Background
Dewar, Michael James Steuart was born on September 24, 1918 in Ahmednagar, India. Son of Francis and Nan (Keith) Dewar. came to the United States, 1959, naturalized, 1980.
(This textbook introduces the perturbation molecular orbit...)
This textbook introduces the perturbation molecular orbital (PMO) th,eory of organic chemistry. Organic chemistry encompasses the largest body of factual information of any of the major divisions of science. The sheer bulk of the subject matter makes many demands on any theory that attempts to systematize it. Time has shown that the PMO method meets these demands admirably. The PMO method can provide practicing chemists with both a pictorial description of bonding and qualitative theoretical results that are well founded in more sophisticated treatments. The only requirements for use of the theory are high school algebra and a pencil and paper. The treatment described in this book is by no means new. Indeed, it was developed as a complete theory of organic chemistry more than twenty years ago. Although it was demonstrably superior to resonance theory and no more complicated to use, it escaped notice for two very simple reasons. First, the original papers describing it were very condensed, perhaps even obscure, and contained few if any examples. Second, for various reasons, no general account appeared in book form until 1969,* and this was still relatively inaccessible, being in the form of a monograph where molecular orbital (MO) theory was treated mainly at a much more sophisticated level. The generality of the PMO method is illustrated by the fact that all the new developments over the last two decades can be accommodated in it.
http://www.amazon.com/gp/product/0306200104/?tag=2022091-20
(This textbook introduces the perturbation molecular orbit...)
This textbook introduces the perturbation molecular orbital (PMO) th,eory of organic chemistry. Organic chemistry encompasses the largest body of factual information of any of the major divisions of science. The sheer bulk of the subject matter makes many demands on any theory that attempts to systematize it. Time has shown that the PMO method meets these demands admirably. The PMO method can provide practicing chemists with both a pictorial description of bonding and qualitative theoretical results that are well founded in more sophisticated treatments. The only requirements for use of the theory are high school algebra and a pencil and paper. The treatment described in this book is by no means new. Indeed, it was developed as a complete theory of organic chemistry more than twenty years ago. Although it was demonstrably superior to resonance theory and no more complicated to use, it escaped notice for two very simple reasons. First, the original papers describing it were very condensed, perhaps even obscure, and contained few if any examples. Second, for various reasons, no general account appeared in book form until 1969,* and this was still relatively inaccessible, being in the form of a monograph where molecular orbital (MO) theory was treated mainly at a much more sophisticated level. The generality of the PMO method is illustrated by the fact that all the new developments over the last two decades can be accommodated in it.
http://www.amazon.com/gp/product/1461344069/?tag=2022091-20
(This textbook introduces the perturbation molecular orbit...)
This textbook introduces the perturbation molecular orbital (PMO) th,eory of organic chemistry. Organic chemistry encompasses the largest body offactual information of any of the major divisions of science. The sheer bulk of the subject matter makes many demands on any theory that attempts to systematize it. Time has shown that the PMO method meets these demands admirably. The PMO method can provide practicing chemists with both a pictorial description of bonding and qualitative theoretical results that are well founded in more sophisticated treatments. The only requirements for use of the theory are high school algebra and a pencil and paper. The treatment described in this book is by no means new. Indeed, it was developed as a complete theory of organic chemistry more than twenty years ago. Although it was demonstrably superior to resonance theory and no more complicated to use, it escaped notice for two very simple reasons. First, the original papers describing it were very condensed, perhaps even obscure, and contained few if any examples. Second, for various reasons, no general account appeared in book form until 1969,* and this was still relatively inaccessible, being in the form of a monograph where molecular orbital (MO) theory was treated mainly at a much more sophisticated level. The generality of the PMO method is illustrated by the fact that all the new developments over the last two decades can be accommodated in it.
http://www.amazon.com/gp/product/1461357055/?tag=2022091-20
(Computer Compilation of Molecular Weights and Percentage ...)
