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| cmu summer academy for math and science: Practices and Policies Aris Winger, PAMELA E. HARRIS, 2021-08-19 As a natural follow up to Asked and Answered: Dialogues On Advocating For Students of Color in Mathematics, this book centers the personal narratives and contributions of mathematicians who deeply believe in the power of their advocacy work to bring positive change to the culture and climate of the mathematical community. Moreover, continuing the important theme of 5% actionable change, the book centers over 300 tangible practices and policies to advocate for students of color in mathematics, compiled from participants in our professional development programming which answers the question What can I do to advocate for students of color? After engaging with the book the reader will be equipped with numerous concrete suggestions for advocating for students of color, ways in which they can continue this work in spite of challenges that may arise, and most importantly, the reader will have the opportunity to reimagine what it means for them personally to be an advocate for students of color. Featuring contributions from: Elizabeth A. Arnold, Karen Cangialosi, Catherine Cannizzo, Alvaro Carbonero, Stacey S. Cofield, Bryan Dewsbury, Carrie Diaz Eaton, Ricela Feliciano-Semidei, Padi Fuster, Brittany Gelb, Abbe Herzig, Kim Holman, David Jekel, Selvi Kara, Kim Klinger-Logan, Tim McEldowney, Amaury V. Miniño, Ralph Morrison, Nikhil Sahoo, Suzanne Sindi, Vesna Stojanoska, Vanessa Sun, Sarah Sword, Lola Thompson, Lee Trent, Julianne Vega, Andrés R. Vindas-Meléndez |
| cmu summer academy for math and science: Summer Programs for Kids and Teenagers Peterson's Guides Staff, 2006-11-13 Updated information is presented on more than 3,000 summer camps, arts programs, sports clinics, academic courses, travel tours, and wilderness adventures. A Fast Facts Quick Reference Chart helps parents compare programs at a glance. |
| cmu summer academy for math and science: The Ultimate Guide to Summer Opportunities for Teens Sandra L. Berger, 2007-10 Presents advice on using summer opportunities to help gain entrance into selective universities and provides guidance on researching, choosing, and applying for summer programs. |
| cmu summer academy for math and science: Research to Empower: A Vibrant Guidebook for Young Students Grace Chenxin Liu, 2024-01-30 With prevalent misinformation, the rise of social media, and artificial intelligence writing for us, we live in an era where learning research techniques and processes is needed more than ever to differentiate between true and false statements. Research also leads to new knowledge, creativity, and innovation. Most importantly, it empowers young people to pursue their interests, solve crucial problems, and master a set of essential, irreplaceable skills like critical reasoning, in-depth thinking, and communication. Unsurprisingly, there is a huge demand for students to learn how to research. However, there is a lack of guidebooks with engaging and illuminating content that appropriately introduces research to young students. How can we help those with the potential to come up with amazing, possibly world-changing, ideas if they don’t know where, when, or how to start? How do we make sure they get the resources they need? Grace Chenxin Liu shares her knowledge about conducting research as a student with step-by-step guidance, delivering honest and effective tips that empower young students to do excellent research. Are you ready? Let’s begin–and don’t forget, if Grace can do it, everyone can do it too! |
| cmu summer academy for math and science: Guide to Summer Camps and Summer Schools Porter Sargent, Porter Sargent Handbooks, 2001-12 |
| cmu summer academy for math and science: Evidence-Based Management Eric Barends, Denise M. Rousseau, 2018-09-03 Decisions in businesses and organizations are too often based on fads, fashions and the success stories of famous CEOs. At the same time, traditional models and new cutting-edge solutions often fail to deliver on what they promise. This situation leaves managers, business leaders, consultants and policymakers with a profound challenge: how can we stay away from trends and quick fixes, and instead use valid and reliable evidence to support the organization? In response to this problem, evidence-based management has evolved with the goal of improving the quality of decision-making by using critically evaluated evidence from multiple sources - organizational data, professional expertise, stakeholder values and scientific literature. This book sets out and explains the specific skills needed to gather, understand and use evidence to make better-informed organizational decisions. Evidence-Based Management is a comprehensive guide that provides current and future managers, consultants and organizational leaders with the knowledge and practical skills to improve the quality and outcome of their decision-making. Online resources include case studies, exercises, lecture slides and further reading. |
| cmu summer academy for math and science: K-12 Math and Science Education United States. Congress. House. Committee on Science, 2000 |
| cmu summer academy for math and science: She Plays to Win Prabhleen Kaur Lamba, 2021-11-30 |
