Friday, March 7, 2008

Happy Birthday!

Happy birthday to the 4th edition of Intermediate Physics for Medicine and Biology! Determining the precise date to celebrate is difficult, but one year ago this week (March 2) I received an email from my coauthor Russ Hobbie saying that an advance copy of our textbook had arrived at his house. This first anniversary is an appropriate time to thank all our readers for their support and encouragement. Without our dear readers, writing our book would have been a pointless exercise. Russ and I have heard from several instructors who are using our text for a class on biological or medical physics. We are grateful that you chose our book for your class. To the students in those classes, we hope we’ve not caused you too much grief. To all of you who have offered your kind words and compliments, they are greatly appreciated. And a special thank you to those who have pointed out and helped us correct mistakes. You can find a list of known mistakes, and other information, at the book’s website.

Two weeks ago another landmark passed unnoticed. February 21 was the 6-month anniversary of this blog. I will keep posting weekly entries as long as I have anything useful to say (and perhaps longer). I hope the blog has served as a valuable supplement to the book.

Friday, February 29, 2008

Even More from the Preface

From the preface of the 3rd edition of Intermediate Physics for Medicine and Biology, written by Russ Hobbie:
Because the book is intended primarily for students who have taken only one year of physics, I have tried to adhere to the following principles in writing it:

1. Calculus is used without apology...

2. The reader is assumed to have taken physics and to know the basic vocabulary...

3. I have not intentionally left out steps in most derivations....

4. Each subject is approached in as simple a fashion as possible...

Friday, February 22, 2008

Teaching Biological Physics

The March 2005 issue of the magazine Physics Today contains an article by Goldstein, Nelson and Powers about “Teaching Biological Physics.” Many of the ideas they champion apply to classes taught from the 4th edition of Intermediate Physics for Medicine and Biology. Goldstein et al. write
Over the past few years, people trained in physics and working in physics departments have taken an unprecedented interest in biological problems. A host of new experimental and theoretical techniques has opened up the quantitative study of systems ranging from single molecules to networks of simple agents performing complex collective tasks. Many departments have begun aggressive programs to hire faculty into the emerging field of biological physics. Engineering departments, too, are investing in the interface of the life and physical sciences, both in bioengineering and in related areas such as chemical engineering, solid mechanics, and materials.

Not surprisingly, the new faculty members, like their colleagues, are interested in teaching subjects that excite them. Meanwhile, physical-science students are beginning to demand courses relevant to the life sciences. And high-level reports such as the National Research Council's Bio2010 have emerged to stress the importance of quantitative, physics-based thinking for future life scientists...

Friday, February 15, 2008

Mathematical Handbooks

The 4th edition of Intermediate Physics for Medicine and Biology assumes mathematical knowledge through calculus. Some of our readers with a weak math background may wonder where they can look to brush up on long-forgotten facts and formulas. The obvious starting place is the textbook you learned your calculus from. (I hope you are not the type of person who sells their textbooks back to the book store at the end of the semester.) Another place is the appendices in our book, which review many mathematical topics. For those who may need a bit more help, I have the following advice.

Mathematical Handbook for Formulas and Tables, superimposed on Intermediate Physics for Medicine and Biology.
Mathematical Handbook
for Formulas and Tables.
If you want an inexpensive, light-weight, easy-to-use reference, I suggest  Schaum's Outline: Mathematical Handbook of Formulas and Tables, 2nd Edition, by Murray Spiegel and John Liu. I use it every day, and it has most of the mathematical information you’ll ever need. The handbook has a large table of integrals, and covers trigonometric and hyperbolic functions, series expansions, Laplace transforms, Fourier analysis, Bessel functions, and Legendre polynomials. The one thing the handbook lacks is information on vector calculus in spherical and cylindrical coordinates. I recommend xeroxing Table 1 from Appendix L of our book and taping it to the inside cover of your Schuams Outline.


Handbook of Mathematical Functions, by Abramowtiz and Stegun, superimposed on Intermediate Physics for Medicine and Biology.
Handbook of Mathematical Functions,
by Abramowtiz and Stegun.

For those occasions when I need more extensive information, I turn to the  Handbook of Mathematical Functions: with Formulas, Graphs, and Mathematical Tables, by Abramowitz and Stegun (cited on page 201 of our book). This classic covers many of the same topics as does Schuam’s Outline, but in much more detail. [Note: after posting this blog entry, my graduate student told me that you can download Abramowitz and Stegun online. Look at http://www.math.sfu.ca/~cbm/aands/. Apparently because this book was prepared by employees of the US government, there is no copyright issue to prevent downloading.]
 

Table of Integrals, Series, and Products, by Gradshteyn and Ryzhik, superimposedo n Intermediate Physics for Medicine and Biology.
Table of Integrals, Series, and Products,
by Gradshteyn and Ryzhik.
When you really need an integral but can’t find it anywhere else, I suggest the Table of Integrals, Series, and Products, Seventh Edition by Gradshteyn and Ryzhik. If you cant find the integral there, you probably cant find it anywhere. I have never used the new edition with the CD ROM, but the hardback copy I consult for my most difficult integrals is invaluable. I suggest letting the library buy this one, since you will probably only need it occasionally.