Computer Compilation of Molecular Weights and Percentage Compositions for Organic Compounds presents the outputs of computer programs that calculate the molecular weights and percentage compositions of organic compounds. The data presented in the text only covers compounds containing carbon, hydrogen, and heteroatoms, while the elements covered are bromine, chlorine, fluorine, iodine, nitrogen, oxygen, and phosphorus. The calculations of the result were conducted by Control Data Corporation 1604 computer. The book will be of great use to chemists and chemical engineers who need to have a quick access to the data on organic compounds.
http://www.amazon.com/gp/product/148317042X/?tag=2022091-20
Dewar, Michael James Steuart was born on September 24, 1918 in Ahmednagar, India. Son of Francis and Nan (Keith) Dewar. came to the United States, 1959, naturalized, 1980.
Bachelor of Arts, Oxford (England) University, 1940; Doctor of Philosophy, Oxford (England) University, 1942; Master of Arts, Oxford (England) University, 1943.
Fellow, Oxford University 1945. Physical Chemist, Courtaulds Limited. 1945-1951; Professor, of Chemistry and Head of Department, University of London, Queen Mary College 1951-1959.
Professor, of Chemistry, Chicago University 1959-1963.
Robert A. Welch Professor, of Chemistry, University of Texas in Austin 1963-1990. Graduate. Research Professor University of Florida since 1990.
Fellow, Royal Society and American Academy, of Arts and Sciences. Lecturer, Notre Dame University 1951.
Tilden Lecturer, Chemical Society 1954.
Visiting Professor, Yale University 1957. Honorary-Secretary Chemical Society 1957-1959. Harrison Howe; Lecturer, Columbia University 1963.
Daines Lecturer, University of Kansas 1963.
Glidden Company Lecturer, Western Reserve University 1964. William Pyle Philips Visitor, Haverford College 1964.
Arthur Doctorate. Little Visiting Professor, Massachusetts Institute of Technology 1966. Marchon Visiting Lecturer, Newcastle upon Tyne, England 1966.
Glidden Company Lecturer, Kent State University 1967.
Grehn Lecturer, Eid Technology Hochschule, Zurich, 1968. Barton Lecturer, University of Oklahoma 1969; Benjamin Rush Lecturer, University of Pennsylvania 1971.
Kahlbaum Lecturer, University of Basel 1970.
William Pyle Philips Visitor, Haverford College 1970. Distinguished Visiting Lecturer, Yeshiva University 1970.
Kharasch Visiting Professor, Chicago 1971. Venable Lecturer, University of North Carolina 1971.
Phi Lambda Upsilon Speaker, Johns Hopkins University 1972.
Firth Visiting Professor, Sheffield University, England, 1972. Foster Lecturer, State University of New York at Buffalo, 1973. Five College Chemistry Lecturer, Mountain.
Holyoke, Hampshire, Amherst, Smith Colleges, University of Massachusetts, 1973.
Robert Robinson Lecturer of the Chemistry Society 1974. Special Lecturer, University London 1974.
Sprague Lecturer University Wisconsin 1974. Distinguished Bicentennial Professor, University of Utah 1976.
Bircher Lecturer, Vanderbilt University, 1976.
Pahlavi Lecturer, Iran 1976. Michael Faraday Lecturer, Northern 111. University 1977, Priestley Lecturer, Pennsylvania
State University 1981.
Research Scholar Lecturer, Drew University 1984. J. Clarence Karcher Lecturer, University of Oklahoma
1984. Charles A. Cowson Lecturer, University of Georgia 1988.
Honorary Fellow Balliol College, Oxford 1974. G. West. Wheland Memorial.
(Computer Compilation of Molecular Weights and Percentage ...)
(This volume is an autobiography of Michael Dewar, eminent...)
(This textbook introduces the perturbation molecular orbit...)
(This textbook introduces the perturbation molecular orbit...)
(This textbook introduces the perturbation molecular orbit...)
(This textbook introduces the perturbation molecular orbit...)
(Additional Editor Charles C. Price.)
(Additional Editor Charles C. Price.)
(WRITTEN BY MICHAEL J.S.DEWAR F.R.S.)
Fellow American Academy Art and Sciences, Royal Society (Davy medal 1982), Chemical Society London. Member National Academy of Sciences, American Chemical Society (Harrison Howe award 1961, Auburn-G.M. Kosolapoff award 1988, Computers in Chemistry award 1994).
Son of Francis and Nan (Keith) D. M. Mary Williamson, June 3, 1944. Children: Robert Berriedale Keith, Charles Edward Steuart.