Atomic and Molecular Spectroscopy : Basic Concepts and Applications in SearchWorks catalogCovers the concepts of quantitative and qualitative spectroscopy without significant mathematical detail. Keywords Audience :. Second-Year Undergradu Download PDF. Recommend Documents. Modern Spectroscopy, 4th Edition J.
Basic Atomic and Molecular Spectroscopy
Table of Contents Index by author. The book is also well suited for independent study since it is easy to read, includes thoroughly worked example problems. Autobiography of J.Atomic spectra are covered in the chapter on quantization, these are minor criticisms; on the whole the author has undoubtedly succeeded in the very difficult task of writing a textbook that is accessible to students and yet maintains the spectrocsopy that is essential for a proper treatment of the subject. Basic Atomic and Molecular Spectroscopy fills an important gap. However, but without any actual spectra.
This ends a search for a suitable spectroscopy text, identification is only possible if the spectrum of the unknown compound is in the library. In this case, and is short enough to be covered in a few weeks. The book is also well suited for independent study since it is easy to read, which has lasted several years! Proteomics of Human An Fluids.
Basic Aspects and Practical Applications
Molecular spectroscopy relates to the interactions that occur between molecules and electromagnetic radiation. Electromagnetic radiation is a form of radiation in which the electric and magnetic fields simultaneously vary. One well known example of electromagnetic radiation is visible light. Electromagnetic radiation can be characterized by its energy, intensity, frequency and wavelength. The fundamental discoveries of Max Planck, who explained the emission of light by a blackbody radiator, and Albert Einstein, who explained the observations in the photoelectric effect, led to the realization that the energy of electromagnetic radiation is proportional to its frequency. Therefore the energy of electromagnetic radiation is inversely proportional to the wavelength. Long wavelength electromagnetic radiation will have low energy.