by R. Glazebrook, N. Shaw
Publisher: Longmans 1889
Number of pages: 522
This book is intended for the assistance of Students and Teachers in Physical Laboratories. Our general aim in the book has been to place before the reader a description of a course of experiments which shall not only enable him to obtain a practical acquaintance with methods of measurement, but also as far as possible illustrate the more important principles of the various subjects.
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by G.F.C. Searle - Cambridge University Press
G. F. C. Searle made notable contributions to the development of laboratory physics and theories of electromagnetic mass. This book was based on the notes prepared by Searle for his practical physics classes at the Cavendish Laboratory, Cambridge.
by Philip Ilten - arXiv
The book is intended to complement the UCD first year laboratory manuals, but can also be read independently. The book spans a wide range of subjects, beginning with experimental techniques, moving onto classical mechanics, touching on EM, and more.
by J. C. Lemm - arXiv.org
A particular Bayesian field theory is defined by combining a likelihood model, providing a probabilistic description of the measurement process, and a prior model, providing the information necessary to generalize from training to non-training data.
by R. W. Schnee - arXiv.org
This is a set of lectures presented at the Theoretical Advanced Study Institute 2009. I provide an introduction to experiments designed to detect WIMP dark matter directly, focusing on building intuitive understanding of the potential WIMP signals.