| cmu summer academy for math and science: Ant Colony Optimization Marco Dorigo, Thomas Stutzle, 2004-06-04 An overview of the rapidly growing field of ant colony optimization that describes theoretical findings, the major algorithms, and current applications. The complex social behaviors of ants have been much studied by science, and computer scientists are now finding that these behavior patterns can provide models for solving difficult combinatorial optimization problems. The attempt to develop algorithms inspired by one aspect of ant behavior, the ability to find what computer scientists would call shortest paths, has become the field of ant colony optimization (ACO), the most successful and widely recognized algorithmic technique based on ant behavior. This book presents an overview of this rapidly growing field, from its theoretical inception to practical applications, including descriptions of many available ACO algorithms and their uses. The book first describes the translation of observed ant behavior into working optimization algorithms. The ant colony metaheuristic is then introduced and viewed in the general context of combinatorial optimization. This is followed by a detailed description and guide to all major ACO algorithms and a report on current theoretical findings. The book surveys ACO applications now in use, including routing, assignment, scheduling, subset, machine learning, and bioinformatics problems. AntNet, an ACO algorithm designed for the network routing problem, is described in detail. The authors conclude by summarizing the progress in the field and outlining future research directions. Each chapter ends with bibliographic material, bullet points setting out important ideas covered in the chapter, and exercises. Ant Colony Optimization will be of interest to academic and industry researchers, graduate students, and practitioners who wish to learn how to implement ACO algorithms. |
| cmu summer academy for math and science: Twenty Lectures on Algorithmic Game Theory Tim Roughgarden, 2016-09-01 Computer science and economics have engaged in a lively interaction over the past fifteen years, resulting in the new field of algorithmic game theory. Many problems that are central to modern computer science, ranging from resource allocation in large networks to online advertising, involve interactions between multiple self-interested parties. Economics and game theory offer a host of useful models and definitions to reason about such problems. The flow of ideas also travels in the other direction, and concepts from computer science are increasingly important in economics. This book grew out of the author's Stanford University course on algorithmic game theory, and aims to give students and other newcomers a quick and accessible introduction to many of the most important concepts in the field. The book also includes case studies on online advertising, wireless spectrum auctions, kidney exchange, and network management. |
| cmu summer academy for math and science: Fiske What to Do When for College Edward B. Fiske, Bruce G. Hammond, 2005 Presents a guide to applying for college admissions, for students and parents, providing a chronology of important dates, including deadlines for early and regular admissions, major scholarships, financial aid, housing, SAT, ACT, and more. |
| cmu summer academy for math and science: Data Science for Undergraduates National Academies of Sciences, Engineering, and Medicine, Division of Behavioral and Social Sciences and Education, Board on Science Education, Division on Engineering and Physical Sciences, Committee on Applied and Theoretical Statistics, Board on Mathematical Sciences and Analytics, Computer Science and Telecommunications Board, Committee on Envisioning the Data Science Discipline: The Undergraduate Perspective, 2018-11-11 Data science is emerging as a field that is revolutionizing science and industries alike. Work across nearly all domains is becoming more data driven, affecting both the jobs that are available and the skills that are required. As more data and ways of analyzing them become available, more aspects of the economy, society, and daily life will become dependent on data. It is imperative that educators, administrators, and students begin today to consider how to best prepare for and keep pace with this data-driven era of tomorrow. Undergraduate teaching, in particular, offers a critical link in offering more data science exposure to students and expanding the supply of data science talent. Data Science for Undergraduates: Opportunities and Options offers a vision for the emerging discipline of data science at the undergraduate level. This report outlines some considerations and approaches for academic institutions and others in the broader data science communities to help guide the ongoing transformation of this field. |
| cmu summer academy for math and science: How Learning Works Susan A. Ambrose, Michael W. Bridges, Michele DiPietro, Marsha C. Lovett, Marie K. Norman, 2010-04-16 Praise for How Learning Works How Learning Works is the perfect title for this excellent book. Drawing upon new research in psychology, education, and cognitive science, the authors have demystified a complex topic into clear explanations of seven powerful learning principles. Full of great ideas and practical suggestions, all based on solid research evidence, this book is essential reading for instructors at all levels who wish to improve their students' learning. —Barbara Gross Davis, assistant vice chancellor for educational development, University of California, Berkeley, and author, Tools for Teaching This book is a must-read for every instructor, new or experienced. Although I have been teaching for almost thirty years, as I read this book I found myself resonating with many of its ideas, and I discovered new ways of thinking about teaching. —Eugenia T. Paulus, professor of chemistry, North Hennepin Community College, and 2008 U.S. Community Colleges Professor of the Year from The Carnegie Foundation for the Advancement of Teaching and the Council for Advancement and Support of Education Thank you Carnegie Mellon for making accessible what has previously been inaccessible to those of us who are not learning scientists. Your focus on the essence of learning combined with concrete examples of the daily challenges of teaching and clear tactical strategies for faculty to consider is a welcome work. I will recommend this book to all my colleagues. —Catherine M. Casserly, senior partner, The Carnegie Foundation for the Advancement of Teaching As you read about each of the seven basic learning principles in this book, you will find advice that is grounded in learning theory, based on research evidence, relevant to college teaching, and easy to understand. The authors have extensive knowledge and experience in applying the science of learning to college teaching, and they graciously share it with you in this organized and readable book. —From the Foreword by Richard E. Mayer, professor of psychology, University of California, Santa Barbara; coauthor, e-Learning and the Science of Instruction; and author, Multimedia Learning |
