Synopses & Reviews
A textbook for undergraduates carrying out laboratory experiments in the physical sciences. The author's aim is to make practical classes more enjoyable.
Review
"...a very useful book. It is concise and lucid and designed to be taken into the laboratory and consulted there. The book covers random and systematic errors, variance and Gaussian distributions, and least squares fitting for the determination of parameters. The tone is accessible and user-friendly, but the ground is covered quite quickly, making this a valuable contribution to the education of physics undergraduates." Lewis Ryder, Times Higher Education Supplement"The author...aims to demystify experimental error estimates and to `enable you to realise when your calculations have yielded ridiculous answers.' He succeeds in this accessible, easy to read, no-nonsense volume which I highly recommend as a companion to laboratory classes for undergraduates....The examples used throughout the book are practical and often very imaginative. These include experiments on electrical circuits, radioactive decay, and the measurement of speed by police radar." Deborah Poirier, Physics in Canada
Table of Contents
Preface; Glossary; 1. Experimental errors; 1.1. Why estimate errors?; 1.2. Random and systematic errors; 1.3. Distributions; 1.4. Mean and variance; 1.5. Gaussian distribution; 1.6. The meaning of s; 1.7. Combining errors; 1.8. Systematic errors; 1.9. An example including random and systematic errors; 1.10. Combining results of different experiments; 1.11. Worked examples; 1.12. Does it feel right?; 2. Least squares fitting; 2.1. What are we trying to do; 2.2. Weighted sum of squares; 2.3. Determining the parameters; 2.4. The error on the gradient and the intercept; 2.5. Other examples; 2.6. Observed numbers; 2.7. Parameter testing; 2.8. Distribution testing; 2.9. Worked example of a straight line fit; 2.10. Summary of straight line fitting; Problems; Appendices.