Engineering America narrates how Johann August Röbling, the third child of a provincial German tobacconist, became John A. Roebling, world-renowned American engineer, wealthy manufacturer, and designer of the Brooklyn Bridge and other great engineering feats of nineteenth-century America.
The American Dream - the idea that with hard work, anyone can be successful in any career – once drew thousands of immigrants to the United States. The country has given the world countless success stories in every sector of industry. But is that concept still true? Can you still make a decent living pursuing any career?Introducing Engineering America: Teaching a Penguin How to Fly, an 18-year-old's journey on discovering that not all college majors are created equal. The book combines the student's narrative with candid interviews of some of the nation's most accomplished individuals to discuss how engineering careers are becoming the trend of the century:Nobel Laureate in Physics Steven Weinberg,Roe v. Wade Lawyer Sarah Weddington, University of Texas Associate Professor Derek Chiou, Author Sheril Kirshenbaum, Economist and Research Associate at the National Bureau of Economic Research Daniel Hamermesh. America has so much talent but not enough of it is pursuing STEM careers. This book hopes to prove to high school students, college underclassmen and anyone looking to create a new career that engineering is doable, needed, financially rewarding and of course, most importantly, “cool.”
Leadership in innovation is essential to U.S. prosperity and security. In a global, knowledge-driven economy, technological innovationâ€"the transformation of new knowledge into products, processes, and services of value to societyâ€"is critical to competitiveness, long-term productivity growth, and an improved quality of life. Preeminence in technological innovation depends on a wide array of factors, one of which is leadership in engineering research, education, and practice. A threedecade- long decline in the share of federal investment in research and development devoted to engineering and a perceived erosion of basic, long-term engineering research capability in U.S. industry and federal laboratories have raised serious questions about the long-term health of engineering research in the United States. This book illustrates the critical role of engineering research in maintaining U.S. technological leadership; documents major challenges and opportunities facing the U.S. engineering research enterprise; and offers specific recommendations for leaders in federal and state government, industry, and universities to help strengthen U.S. engineering research in the face of intensifying global competition.
Engineering Solutions to America’s Healthcare Challenges covers the technologies, systems, and processes that are emerging in hospitals, clinics, community centers, universities, and the White House to repair healthcare in the United States. Focusing on the importance of individuals being proactive about their own state of health, it presents a systems approach to changing the way healthcare professionals do business and take care of their patients. Written by a leading government and private sector consultant with more than a decade of experience as an industrial engineer, the book features interviews with leading industry experts, both domestic and international. Describing how industrial engineering practices are shaping healthcare, it explains why systems thinking must be the foundation for every aspect of healthcare. The book presents proven Lean and Six Sigma tools that can help any healthcare organization begin making operational improvements that result in a better quality of care for patients—all while reducing and even eliminating the waste of time, money, and human resources. These solutions include implementing Six Sigma in emergency rooms, 5S in accounting for medical inventory, using Theory of Constraints to form a plan for shortening the length of stay in hospitals, how informatics are used to aggregate and benchmark sensitive data, and design of experiments to recruit and retain the best healthcare talent. The book illustrates the most common factors involved with successful Six Sigma projects in healthcare organizations and considers the implications of a rapidly growing medical tourism industry. It addresses the role of insurance on healthcare improvement and also previews some of the most fascinating technological advances currently in development. It also offers examples and analysis of The Institute of Medicine's six aims for healthcare: safety, effectiveness, efficiency, timeliness, family-centered focus, and equity.
Petroski reveals the science and engineering--not to mention the politics, egotism, and sheer magic--behind America's great bridges, particularly those constructed during the great bridge-building era starting in the 1870s and continuing through the 1930s. It is the story of the men and women who built the St. Louis, the George Washington, and the Golden Gate bridges, drawing not only on their mastery of numbers but on their gifts for persuasion and self-promotion. It is an account of triumphs and ignominious disasters (including the Tacoma Narrows Bridge, which literally twisted itself apart in a high wind). And throughout this grandly engaging book, Petroski lets us see how bridges became the "symbols and souls" of our civilization, as well as testaments to their builders' vision, ingenuity, and perseverance. "Seamlessly linked...With astonishing scope and generosity of view, Mr. Petroski places the tradition of American bridge-building in perspective."--New York Times Book Review
After World War II, the United States underwent a massive cultural transformation that was vividly realized in the development and widespread use of new medical technologies. Plastic surgery, wonder drugs, artificial organs, and prosthetics inspired Americans to believe in a new age of modern medical miracles. The nationalistic pride that flourished in postwar society, meanwhile, encouraged many Americans to put tremendous faith in the power of medicine to rehabilitate and otherwise transform the lives and bodies of the disabled and those considered abnormal. Replaceable You revisits this heady era in American history to consider how these medical technologies and procedures were used to advance the politics of conformity during the 1950s.
Proven strategies for reforming STEM education in America’s schools, colleges, and universities. One study after another shows American students ranking behind their international counterparts in the STEM fields—science, technology, engineering, and math. Businesspeople and cultural critics such as Bill Gates warn that this alarming situation puts the United States at a serious disadvantage in the high-tech global marketplace of the twenty-first century, and President Obama places improvement in these areas at the center of his educational reform. What can be done to reverse this poor performance and to unleash America’s wasted talent? David E. Drew has good news—and the tools America needs to keep competitive. Drawing on both academic literature and his own rich experience, Drew identifies proven strategies for reforming America’s schools, colleges, and universities, and his comprehensive review of STEM education in the United States offers a positive blueprint for the future. These research-based strategies include creative and successful methods for building strong programs in science and mathematics education and show how the achievement gap between majority and minority students can be closed. A crucial measure, he argues, is recruiting, educating, supporting, and respecting America’s teachers. Accessible, engaging, and hard hitting, STEM the Tide is a clarion call to policymakers, administrators, educators, and everyone else concerned about students’ participation in the STEM fields and America’s competitive global position.
The engineering ideas behind key twentieth-century technical innovations, from great dams and highways to the jet engine, the transistor, the microchip, and the computer. Technology is essential to modern life, yet few of us are technology-literate enough to know much about the engineering that underpins it. In this book, David P. Billington, Jr., offers accessible accounts of the key twentieth-century engineering innovations that brought us into the twenty-first century. Billington examines a series of engineering advances--from Hoover Dam and jet engines to the transistor, the microchip, the computer, and the internet--and explains how they came about and how they work.