| cmu summer academy for math and science: Bulletin - Institute of Mathematical Statistics Institute of Mathematical Statistics, 1995 |
| cmu summer academy for math and science: Molecular Evolution Roderick D.M. Page, Edward C. Holmes, 2009-07-14 The study of evolution at the molecular level has given the subject of evolutionary biology a new significance. Phylogenetic 'trees' of gene sequences are a powerful tool for recovering evolutionary relationships among species, and can be used to answer a broad range of evolutionary and ecological questions. They are also beginning to permeate the medical sciences. In this book, the authors approach the study of molecular evolution with the phylogenetic tree as a central metaphor. This will equip students and professionals with the ability to see both the evolutionary relevance of molecular data, and the significance evolutionary theory has for molecular studies. The book is accessible yet sufficiently detailed and explicit so that the student can learn the mechanics of the procedures discussed. The book is intended for senior undergraduate and graduate students taking courses in molecular evolution/phylogenetic reconstruction. It will also be a useful supplement for students taking wider courses in evolution, as well as a valuable resource for professionals. First student textbook of phylogenetic reconstruction which uses the tree as a central metaphor of evolution. Chapter summaries and annotated suggestions for further reading. Worked examples facilitate understanding of some of the more complex issues. Emphasis on clarity and accessibility. |
| cmu summer academy for math and science: Fiske College Deadline Planner, 2004-2005 Edward B. Fiske, Bruce G. Hammond, 2003 Major scholarship deadlines; financial aid deadlines; housing deadlines; ROTC and service Academy deadlines; SAT and ACT deadlines, completely hands-on and chronologically arranged over the course of 16 months, the Fiske College Deadline Planner has the information every student needs. |
| cmu summer academy for math and science: The Computer Boys Take Over Nathan L. Ensmenger, 2012-08-24 The contentious history of the computer programmers who developed the software that made the computer revolution possible. This is a book about the computer revolution of the mid-twentieth century and the people who made it possible. Unlike most histories of computing, it is not a book about machines, inventors, or entrepreneurs. Instead, it tells the story of the vast but largely anonymous legions of computer specialists—programmers, systems analysts, and other software developers—who transformed the electronic computer from a scientific curiosity into the defining technology of the modern era. As the systems that they built became increasingly powerful and ubiquitous, these specialists became the focus of a series of critiques of the social and organizational impact of electronic computing. To many of their contemporaries, it seemed the “computer boys” were taking over, not just in the corporate setting, but also in government, politics, and society in general. In The Computer Boys Take Over, Nathan Ensmenger traces the rise to power of the computer expert in modern American society. His rich and nuanced portrayal of the men and women (a surprising number of the “computer boys” were, in fact, female) who built their careers around the novel technology of electronic computing explores issues of power, identity, and expertise that have only become more significant in our increasingly computerized society. In his recasting of the drama of the computer revolution through the eyes of its principle revolutionaries, Ensmenger reminds us that the computerization of modern society was not an inevitable process driven by impersonal technological or economic imperatives, but was rather a creative, contentious, and above all, fundamentally human development. |
| cmu summer academy for math and science: The Instrumentalist , 2001 |
| cmu summer academy for math and science: Why So Few? Catherine Hill, Christianne Corbett, Andresse St. Rose, 2010 In an era when women are increasingly prominent in medicine, law and business, why are there so few women scientists and engineers? A new research report by AAUW presents compelling evidence that can help to explain this puzzle. Why So Few? Women in Science, Technology, Engineering, and Mathematics presents in-depth yet accessible profiles of eight key research findings that point to environmental and social barriers - including stereotypes, gender bias and the climate of science and engineering departments in colleges and universities - that continue to block women's participation and progress in science, technology, engineering, and math. The report also includes up to date statistics on girls' and women's achievement and participation in these areas and offers new ideas for what each of us can do to more fully open scientific and engineering fields to girls and women.--pub. desc. |
