlv science and engineering building: Building A Body Of Knowledge In Construction Project Delivery, Procurement And Contracting Giovanni C Migliaccio, Pramen P Shrestha, 2022-12-16 This book aims to consolidate, structure and articulate collective knowledge on construction project delivery, procurement and contracting, so that it can serve as a gateway to the contiguous topics of construction project delivery. In addition to supporting the education of student researchers, as well as broadening and deepening the knowledge of practitioners, the book is also intended to serve as a foundation for future education and as a reference book. Academicians can use it to benchmark and support their research and also as a textbook for an undergraduate or graduate course on the topics of project delivery, procurement and contracting. |
| unlv science and engineering building: Epsilons and Deltas of Life Satish C. Bhatnagar, 2012-06 You are an artist in the matter of living. I shall try to tread the same path. Subhash Sood, MD I note that you are a person with social, cultural, scientific values. I have gone through your mails and felt overwhelmed by your vision and the simple way to present your valuable observations. Thanks. Deepak Saxena, Director, medical clinic, Bathinda Very well put. You cannot save lives without touching some. Gopal Dass, retired cardilogist I liked the punch line 'life is all about a cycle of assembling and dis-assembling'. Raju Abraham, English Professor, University of Nizwa, Oman Good friends are like good wine both give euphoria when you need to be high and a shoulder when you are down. Rahul Bhatnagar, Director, new drug testing program Thanks--wonderful words of wisdom. Hortense Simmons, traveler, retired English professor |
| unlv science and engineering building: The University of Nevada James W. Hulse, 1974 |
| unlv science and engineering building: The Gamester Freyda Thomas, 2006 THE STORY: It's Paris in the eighteenth century. Valère loves Angélique, but she won't marry him until he gives up his other mistress: The Gambling Hall. Valère is broke, creditors are in pursuit; his father Thomas is about to disown him; and his l |
| unlv science and engineering building: Industry 4.0 Solutions for Building Design and Construction Farzad Pour Rahimian, Jack Steven Goulding, Sepehr Abrishami, Saleh Seyedzadeh, Faris Elghaish, 2021-12-20 This book provides in-depth results and case studies in innovation from actual work undertaken in collaboration with industry partners in Architecture, Engineering, and Construction (AEC). Scientific advances and innovative technologies in the sector are key to shaping the changes emerging as a result of Industry 4.0. Mainstream Building Information Management (BIM) is seen as a vehicle for addressing issues such as industry fragmentation, value-driven solutions, decision-making, client engagement, and design/process flow; however, advanced simulation, computer vision, Internet of Things (IoT), blockchain, machine learning, deep learning, and linked data all provide immense opportunities for dealing with these challenges and can provide evidenced-based innovative solutions not seen before. These technologies are perceived as the “true” enablers of future practice, but only recently has the AEC sector recognised terms such as “golden key” and “golden thread” as part of BIM processes and workflows. This book builds on the success of a number of initiatives and projects by the authors, which include seminal findings from the literature, research and development, and practice-based solutions produced for industry. It presents these findings through real projects and case studies developed by the authors and reports on how these technologies made a real-world impact. The chapters and cases in the book are developed around these overarching themes: • BIM and AEC Design and Optimisation: Application of Artificial Intelligence in Design • BIM and XR as Advanced Visualisation and Simulation Tools • Design Informatics and Advancements in BIM Authoring • Green Building Assessment: Emerging Design Support Tools • Computer Vision and Image Processing for Expediting Project Management and Operations • Blockchain, Big Data, and IoT for Facilitated Project Management • BIM Strategies and Leveraged Solutions This book is a timely and relevant synthesis of a number of cogent subjects underpinning the paradigm shift needed for the AEC industry and is essential reading for all involved in the sector. It is particularly suited for use in Masters-level programs in Architecture, Engineering, and Construction. |
| unlv science and engineering building: Medical Imaging Physics William R. Hendee, E. Russell Ritenour, 2002 William Hendee and Russell Ritenour's comprehensive text provides the tools necessary to be comfortable with the physical principles, technology concepts, equiment, and procedures used in diagnostic imaging, as well as to appreciate the technological capabilities and limitations of the discipline. Readers need not possess a background in physics. Broadly accessible, Medical Imaging Physics covers all aspects of image formation in modern medical imaging modalities, such as radiography, ultrasonography, computed tomopgraphy(CT), nuclear imaging, and magnetic resonance. Other topics covered include; Digital x-ray imaging Doppler ultrasound Helical CT scanning Accumulation and analysis of nuclear data Experimental radiobiology Radiation protection and safety |
| unlv science and engineering building: Mechanical Engineering , 2005 |
