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The Influence of TEM Education on TEM Development
Published online by Cambridge University Press: 14 March 2018
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Learning how to operate the microscope has dominated the TEMteaching process in a way that is perhaps unparalleled by any other common scientific instrument. The TEM column is so complex that the arcane aspects of its manual manipulation become the main points to be learned by the student, rather than the use of the instrument to solve materials problems. In other words, command of the instrument often becomes an end in itself. Such an approach would preach that it is better to be able to produce a striking CDF image that is well aligned and focused than it is to be able to interpret that image in terms of the materials processing responsible for the microstructure!
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- Copyright © Microscopy Society of America 1999
References
Hirsch, P.B, Howie, A., Nicholson, R.B, Pashley, D. W and Whelan, M.J., (1963) Electron Microscopy of Thin Crystals, Butterworths, London; (second edition, 1977), Krieger. NY.Google Scholar
Reiner, L. (1984) Transmission Electron Microscopy, (1st edition) Springer Verlag. NY
Google Scholar
Edington, J, W. (1976) Practical Electron Microscopy in Materials Science, Van Nostrand Reinhold, NYGoogle Scholar
Thomas, G. (1962) Transmission Electron Microscopy, John Wiley & Sons, NY This article is based on a talk given at a symposium on "The Future of Remote Microscopy in Materials Education" at Carnegie-Mellon University, October 25, 1998.Google Scholar
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