| cmu summer academy for math and science: Lessons Learned Tom Loveless, 2008-08-01 Standards for education achievement are under scrutiny throughout the industrial world. In this technological age, student performance in mathematics is seen as being particularly important. For more than four decades, international assessments conducted by the International Association for Evaluation of Educational Achievement (IEA) have measured how well students are learning mathematics in different countries. The latest round of mathematics testing of the Trends in Mathematics and Science Study (TIMSS) takes place in 2007. Beyond the horse race—the rankings that compare nations—what have we learned from the wealth of data collected in these assessments? How do US math curriculums compare to those used overseas? Is the effect of technology in the classroom uniform across nations? How do popular math reforms fare abroad? Those are some of the critical issues tackled in this important book. The authors use the database to address several pressing questions about school policy and educational research. For example, Ina Mullis and Michael Martin review the major lessons learned over the history of TIMSS testing. William Schmidt and Richard T. Houang examine whether curricular breadth affects student achievement. Jeremy Kilpatrick, Vilma Mesa, and Finbarr Sloane evaluate American performance in algebra relative to other nations and pinpoint strengths and weaknesses in American students' learning of algebra. |
| cmu summer academy for math and science: The New York Times Magazine , 2009 |
| cmu summer academy for math and science: The Cognitive-Theoretic Model of the Universe: A New Kind of Reality Theory Christopher Michael Langan, 2002-06-01 Paperback version of the 2002 paper published in the journal Progress in Information, Complexity, and Design (PCID). ABSTRACT Inasmuch as science is observational or perceptual in nature, the goal of providing a scientific model and mechanism for the evolution of complex systems ultimately requires a supporting theory of reality of which perception itself is the model (or theory-to-universe mapping). Where information is the abstract currency of perception, such a theory must incorporate the theory of information while extending the information concept to incorporate reflexive self-processing in order to achieve an intrinsic (self-contained) description of reality. This extension is associated with a limiting formulation of model theory identifying mental and physical reality, resulting in a reflexively self-generating, self-modeling theory of reality identical to its universe on the syntactic level. By the nature of its derivation, this theory, the Cognitive Theoretic Model of the Universe or CTMU, can be regarded as a supertautological reality-theoretic extension of logic. Uniting the theory of reality with an advanced form of computational language theory, the CTMU describes reality as a Self Configuring Self-Processing Language or SCSPL, a reflexive intrinsic language characterized not only by self-reference and recursive self-definition, but full self-configuration and self-execution (reflexive read-write functionality). SCSPL reality embodies a dual-aspect monism consisting of infocognition, self-transducing information residing in self-recognizing SCSPL elements called syntactic operators. The CTMU identifies itself with the structure of these operators and thus with the distributive syntax of its self-modeling SCSPL universe, including the reflexive grammar by which the universe refines itself from unbound telesis or UBT, a primordial realm of infocognitive potential free of informational constraint. Under the guidance of a limiting (intrinsic) form of anthropic principle called the Telic Principle, SCSPL evolves by telic recursion, jointly configuring syntax and state while maximizing a generalized self-selection parameter and adjusting on the fly to freely-changing internal conditions. SCSPL relates space, time and object by means of conspansive duality and conspansion, an SCSPL-grammatical process featuring an alternation between dual phases of existence associated with design and actualization and related to the familiar wave-particle duality of quantum mechanics. By distributing the design phase of reality over the actualization phase, conspansive spacetime also provides a distributed mechanism for Intelligent Design, adjoining to the restrictive principle of natural selection a basic means of generating information and complexity. Addressing physical evolution on not only the biological but cosmic level, the CTMU addresses the most evident deficiencies and paradoxes associated with conventional discrete and continuum models of reality, including temporal directionality and accelerating cosmic expansion, while preserving virtually all of the major benefits of current scientific and mathematical paradigms. |
| cmu summer academy for math and science: Methods of Mathematical Finance Ioannis Karatzas, Steven E. Shreve, 1998-08-13 This monograph is a sequel to Brownian Motion and Stochastic Calculus by the same authors. Within the context of Brownian-motion- driven asset prices, it develops contingent claim pricing and optimal consumption/investment in both complete and incomplete markets. The latter topic is extended to a study of equilibrium, providing conditions for the existence and uniqueness of market prices which support trading by several heterogeneous agents. Although much of the incomplete-market material is available in research papers, these topics are treated for the first time in a unified manner. The book contains an extensive set of references and notes describing the field, including topics not treated in the text. This monograph should be of interest to researchers wishing to see advanced mathematics applied to finance. The material on optimal consumption and investment, leading to equilibrium, is addressed to the theoretical finance community. The chapters on contingent claim valuation present techniques of practical importance, especially for pricing exotic options. Also available by Ioannis Karatzas and Steven E. Shreve, Brownian Motion and Stochastic Calculus, Second Edition, Springer-Verlag New York, Inc., 1991, 470 pp., ISBN 0-387- 97655-8. |
