Unit 5. My scientific interests
Warm-up
Degree work / research / thesis / Paper Scientific / research project Research laboratory Scientific adviser To conduct an experiment Theoretical study The purpose of my work is… | Дипломная работа Научный / исследовательский проект Исследовательская лаборатория Научный руководитель Проводить эксперимент Теоретическое изучение Цель моей работы – … |
1. What branch of science are you most interested in? Why?
2. What is the value of science?
3. What does science serve for?
4. How has science changed our / your life?
5. What are the most challenging subjects of your sphere of science?
1. When did you start being interested in science?
2. Who influenced your interest in science? Share your recollections if possible.
3. What are the main qualities a person needs to become a scientist?
Ask Dr. H: “Who Do You Credit For Your Scientific Interests?”
Dr. Holdren delivered the 9th Annual Peter M. Wege Lecture on Sustainability at the University of Michigan, March 22, 2010 (John P. Holdren is Assistant to the President for Science and Technology and Director of the White House Office of Science and Technology Policy).http://www.whitehouse.gov/blog/2010/05/21/ask-dr-h-who-do-you-credit-your-scientific-interests
From the earliest age about which I can remember much—three and a half or four—I was curious about how machines work, how nature works, and how society works. My mother, Virginia Holdren, was a voracious reader of both fiction and nonfiction and turned me into the same. (She made a weekly trip to the library, returning each time with a large shopping bag of books for both of us.) My parents bought me the 1953 edition of the World Book Encyclopedia when I was nine, and over the next two years I read it all from A to Z. I had some superb teachers in the public schools I attended growing up in San Mateo, California, starting with the Beresford Park elementary school where my sixth grade teacher, in particular, Mrs. Azevedo, had an effect on my intellectual growth and ambitions second only to that of my mother. Both of them told me that any career I might want was open to me except music (because I couldn’t hold a tune) and medicine (because I couldn’t stand the sight of blood).
In high school my most inspiring teachers were an algebra teacher, an English teacher, and a Latin teacher. All of them were great at communicating their excitement about their fields in a way that got the students excited about learning … and got some of us, including me, interested in the idea that we might one day want to teach, too. But the high school experience that most shaped my career trajectory was reading two books as a sophomore—C. P. Snow’s THE TWO CULTURES and Harrison Brown’s THE CHALLENGE OF MAN’S FUTURE—that opened my eyes to the proposition that many of the most important challenges facing society could only be understood—and thus could only be met—by combining knowledge from the natural sciences and engineering, from the social sciences, and from the humanities. The challenges they were writing about were poverty, hunger, disease, resource scarcity, conflict, and weapons of mass destruction. It struck me then, and I never changed my mind thereafter, that the most rewarding thing somebody interested equally in natural and social science, technology, and the humanities could do is try to learn enough about all of them to be able to contribute to “putting the pieces together” in the way Snow and Brown argued was needed to address these great, interdisciplinary challenges.
So I ended up at MIT with an aerospace engineering major and a humanities minor in German literature and philosophy, while also taking all the courses for a physics degree but for one lab course. (I had decided, based on a number of exciting experiences, that taking lab courses was dangerous to my health and to that of my classmates.) I had great professors at MIT in all the fields I was interested in, and one of the many things I learned from them was that university teaching is a great job—you get the rewards of teaching combined with opportunities to team with industry on practical problems and to get involved in policy in advisory roles for government. For my PhD at Stanford I worked on a problem in theoretical plasma physics that was germane both to astrophysics and to harnessing fusion energy; I chose that field and that problem both because of the challenging math and physics involved and because there was an application to one of the great societal challenges—providing abundant energy for civilization—that I had become interested in. Through a series of coincidences I also ended up working in parallel with biologists at Stanford (on the causes and consequences of global environmental change) and, through them, meeting life scientists and Earth scientists and social scientists from all around the country who were working on this set of problems in an interdisciplinary way.
After getting my PhD, I worked on fusion energy at the Lawrence Livermore National Lab for a couple of years and then worked at Caltech on problems of energy, environment, and development for a year or so, before getting the chance to start up and teach in an interdisciplinary graduate program in Energy and Resources at the University of California in Berkeley. I spent 23 years there studying and teaching about the scientific and technological and policy dimensions of the challenges the world faces around energy, environment, and international security—just what I’d hoped, when I was in high school, that I could find a way to get paid for doing. I then spent another 13 years doing similar things at Harvard University and the Woods Hole Research Center before having the great good fortune to be tapped by the newly elected President Obama as his science and technology advisor. I had many more great mentors along the way than I’ve taken the space to mention here, and I’m grateful to all of them. The career advice that came from all of the them was the same, and I’m happy to pass it along here: “Think about what you’d really like to do, don’t assume it’s out of reach, work hard to equip yourself for doing it ... and it probably will happen.”
1. Who had the greatest effect on Dr. Holdren’s intellectual growth and ambitions in his childhood?
2. What is the value of interdisciplinary research for Dr.Holdren?
3. Why does Dr. Holdren think that teaching is a great job? Do you agree with him?
4. What problem did Dr. Holdren work on for his PhD?
5. What universities did Dr. Holdren work at after getting his PhD?
6. What was he studying and teaching about before being appointed the Assistant to the President for Science and Technology?
7. How do you understand the career advice Dr. Holdren finishes his lecture with? Do you agree with it?