Friday, February 8, 2008

Teaching Medical Physics

In the journal Physics Education (Volume 41, Pages 301–306, 2006) is an article by Gibson, Cook, and Newing about “Teaching Medical Physics.” They write
Medical Physics provides immediate and accessible examples that can assist in the teaching of a range of science subjects. To help teachers, we have produced a teaching pack that will be sent to all UK secondary schools in June 2006 and will be available from www.teachingmedicalphysics.org.uk. Here we discuss the advantages of teaching using applications drawn from Medical Physics, careers in Medical Physics, and some sources of other Medical Physics-related teaching resources.
Their website contains many excellent color pictures and videos that could be used to augment our static, black and white 4th edition of Intermediate Physics for Medicine and Biology. They aim for a lower level and younger audience and than we do in our book, but their power-point presentations might be useful supplementary aids when introducing some of the topics covered in our text.

Friday, February 1, 2008

The American Journal of Physics

What is my favorite physics journal? Undoubtedly it is the American Journal of Physics. Russ Hobbie and I cite many AJP papers in the 4th edition of Intermediate Physics for Medicine and Biology. In fact, Russ has published over a dozen items in that most wonderful of journals. (I’m still looking for an opportunity to publish something there.) What is my favorite AJP paper of all time? That would be Edward Purcells “Life at Low Reynolds Number” (Volume 45, Pages 3–11, 1977). I hand out copies of this paper to my students whenever I teach Chapter 1 of our book, where we discuss the Reynolds number and its role in biology and medicine.

Friday, January 25, 2008

More on "Medical Physics: the Perfect Intermediate Level Physics Class"

Nelson Christensen's article “Medical Physics: the Perfect Intermediate Level Physics Class” (European Journal of Physics, Volume 22, Pages 421–427, 2001) contains a section devoted to textbooks (see my October 5 blog entry for more on Christensen’s paper). He writes
There are numerable good sources and books that one may draw upon for a course like this, however we found no text that covered all of the topics we wanted. Our class primarily used Intermediate Physics for Medicine and Biology (3rd edn) by Hobbie [1]. This book covers a wide array of topics, and has a large number of problems to draw from. The level of the text was, at times, too advanced for undergraduates, and more suitable to graduate students in biomedical engineering. The book also lacks detailed examinations of imaging techniques, especially ultrasound.
Well, the 4th edition contains a new chapter on Sound and Ultrasound. If Christensen liked the “large number of problems,” he’s going to love having 44% more problems in the latest edition. Is the book at times too advanced for undergraduates? The level didnt change much between the 3rd and 4th editions. We tried to aim the text toward upper level undergraduates. You’ll have to decide for yourself if we hit the mark.

Friday, January 18, 2008

Term Papers

My friend and the senior author of Intermediate Physics for Medicine and Biology, Russ Hobbie, sent me this blog entry to share with you all:
One of the motivations for developing the course that led to this book is the huge gap between a general physics course and the research literature. Often when I was teaching this course, I had students write a term paper instead of a final exam. The term paper was to take a paper from the research literature and fill in the missing steps. Students selected a candidate research paper early in the term and gave it too me for approval. They could come to me as often as necessary for help understanding the research. The last week of the term they turned in both the research paper and term paper and scheduled a half-hour “oral exam” with me a couple of days later. They knew that I would ask them questions about anything I suspected they did not really understand. I had a grading algorithm that assigned points for the difficulty of the research paper, the clarity of the term paper, and my assessment of how well they understood the research based on the oral exam. I had a lot of informal visits by students the week before the term paper was due. Students seemed to learn a lot, and some of these papers became paragraphs or problems in later editions of our book.

Friday, January 11, 2008

Point/Counterpont

When teaching Medical Physics at Oakland University, I have found an excellent way to expose students to current issues in the field: discuss “Point/Counterpoint” articles from the journal Medical Physics, published by the American Association of Physicists in Medicine. Each issue of Medical Physics contains one 3- or 4-page article discussing a fascinating but controversial claim. The format of each Point/Counterpoint article is a debate between two leading medical physicists (something like the old 60 Minutes TV show segment with the same title, parodied so hilariously on Saturday Night Live.) For instance, the January 2008 issue of Medical Physics debates if “Exposure Limits for Emergency Responders Should be the Same as the Prevailing Limits for Occupational Radiation Workers.” My students seem to enjoy the lively style of these articles, and they have to learn enough medical physics to understand the science and vocabulary underlying the debate. I typically spend 15 minutes discussing one article every Friday afternoon. The Point/Counterpoint articles are a great way to augment our textbook, Intermediate Physics for Medicine and Biology, in a Medical Physics class.

Note added March 2, 2008: You can now download a publication titled Controversies in Medical Physics from http://www.aapm.org/ that contains ten years of Point/Counterpoint articles.

Friday, January 4, 2008

More from the Preface

From the preface of the 3rd edition of Intermediate Physics for Medicine and Biology, written by Russ Hobbie.
This book... is intended to serve as a text for an intermediate course taught in a physics department and taken by a variety of majors. Since its primary content is physics, I hope that physics faculty who might shy away from teaching a conventional biophysics course will consider teaching it. I also hope that research workers in biology and medicine will find it a useful reference to brush up on the physics they need or to find a few pointers to the current literature in a number of areas of biophysics. (The bibliography in each chapter is by no means exhaustive; however, the references should lead you quickly into a field.) The course offered at the University of Minnesota is taken by undergraduates in a number of majors who want to see more physics with biological applications and by graduate students in physics, biophysical sciences, biomedical engineering, physiology, and cell biology.