| cmu summer academy for math and science: Science and Math Education United States. Congress. House. Committee on Science and Technology. Subcommittee on Science, Research, and Technology, 1985 |
| cmu summer academy for math and science: Classification Theory S. Shelah, 1990-12-06 In this research monograph, the author's work on classification and related topics are presented. This revised edition brings the book up to date with the addition of four new chapters as well as various corrections to the 1978 text.The additional chapters X - XIII present the solution to countable first order T of what the author sees as the main test of the theory. In Chapter X the Dimensional Order Property is introduced and it is shown to be a meaningful dividing line for superstable theories. In Chapter XI there is a proof of the decomposition theorems. Chapter XII is the crux of the matter: there is proof that the negation of the assumption used in Chapter XI implies that in models of T a relation can be defined which orders a large subset of m |
| cmu summer academy for math and science: AI and Humanity Illah Reza Nourbakhsh, Jennifer Keating, 2020-03-10 An examination of the implications for society of rapidly advancing artificial intelligence systems, combining a humanities perspective with technical analysis; includes exercises and discussion questions. AI and Humanity provides an analytical framing and a common language for understanding the effects of technological advances in artificial intelligence on society. Coauthored by a computer scientist and a scholar of literature and cultural studies, it is unique in combining a humanities perspective with technical analysis, using the tools of literary explication to examine the societal impact of AI systems. It explores the historical development of these technologies, moving from the apparently benign Roomba to the considerably more sinister semi-autonomous weapon system Harpy. The book is driven by an exploration of the cultural and etymological roots of a series of keywords relevant to both AI and society. Works examined range from Narrative of the Life of Frederick Douglass, given a close reading for its themes of literacy and agency, to Simon Head's critique of the effects of surveillance and automation on the Amazon labor force in Mindless. Originally developed as a textbook for an interdisciplinary humanities-science course at Carnegie Mellon, AI & Humanity offers discussion questions, exercises (including journal writing and concept mapping), and reading lists. A companion website provides updated resources and a portal to a video archive of interviews with AI scientists, sociologists, literary theorists, and others. |
| cmu summer academy for math and science: Proceedings of the Conference on Promoting Undergraduate Research in Mathematics Joseph A. Gallian, 2007 Descriptions of summer research programs: The AIM REU: Individual projects with a common theme by D. W. Farmer The Applied Mathematical Sciences Summer Institute by E. T. Camacho and S. A. Wirkus Promoting research and minority participantion via undergraduate research in the mathematical sciences. MTBI/SUMS-Arizona State University by C. Castillo-Chavez, C. Castillo-Garsow, G. Chowell, D. Murillo, and M. Pshaenich Summer mathematics research experience for undergraduates (REU) at Brigham Young University by M. Dorff Introducing undergraduates for underrepresented minorities to mathematical research: The CSU Channel Islands/California Lutheran University REU, 2004-2006 by C. Wyels The REUT and NREUP programs at California State University, Chico by C. M. Gallagher and T. W. Mattman Undergraduate research at Canisius. Geometry and physics on graphs, summer 2006 by S. Prassidis The NSF REU at Central Michigan University by S. Narayan and K. Smith Claremont Colleges REU, 2005-07 by J. Hoste The first summer undergraduate research program at Clayton State University by A. Lanz Clemson REU in computational number theory and combinatorics by N. Calkin and K. James Research with pre-mathematicians by C. R. Johnson Traditional roots, new beginnings: Transitions in undergraduate research in mathematics at ETSU by A. P. Godbole Undergraduate research in mathematics at Grand Valley State University by S. Schlicker The Hope College REU program by T. Pennings The REU experience at Iowa State University by L. Hogben Lafayette College's REU by G. Gordon LSU REU: Graphs, knots, & Dessins in topology, number theory & geometry by N. W. Stoltzfus, R. V. Perlis, and J. W. Hoffman Mount Holyoke College mathematics summer research institute by M. M. Robinson The director's summer program at the NSA by T. White REU in mathematical biology at Penn State Erie, The Behrend College by J. P. Previte, M. A. Rutter, and S. A. Stevens The Rice University Summer Institute of Statistics (RUSIS) by J. Rojo The Rose-Hulman REU in mathematics by K. Bryan The REU program at DIMACS/Rutgers University by B. J. Latka and F. S. Roberts The SUNY Potsdam-Clarkson University REU program by J. Foisy The Trinity University research experiences for undergraduates in mathematics program by S. Chapman Undergraduate research in mathematics at the University of Akron by J. D. Adler The Duluth undergraduate research program 1977-2006 by J. A. Gallian Promoting undergraduate research in mathematics at the University of Nebraska-Lincoln by J. L. Walker, W. Ledder, R. Rebarber, and G. Woodward REU site: Algorithmic combinatorics on words by F. Blanchet-Sadri Promoting undergraduate research by T. Aktosun Research