Christian Hill is a physicist and physical chemist with over twenty-five years' experience in scientific programming, data analysis and database design in atomic and molecular physics. Currently the Head of the Atomic and Molecular Data Unit at International Atomic Energy Agency, Vienna, he has previously held positions at the University of Cambridge, the University of Oxford, and University College London.
'This book is a very useful addition to the library of python books, and is squarely directed at chemists, covering all the main aspects of python that they will find useful, without getting bogged down in programming detail. The clear focus on chemistry examples from the start means that students will be able to quickly perform useful, Python-based tasks without having to invest time in learning abstract syntax. Python for chemists will be a valuable resource for chemists who wish to add an element of programming to their skills base.' John McGrady, University of Oxford 'I used the author's previous book, 'Learning Scientific Programming with Python' as the textbook for my course for senior undergraduate and beginning graduate students in chemistry. This new book is targeted specifically towards chemistry and includes many new and useful examples and applications. The least squares optimization examples are particularly well-suited to advanced physical chemistry spectroscopy experiments and I like the way the individual topics are split into manageable bite-sized chapters. Overall, this will be a very useful book as a reference for researchers and instructors, advanced undergraduates and graduate students who need to learn modern numerical computation, data analysis, and graphical presentation techniques.' Trevor Sears, Stony Brook University 'The ability to write code is becoming an essential skill for chemistry students. Python is widely used in chemistry research and is increasingly taught in undergraduate courses, but it has lacked a comprehensive textbook tailored to chemistry students. Python for Chemists addresses this need by providing detailed coverage of the basics of the Python language and presenting a range of practical examples across the standard chemistry syllabus. This book will be useful for undergraduate and graduate students interested in learning and using Python in their studies and research and for instructors looking to teach Python in a chemistry context.' Benjamin J. Morgan, University of Bath