| unlv science and engineering building: Handbooks in Operations Research and Management Science: Financial Engineering John R. Birge, Vadim Linetsky, 2007-11-16 The remarkable growth of financial markets over the past decades has been accompanied by an equally remarkable explosion in financial engineering, the interdisciplinary field focusing on applications of mathematical and statistical modeling and computational technology to problems in the financial services industry. The goals of financial engineering research are to develop empirically realistic stochastic models describing dynamics of financial risk variables, such as asset prices, foreign exchange rates, and interest rates, and to develop analytical, computational and statistical methods and tools to implement the models and employ them to design and evaluate financial products and processes to manage risk and to meet financial goals. This handbook describes the latest developments in this rapidly evolving field in the areas of modeling and pricing financial derivatives, building models of interest rates and credit risk, pricing and hedging in incomplete markets, risk management, and portfolio optimization. Leading researchers in each of these areas provide their perspective on the state of the art in terms of analysis, computation, and practical relevance. The authors describe essential results to date, fundamental methods and tools, as well as new views of the existing literature, opportunities, and challenges for future research. |
| unlv science and engineering building: Introduction to Women's, Gender and Sexuality Studies Associate Professor and Chair of Women's Studies L Ayu Saraswati, L. Ayu Saraswati, Associate Professor of Women's Gender & Sexuality Studies Barbara L Shaw, Barbara L. Shaw, Associate Professor and Program Coordinator of Gender and Sexuality Studies Heather Rellihan, Heather Rellihan, 2020-11-02 Introduction to Women's, Gender & Sexuality Studies: Interdisciplinary and Intersectional Approaches, Second Edition, reflects the exciting changes taking place in this field. Emphasizing both interdisciplinarity and intersectionality, this innovative mix of anthology and textbook includes key primary historical sources, debates on contemporary issues, and recent work in science, technology, and digital cultures. Readings from a range of genres--including poetry, short stories, op-eds, and feminist magazine articles--complement the scholarly selections and acknowledge the roots of creative and personal expression in the field. While the majority of selections are foundational texts, the book also integrates new work from established scholars and emerging voices to expand current debates in the field. The text is enhanced by thorough overviews that begin each section, robust and engaging pedagogy that encourages students to think critically and self-reflexively-and also to take action-as well as supplemental online resources for instructors. |
| unlv science and engineering building: Reinventing the System James W. Hulse, Leonard E. Goodall, Jackie Allen, 2002 Higher education in Nevada |
| unlv science and engineering building: An Introduction to Plant Structure and Development Charles B. Beck, 2010-04-22 A plant anatomy textbook unlike any other on the market today. Carol A. Peterson described the first edition as 'the best book on the subject of plant anatomy since the texts of Esau'. Traditional plant anatomy texts include primarily descriptive aspects of structure, this book not only provides a comprehensive coverage of plant structure, but also introduces aspects of the mechanisms of development, especially the genetic and hormonal controls, and the roles of plasmodesmata and the cytoskeleton. The evolution of plant structure and the relationship between structure and function are also discussed throughout. Includes extensive bibliographies at the end of each chapter. It provides students with an introduction to many of the exciting, contemporary areas at the forefront of research in the development of plant structure and prepares them for future roles in teaching and research in plant anatomy. |
| unlv science and engineering building: Engineering News-record , 1984 |
| unlv science and engineering building: Introduction to Energy Technologies for Efficient Power Generation Alexander V. Dimitrov, 2017-04-27 This book serves as a guide for discovering pathways to more efficient energy use. The first part of the book illustrates basic laws of energy conversion and principles of thermodynamics. Laws of energy conservation and direction of energy conversion are formulated in detail, and the types of thermodynamic processes are explained. Also included is the characterization of various types of real energy conversion. The second part of the book discusses types of energy conversion referred to as thermal-energy technologies. The advantages of the co-generation processes and devices operating within the Brayton direct cycle and their adaptively to household energetics are underlined. |
| unlv science and engineering building: Black Issues in Higher Education , 2005-02 |
| unlv science and engineering building: Street Art Las Vegas William Shea, Patrick Lai, 2023-10-31 William Shea and Patrick Lai have collaborated on a photo documentary showcasing the Las Vegas street art and graffiti scene. Their aim is to create awareness of the untapped potential and hidden merits that street art and graffiti offer to the art community. The book is an 8 x 10 photography collection that spans over 200 pages and boasts 252 high-quality full-color images. The project was completed over several years and features images from all corners of the valley, including the Life is Beautiful Festival. The book's introduction is given by Ed Fuentes, and its upcoming revised second edition will be released by newly acquired Canadian publisher, Third Rail Publications. The new edition will include updated select images and a broader timeline, making it an even more comprehensive guide to street art in Las Vegas. |
