Book contents
- Frontmatter
- Contents
- Preface and acknowledgements
- 1 Introduction
- Case Study I The origins of Newton's laws of motion and of gravity
- Case Study II Maxwell's equations
- Case Study III Mechanics and dynamics – linear and non-linear
- Case Study IV Thermodynamics and statistical physics
- Case Study V The origins of the concept of quanta
- 11 Black-body radiation up to 1895
- 12 1895–1900: Planck and the spectrum of black-body radiation
- 13 Planck's theory of black-body radiation
- 14 Einstein and the quantisation of light
- 15 The triumph of the quantum hypothesis
- Case Study VI Special relativity
- Case Study VII General relativity and cosmology
- Index
11 - Black-body radiation up to 1895
Published online by Cambridge University Press: 05 June 2012
- Frontmatter
- Contents
- Preface and acknowledgements
- 1 Introduction
- Case Study I The origins of Newton's laws of motion and of gravity
- Case Study II Maxwell's equations
- Case Study III Mechanics and dynamics – linear and non-linear
- Case Study IV Thermodynamics and statistical physics
- Case Study V The origins of the concept of quanta
- 11 Black-body radiation up to 1895
- 12 1895–1900: Planck and the spectrum of black-body radiation
- 13 Planck's theory of black-body radiation
- 14 Einstein and the quantisation of light
- 15 The triumph of the quantum hypothesis
- Case Study VI Special relativity
- Case Study VII General relativity and cosmology
- Index
Summary
The state of physics in 1890
In the course of the case studies treated so far, we have been building up a picture of the state of physics and theoretical physics towards the end of the nineteenth century. The achievement had been immense. In mechanics and dynamics, the Lagrangian and Hamiltonian dynamics described briefly in Chapter 7, were well understood. In thermodynamics, the first and second laws were firmly established, largely through the efforts of Clausius and Lord Kelvin, and the full ramifications of the concept of entropy in classical thermodynamics were being elaborated. In Chapters 5 and 6, we described how Maxwell derived the equations of electromagnetism. Hertz's experiments of 1887–9 demonstrated beyond any shadow of doubt that, as predicted by Maxwell, light is a form of electromagnetic wave. This discovery provided a firm theoretical foundation for the wave theory of light, which could account for virtually all the known phenomena of optics.
The impression is sometimes given that most physicists of the 1890s believed that the combination of thermodynamics, electromagnetism and classical mechanics could account for all known physical phenomena and that all that remained to be done was to work out the consequences of these hard-won achievements. In fact, it was a period of ferment when there were still many fundamental unresolved problems which exercised the greatest minds of the period.
We have discussed the ambiguous status of the kinetic theory of gases and the equipartition theorem as expounded by Clausius, Maxwell and Boltzmann.
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- Theoretical Concepts in PhysicsAn Alternative View of Theoretical Reasoning in Physics, pp. 283 - 302Publisher: Cambridge University PressPrint publication year: 2003
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