I've been working on some projects lately where it would be very handy to know more about thermodynamics than I do, but sadly I never had a chance to take a proper thermodynamics course in college. Unfortunately, right now I don't have the time to work through a 500-600 page undergraduate text on the subject. Can anyone recommend a book/online resource/PDF that perhaps gives a (calculus based) broad overview of classical thermodynamics, say in something less than 200 pages?
I always loved Callen's Thermodynamics. In 200-250 pages you get the whole structure of thermodynamics more clearly than anywhere else. And it is wonderfully written, a fun and easy read. When I was in college I essentially studied these pages in a long weekend. Of course back in those days I had the time to fully concentrate on a single thing.
Have a look at my paper Phenomenological thermodynamics , which summarizes the core of thermodynamics in 18 pages, essentially starting from scratch. (A preliminary version of it is in Chapter 7 of my online book 2, and can be read independent of the remainder of the book.)
Understanding this is enough to enable you to understand the articles in Wikipedia (start here) on states of matter, phase transitions, and other thermal phenomena.
"Thermal Physics" by Finn is a small and excellent book, and suits what the question is looking for. It's a great first book to read on Thermodynamics. It has lots of calculations worked out nicely. Moreover it has plenty of good diagrams.
It is slightly longer than you want, at 270 pages, but it's tiny, only A5 or so, so you'll get through it in not too long.
I think The physics department Thermodynamics course based on this book was 2.5 ECTS worth and took 18 lectures.
It's also quite cheap, which is a plus!
A list of topics (taken from amazon) [I don't really know what the point of this is, since I have no doubt in your ability to search amazon, but it's in the rules...] is
- Reversible Proceses and Work
- The First Law of Thermodynamics
- The Second Law of Thermodynamics
- The Thermodynamic Potentials & the Maxwell Relations
- Some General Thermodynamic Relations
- Magnetic Systems, Radiation, Rubber Bands & Electrolyte Cells
- Change of Phase
- Open Systems & Chemical Potential
- The Third Law of Thermodynamics
Apendix A - Values of Physical Constants and Conversion Factors Apendix B - Some Mathematical Relations Used In Thermodynamics Apendix C - The Work Required To Magnetise A Magnetic Material & To Polarise A Dielectric Apendix D - Questions Apendix E - Answers To Questions Apendix F - Further Reading
There are some excellent recommendations above, but the best introduction to classical thermodynamics I've found is the first 70 pages of J. S. Dugdale's Entropy and its Physical Meaning.
He follows the historical development of the subject, including page long quotes from the likes of Fahrenheit, Joule and Carnot. He develops the idea of the Carnot engine, and uses it to show the existence of a new state variable, called the entropy, which he shows is always increasing.
It's readable, logically very clear, and historically interesting. My only complaint would be it doesn't cover much beyond the absolute basics. In many respects, it complements Callen's text perfectly: Dugdale gives all the historical details and phenomenological, experimental motivation for the basic ideas of thermodynamics, Callen takes these as postulates and shows their wondrous power.