experiences for undergraduates inverse problems for electrical networks by J. A. Morrow Valparaiso experiences in research for undergraduates in mathematics by R. Gillman and Z. Szaniszlo Wabash Summer Institute in Algebra (WSIA) by M. Axtell, J. D. Phillips, and W. Turner THe SMALL program at Williams College by C. E. Silva and F. Morgan Industrial mathematics and statistics research for undergraduates at WPI by A. C. Heinricher and S. L. Weekes Descriptions of summer enrichment programs: Twelve years of summer program for women in mathematics-What works and why? by M. M. Gupta Research experience for undergraduates in numerical analysis and scientific computing: An international program by G. Fairweather and B. M. Moskal Articles: The Long-Term Undergraduate Research (LURE) model by S. S. Adams, J. A. Davis, N. Eugene, K. Hoke, S. Narayan, and K. Smith Research with students from underrepresented groups by R. Ashley, A. Ayela-Uwangue, F. Cabrera, C. Callesano, and D. A. Narayan Research classes at Gettysburg College by B. Bajnok Research in industrial projects for students: A unique undergraduate experience by S. Beggs What students say about their REU experience by F. Connolly and J. A. Gallian Diversity issues in undergraduate research by R. Cortez, D. Davenport, H |
| cmu summer academy for math and science: Engineering a Better Future Eswaran Subrahmanian, Toluwalogo Odumosu, Jeffrey Y. Tsao, 2018-11-12 This open access book examines how the social sciences can be integrated into the praxis of engineering and science, presenting unique perspectives on the interplay between engineering and social science. Motivated by the report by the Commission on Humanities and Social Sciences of the American Association of Arts and Sciences, which emphasizes the importance of social sciences and Humanities in technical fields, the essays and papers collected in this book were presented at the NSF-funded workshop ‘Engineering a Better Future: Interplay between Engineering, Social Sciences and Innovation’, which brought together a singular collection of people, topics and disciplines. The book is split into three parts: A. Meeting at the Middle: Challenges to educating at the boundaries covers experiments in combining engineering education and the social sciences; B. Engineers Shaping Human Affairs: Investigating the interaction between social sciences and engineering, including the cult of innovation, politics of engineering, engineering design and future of societies; and C. Engineering the Engineers: Investigates thinking about design with papers on the art and science of science and engineering practice. |
| cmu summer academy for math and science: Different Faces of Geometry Simon Donaldson, Yakov Eliashberg, Misha Gromov, 2006-04-11 Different Faces of Geometry - edited by the world renowned geometers S. Donaldson, Ya. Eliashberg, and M. Gromov - presents the current state, new results, original ideas and open questions from the following important topics in modern geometry: These apparently diverse topics have a common feature in that they are all areas of exciting current activity. The Editors have attracted an impressive array of leading specialists to author chapters for this volume: G. Mikhalkin (USA-Canada-Russia), V.D. Milman (Israel) and A.A. Giannopoulos (Greece), C. LeBrun (USA), Ko Honda (USA), P. Ozsvath (USA) and Z. Szabo (USA), C. Simpson (France), D. Joyce (UK) and P. Seidel (USA), and S. Bauer (Germany). One can distinguish various themes running through the different contributions. There is some emphasis on invariants defined by elliptic equations and their applications in low-dimensional topology, symplectic and contact geometry (Bauer, Seidel, Ozsvath and Szabo). These ideas enter, more tangentially, in the articles of Joyce, Honda and LeBrun.Here and elsewhere, as well as explaining the rapid advances that have been made, the articles convey a wonderful sense of the vast areas lying beyond our current understanding. Simpson's article emphasizes the need for interesting new constructions (in that case of Kahler and algebraic manifolds), a point which is also made by Bauer in the context of 4-manifolds and the 11/8 conjecture. LeBrun's article gives another perspective on 4-manifold theory, via Riemannian geometry, and the challenging open questions involving the geometry of even well-known 4-manifolds. There are also striking contrasts between the articles. The authors have taken different approaches: for example, the thoughtful essay of Simpson, the new research results of LeBrun and the thorough expositions with homework problems of Honda. One can also ponder the differences in the style of mathematics. In the articles of Honda, Giannopoulos and Milman, and Mikhalkin, the geometry is present in a very vivid and tangible way; combining respectively with topology, analysis and algebra.The papers of Bauer and Seidel, on the other hand, makes the point that algebraic and algebro-topological abstraction (triangulated categories, spectra) can play an important role in very unexpected ways in concrete geometric problems. - From the Preface by the Editors |
