|Ludwig Boltzmann and co-workers in Graz, 1887.|
Ludwig Boltzmann was born in Vienna as the son of a tax official. He was educated at home as well as in Linz before enrolling at the University of Vienna in 1863. Boltzmann graduated in physics and mathematics three years later and became the assistant to his teacher, Josef Stefan, who was back then the Head of the Physics Institute in the city. Boltzmann completed his dissertation on the Kinetic Theory of Gases, which seemed to presuppose the reality of atoms and molecules, but unfortunately many scientists like Ernst Mach and Wilhelm Ostwald disbelieved their existence, which resulted in long debates.
|Ludwig Boltzmann |
Going back to Graz, Ludwig Boltzmann began developing his statistical concept of nature. Boltzmann's reputation was quite impressive and was known to often defend his theories through lectures across Europe. But unfortunately, his theories were often questioned by philosophers, wherefore Boltzmann himself started studying philosophy in order to combine the subject with his research in physics. And indeed, his lectures in natural philosophy were quite successful. For his talks, the largest lecture halls were chosen and still, people had to stand in the room to follow his words. Still, his work in philosophy was often criticized by contemporary philosophers. He founded the Austrian Mathematical Society in the early 1900s and to some of his most famous students belonged Lise Meitner and Paul Ehrenfest.
However, Ludwig Boltzmann's most important scientific contributions were in kinetic theory. The Maxwell–Boltzmann distribution for molecular speeds in a gas and the Maxwell–Boltzmann statistics as well as the Boltzmann distribution over energies remain the foundations of classical statistical mechanics. They proved to provide a significant insight to the meaning of temperature. Unfortunately, throughout his lifetime, many scientists still doubted the reality of atoms and molecules and Boltzmann went though numerous lively discussions considering the topic. But, shortly after his passing, Jean-Baptiste Perrin's studies of colloidal suspensions, which based on Einstein's theoretical studies of 1905, confirmed the values of Avogadro's number and the Boltzmann's constant. He was finally able to convince the world that the tiny particles really exist. Max Planck then stated that "The logarithmic connection between entropy and probability was first stated by L. Boltzmann in his kinetic theory of gases" and the formula for entropy S = kB lnW (with kB being the Boltzmann constant) was engraved on Boltzmann's tombstone.
At yovisto, you may be interested in a video lecture by Leonard Susskind, introducing Statistical Mechanics.
References and Further Reading:
- Boltzmann's Work in Statistical Physics at Stanford
- Ludwig Boltzmann Society
- Dieter Flamm: Boltzmann - a pioneer of modern physics
- Lise Meitner- The Misjudged Genius
- James Clerk Maxwell and the Electromagnetic Fields
- Carl David Anderson and the Positron