| unlv science and engineering building: The Environmental Resource Handbook 2010/11 Laura Mars-Proietti, 2009 This edition is the most up-to-date and comprehensive source for Environmental Resources and Statistics. Section I: Resources, provides detailed contact information for thousands of information sources, including Associations & Organizations, Awards & Honors, Conferences, Foundations & Grants, Environmental Health, Government Agencies, National Parks & Wildlife Refuges, Publications, Research Centers, Educational Programs, Green Product Catalogs, Consultants and much more. Section II: Statistics, provides statistics on hundreds of important topics, including Children's Environmental Index, Municipal Finances, Toxic Chemicals, Recycling, Climate, Air & Water Quality and more. This kind of up-to-date environmental data, all in one place, is not available anywhere else on the market place today. This new edition is a must-have for all public and academic libraries as well as any organization with a primary focus on the environment. |
| unlv science and engineering building: Envisioning Public Scholarship for Our Time Adrianna J. Kezar, Yianna Drivalas, Joseph A. Kitchen, 2023-07-03 This book proposes a new paradigm of public scholarship for our time, one that shifts from the notion of the public intellectual to the model of the engaged scholar.The editors’ premise is that the work of public scholarship should be driven by a commitment to supporting a diverse democracy and promoting equity and social justice. The contributors to this volume present models that eschew the top-down framing of policy to advocate for practice that drives bottom-up change by arming the widest range of stakeholders -- especially members of marginalized communities -- with relevant research.They demonstrate how public scholarship in higher education can increase its impact on practice and policy and compellingly argue that public scholarship should be recognized as normative practice for all scholars and indeed integrated into the curriculum of graduate courses.The chapters describe multiple types of public scholarship and different strategies that move beyond informing policymakers, faculty, and administrators to engage publics such as students and parents, media, the general public, and particularly groups that may have had little or no access to research. Examples include partnering with a community agency to design a research project and disseminate results; writing for practitioner or policy venues and magazines outside the traditional academic journals; serving on boards for national groups that impact decisions related to your area of research; and the use of social media.Whether scholar, director of graduate education, or graduate student of higher education, this book opens up a new vision of how research can inform practice that promotes the public good. |
| unlv science and engineering building: Energy Modeling and Computations in the Building Envelope Alexander V. Dimitrov, 2015-08-27 Energy Modeling and Computations in the Building Envelope instills a deeper understanding of the energy interactions between buildings and the environment, based on the analysis of transfer processes operating in the building envelope components at the microscopic level. The author:Proposes a generalized physics model that describes these interacti |
| unlv science and engineering building: Building Education and Research Jay Yang, Weilen P. Chang, 2005-08-17 Building Education and Research explores this new active area of research in a series of papers by internationally acclaimed experts, presented at the CIB W89 International Conference on Building Education and Research held in July 1998 (BEAR `98) in Brisbane, Australia. Sponsored in collaboratio jointly by the Queensland University of Technology, the Conseil International du Batiment (CIB) and the Australian Institute of Building (AIB), the conference was organised around the theme `Building Research and Education Beyond 2000' and looks at the factors that are changing the requirements of building education and research: economic and technological concerns; environmental concerns; government policies; Industries' demands; re-evaluation of community expectations. |
| unlv science and engineering building: Introduction to Regression Analysis Michael A. Golberg, Hokwon A. Cho, 2004 In order to apply regression analysis effectively, it is necessary to understand both the underlying theory and its practical application. This book explores conventional topics as well as recent practical developments, linking theory with application. Intended to continue from where most basic statistics texts end, it is designed primarily for advanced undergraduates, graduate students and researchers in various fields of engineering, chemical and physical sciences, mathematical sciences and statistics. |
| unlv science and engineering building: Motion in Games Marcelo Kallmann, Kostas Bekris, 2012-11-10 This book constitutes the refereed proceedings of the 5th International Workshop on Motion in Games, held in Rennes, France, in November 2012. The 23 revised full papers presented together with 9 posters and 5 extended abstracts were carefully reviewed and selected from numerous submissions. The papers are organized in topical sections on planning, interaction, physics, perception, behavior, virtual humans, locomotion, and motion capture. |