| cmu summer academy for math and science: Standards for K-12 Engineering Education? National Research Council, Committee on Standards for K-12 Engineering Education, 2010-10-28 The goal of this study was to assess the value and feasibility of developing and implementing content standards for engineering education at the K-12 level. Content standards have been developed for three disciplines in STEM education-science, technology, and mathematic-but not for engineering. To date, a small but growing number of K-12 students are being exposed to engineering-related materials, and limited but intriguing evidence suggests that engineering education can stimulate interest and improve learning in mathematics and science as well as improve understanding of engineering and technology. Given this background, a reasonable question is whether standards would improve the quality and increase the amount of teaching and learning of engineering in K-12 education. The book concludes that, although it is theoretically possible to develop standards for K-12 engineering education, it would be extremely difficult to ensure their usefulness and effective implementation. This conclusion is supported by the following findings: (1) there is relatively limited experience with K-12 engineering education in U.S. elementary and secondary schools, (2) there is not at present a critical mass of teachers qualified to deliver engineering instruction, (3) evidence regarding the impact of standards-based educational reforms on student learning in other subjects, such as mathematics and science, is inconclusive, and (4) there are significant barriers to introducing stand-alone standards for an entirely new content area in a curriculum already burdened with learning goals in more established domains of study. |
| cmu summer academy for math and science: Trans Rogers Brubaker, 2018-05-29 How the transgender experience opens up new possibilities for thinking about gender and race In the summer of 2015, shortly after Caitlyn Jenner came out as transgender, the NAACP official and political activist Rachel Dolezal was outed by her parents as white, touching off a heated debate in the media about the fluidity of gender and race. If Jenner could legitimately identify as a woman, could Dolezal legitimately identify as black? Taking the controversial pairing of “transgender” and “transracial” as his starting point, Rogers Brubaker shows how gender and race, long understood as stable, inborn, and unambiguous, have in the past few decades opened up—in different ways and to different degrees—to the forces of change and choice. Transgender identities have moved from the margins to the mainstream with dizzying speed, and ethnoracial boundaries have blurred. Paradoxically, while sex has a much deeper biological basis than race, choosing or changing one's sex or gender is more widely accepted than choosing or changing one’s race. Yet while few accepted Dolezal’s claim to be black, racial identities are becoming more fluid as ancestry—increasingly understood as mixed—loses its authority over identity, and as race and ethnicity, like gender, come to be understood as something we do, not just something we have. By rethinking race and ethnicity through the multifaceted lens of the transgender experience—encompassing not just a movement from one category to another but positions between and beyond existing categories—Brubaker underscores the malleability, contingency, and arbitrariness of racial categories. At a critical time when gender and race are being reimagined and reconstructed, Trans explores fruitful new paths for thinking about identity. |
| cmu summer academy for math and science: Matter and Interactions Ruth W. Chabay, Bruce A. Sherwood, 2015-01-12 Matter and Interactions, 4th Edition offers a modern curriculum for introductory physics (calculus-based). It presents physics the way practicing physicists view their discipline while integrating 20th Century physics and computational physics. The text emphasizes the small number of fundamental principles that underlie the behavior of matter, and models that can explain and predict a wide variety of physical phenomena. Matter and Interactions, 4th Edition will be available as a single volume hardcover text and also two paperback volumes. |
| cmu summer academy for math and science: Engineering Bridges Pendred E. Noyce, 2019-12 This book fills a gap between picture books for elementary students and technical books about bridges at the college level. It provides a readable and comprehensive illustrated guide to bridges of the world, with attention to different designs (arch, beam, truss, cantilever, suspension, cable-stayed) and materials (wood, stone, iron, steel, concrete, and even roots, grass, and plastic). Design challenges, technical advances, and environmental concerns are addressed with examples drawn from across the world and across the centuries. Fun chapters include those on movable bridges, pedestrian bridges, and bridge disasters. The style is friendly and accessible. |
| cmu summer academy for math and science: Data-Driven Science and Engineering Steven L. Brunton, J. Nathan Kutz, 2022-05-05 A textbook covering data-science and machine learning methods for modelling and control in engineering and science, with Python and MATLAB®. |
| cmu summer academy for math and science: Council of Organization and Others for Education About Parochiaid, Inc. v. Governor, 455 MICH 557 (1997) , 1997 106092-106094, 106106-106111 |
| cmu summer academy for math and science: The Ethical Algorithm Michael Kearns, Aaron Roth, 2020 Algorithms have made our lives more efficient and entertaining--but not without a significant cost. Can we design a better future, one in which societial gains brought about by technology are balanced with the rights of citizens? The Ethical Algorithm offers a set of principled solutions based on the emerging and exciting science of socially aware algorithm design. |
| cmu summer academy for math and science: Basic Category Theory for Computer Scientists Benjamin C. Pierce, 1991-08-07 Basic Category Theory for Computer Scientists provides a straightforward presentation of the basic constructions and terminology of category theory, including limits, functors, natural transformations, adjoints, and cartesian closed categories. Category theory is a branch of pure mathematics that is becoming an increasingly important tool in theoretical computer science, especially in programming language semantics, domain theory, and concurrency, where it is already a standard language of discourse. Assuming a minimum of mathematical preparation, Basic Category Theory for Computer Scientists provides a straightforward presentation of the basic constructions and terminology of category theory, including limits, functors, natural transformations, adjoints, and cartesian closed categories. Four case studies illustrate applications of category theory to programming language design, semantics, and the solution of recursive domain equations. A brief literature survey offers suggestions for further study in more advanced texts. Contents Tutorial • Applications • Further Reading |