| unlv science and engineering building: Structures Under Shock and Impact XVI S. Syngellakis, G. Schleyer, 2020-08-19 The increasing need to protect civilian infrastructure and industrial facilities against unintentional loads arising from accidental impact and explosion events as well as terrorist attacks is of major importance. While advances have been made in recent years, many challenges remain, such as to develop more effective and efficient blast and impact mitigation approaches than those that currently exist. The primary focus remains the survivability of physical facilities and the protection of people, as well as reducing economic losses and impact on the environment, with emphasis on innovative protective technologies to support the needs of an economically growing, modern society. The application of this technology ranges from the safe transportation of people and dangerous materials to defences against natural hazards such as floods, wind, storms, tsunamis and earthquakes. Large scale testing is prohibitive and small scale laboratory testing results in scaling uncertainties. Continuing research is therefore essential to improve knowledge on how these structures behave under a variety of load actions, some of which interact making it even more complex and difficult to define. Consequently, more use of advanced numerical simulations for load and structural response calculations is common practice in industry and research. Such calculations can directly be used in design and risk assessment calculations, but also be applied to more simplified design tools and design codes. Whether numerical or analytical modelling techniques are employed, experimental validation is vital for there to be acceptance of the approach to be used. The included papers, presented at the 16th International Conference on Structures under Shock and Impact, highlight new research ideas and results to promote a better understanding of the critical issues relating to the testing behaviour, modelling and analyses of protective structures against blast and impact loading. |
| unlv science and engineering building: Enhancing BioWatch Capabilities Through Technology and Collaboration National Academies of Sciences, Engineering, and Medicine, Health and Medicine Division, Board on Health Sciences Policy, Standing Committee on Health Threats and Workforce Resilience, 2018-01-29 The Department of Homeland Security's (DHS's) BioWatch program aims to provide an early indication of an aerosolized biological weapon attack. The first generation of BioWatch air samplers were deployed in 2003. The current version of this technology, referred to as Generation 2 (Gen-2), uses daily manual collection and testing of air filters from each monitor, a process that can take 12 to 36 hours to detect the presence of biological pathogens. Until April 2014, DHS pursued a next-generation autonomous detection technology that aimed to shorten the time from sample collection to detection to less than 6 hours, reduce the cost of analysis, and increase the number of detectable biological pathogens. Because of concerns about the cost and effectiveness of the proposed Generation 3 system (Gen-3), DHS cancelled its acquisition plans for the next-generation surveillance system. In response to the cancellation announcement, Congress asked the Government Accountability Office (GAO) to conduct a review of the program and the proposed system enhancements that would have been incorporated in BioWatch Gen-3. However, Mike Walter, BioWatch Program manager, Office of Health Affairs, DHS, said that DHS did not agree with all of GAO's characterizations of the BioWatch program efforts described in this review. In response to this, DHS requested that the National Academies of Sciences, Engineering, and Medicine conduct a workshop to further explore the findings of the 2015 GAO report and discuss the impact these findings may have with regard to the future development of the technical capabilities of the BioWatch program. Workshop participants also discussed existing and possible collaborations between BioWatch, public health laboratories, and other stakeholders that could contribute to the enhancement of biosurveillance capabilities at the federal, state, and local levels. This publication summarizes the presentations and discussions from the workshop. |
| unlv science and engineering building: Saving Public Higher Education Jennifer Ring, Trisden Shaw, Reece Gibb, 2022-11-19 In this book, eleven recent college graduates describe in vivid detail their journeys from racially segregated, underfunded public schools to a state university, and the obstacles they encountered along the way. Chapters highlight personal accounts of poverty, violence, and bullying in childhood, the persistence of racism on the university campus and the inability of faculty and administrators to combat it. Overcoming all-too-common barriers, these eleven students persevered, earned their degrees and continued on to graduate school and professional careers. The authors conclude the book with policy proposals that not only address the issues raised by the students, but that would also restore public education to its original role as an engine of opportunity and driver of democracy. |
| unlv science and engineering building: The Department of Energy's FY 1997 Budget Request for Environment, Safety and Health, Environmental Restoration and Waste Management (non-defense) and Nuclear Energy United States. Congress. House. Committee on Science. Subcommittee on Energy and Environment, 1997 |