| cmu summer academy for math and science: Taxes and Business Strategy Myron S. Scholes, Mark A. Wolfson, Merle M. Erickson, Michelle L. Hanlon, Edward L. Maydew, Terrence J. Shevlin, 2015-01-03 For MBA students and graduates embarking on careers in investment banking, corporate finance, strategy consulting, money management, or venture capital Through integration with traditional MBA topics, Taxes and Business Strategy, Fifth Edition provides a framework for understanding how taxes affect decision-making, asset prices, equilibrium returns, and the financial and operational structure of firms. Teaching and Learning Experience This program presents a better teaching and learning experience-for you and your students: *Use a text from an active author team: All 5 authors actively teach the tax and business strategy course and provide students with relevant examples from both classroom and real-world consulting experience. *Teach students the practical uses for business strategy: Students learn important concepts that can be applied to their own lives. *Reinforce learning by using in-depth analysis: Analysis and explanatory material help students understand, think about, and retain information. |
| cmu summer academy for math and science: Computational Geometry Franco P. Preparata, Michael I. Shamos, 2012-12-06 From the reviews: This book offers a coherent treatment, at the graduate textbook level, of the field that has come to be known in the last decade or so as computational geometry. ... ... The book is well organized and lucidly written; a timely contribution by two founders of the field. It clearly demonstrates that computational geometry in the plane is now a fairly well-understood branch of computer science and mathematics. It also points the way to the solution of the more challenging problems in dimensions higher than two. #Mathematical Reviews#1 ... This remarkable book is a comprehensive and systematic study on research results obtained especially in the last ten years. The very clear presentation concentrates on basic ideas, fundamental combinatorial structures, and crucial algorithmic techniques. The plenty of results is clever organized following these guidelines and within the framework of some detailed case studies. A large number of figures and examples also aid the understanding of the material. Therefore, it can be highly recommended as an early graduate text but it should prove also to be essential to researchers and professionals in applied fields of computer-aided design, computer graphics, and robotics. #Biometrical Journal#2 |
| cmu summer academy for math and science: Mathematics & Science in the Real World , 2000 |
在卡内基梅隆大学(CMU)学习计算机是怎样的体验? - 知乎
我印象最深的是CMU浓厚的编程语言的研究氛围。 这在其他的名校里是很少见的。 你看School of Computer Science历任主任里, Peter Lee, Randy Bryant, 以及Computer Science Department …
申请cmu需要什么水平? - 知乎
从官网信息中易知cmu有很多cs的硕士项目,cmu的特点就是这20多个项目总有一款适合你,从录取率上来说项目难度从top 4 - top 30 不等。具体的录取率可以从官网下载。 cmu的计算机学 …
在卡耐基梅隆大学学习是怎样一种体验? - 知乎
a2: cmu在匹兹堡市属于大学城的区域,离市中心较远,但周围吃住很方便,也很安全。大范围来讲,匹兹堡地处东海岸,大部分时间是春秋的温度,离纽约和华盛顿比较近,喜欢玩的同学周 …
卡耐基梅隆大学(cmu)有哪些校区,每个校区的学习生活体验是怎 …
cmu-sv是卡耐基梅隆大学于2002年在硅谷开设的一个新校区,地理位置可谓得天独厚,就业率也是非常高的。 除了地理位置外, SV校区与主校区相比,教学资源相对弱一些,课程设置比较偏 …
在卡内基梅隆大学 (Carnegie Mellon University) 就读是怎样一番 …
cmu是一个全民cs的地方,如果你在别的学校,你会看到EE的人问转cs难不难,在cmu,连学英语的人都转学cs了,所以这个问题永远不存在。 cmu提供了这种氛围,就是无论你过去如何,来 …
在卡内基梅隆(CMU)念本科是什么样的体验? - 知乎
cmu本校区的学习氛围非常好,周围的同学都非常认真,当然这和cmu繁重的课业压力有着很大的关系。 对于我来说,研究生期间和本科相比简直是太累了,CMU的课程设置和上课节奏逼着 …
CMU 15445/15645 Database Systems 存活指北 - 知乎
May 28, 2023 · CMU排行榜里有两个同学把这一个指标也从10+提升到了7, 8万. 根据他们的说法, 他们是自己手动track了这些Count而不是每次都去真的运行那个SQL Query, 从而降低了资源 …
CMU 计算机选课上有什么特别好的课程推荐? - 知乎
在cmu一年半的学习生涯中收获了很多,同时也走了一些弯路,所以写下这篇课程介绍的文章,供学弟学妹们参考。 我以下介绍的这些课都是我自己实际上过的,并且都拿了A的,每门课包括 …
美国四大CS名校CMU的计算机课程介绍(内附官方教程链接)
May 19, 2022 · CMU 计算机科学专业 | hackway.org. 卡内基梅隆大学CMU号称自己是世界上第一个开设计算机专业的学校(开设于1965年)。当我翻开计算机科学史时又有说是普渡大 …
CMU有哪些值得一上的算法课? - 知乎
(大多数课没有video,(CMU印象里好像有录像的大多是AI的课?)不过大多数课有lecture note,会把课上来龙去脉详细的讲出来。没有来美国的同学们,考虑到大家的英语水平,其实 …
在卡内基梅隆大学(CMU)学习计算机是怎样的体验? - 知乎
我印象最深的是CMU浓厚的编程语言的研究氛围。 这在其他的名校里是很少见的。 你看School of Computer Science历任主任里, Peter Lee, Randy Bryant, 以及Computer Science Department …
申请cmu需要什么水平? - 知乎
从官网信息中易知cmu有很多cs的硕士项目,cmu的特点就是这20多个项目总有一款适合你,从录取率上来说项目难度从top 4 - top 30 不等。具体的录取率可以从官网下载。 cmu的计算机学 …
在卡耐基梅隆大学学习是怎样一种体验? - 知乎
a2: cmu在匹兹堡市属于大学城的区域,离市中心较远,但周围吃住很方便,也很安全。大范围来讲,匹兹堡地处东海岸,大部分时间是春秋的温度,离纽约和华盛顿比较近,喜欢玩的同学周 …
卡耐基梅隆大学(cmu)有哪些校区,每个校区的学习生活体验是怎 …
cmu-sv是卡耐基梅隆大学于2002年在硅谷开设的一个新校区,地理位置可谓得天独厚,就业率也是非常高的。 除了地理位置外, SV校区与主校区相比,教学资源相对弱一些,课程设置比较偏 …
在卡内基梅隆大学 (Carnegie Mellon University) 就读是怎样一番体 …
cmu是一个全民cs的地方,如果你在别的学校,你会看到EE的人问转cs难不难,在cmu,连学英语的人都转学cs了,所以这个问题永远不存在。 cmu提供了这种氛围,就是无论你过去如何,来 …
在卡内基梅隆(CMU)念本科是什么样的体验? - 知乎
cmu本校区的学习氛围非常好,周围的同学都非常认真,当然这和cmu繁重的课业压力有着很大的关系。 对于我来说,研究生期间和本科相比简直是太累了,CMU的课程设置和上课节奏逼着 …
CMU 15445/15645 Database Systems 存活指北 - 知乎
May 28, 2023 · CMU排行榜里有两个同学把这一个指标也从10+提升到了7, 8万. 根据他们的说法, 他们是自己手动track了这些Count而不是每次都去真的运行那个SQL Query, 从而降低了资源 …
CMU 计算机选课上有什么特别好的课程推荐? - 知乎
在cmu一年半的学习生涯中收获了很多,同时也走了一些弯路,所以写下这篇课程介绍的文章,供学弟学妹们参考。 我以下介绍的这些课都是我自己实际上过的,并且都拿了A的,每门课包括 …
美国四大CS名校CMU的计算机课程介绍(内附官方教程链接)
May 19, 2022 · CMU 计算机科学专业 | hackway.org. 卡内基梅隆大学CMU号称自己是世界上第一个开设计算机专业的学校(开设于1965年)。当我翻开计算机科学史时又有说是普渡大 …
CMU有哪些值得一上的算法课? - 知乎
(大多数课没有video,(CMU印象里好像有录像的大多是AI的课?)不过大多数课有lecture note,会把课上来龙去脉详细的讲出来。没有来美国的同学们,考虑到大家的英语水平,其实 …
