This book presents the entire contents of most social science research methods courses in the form of a practical how-to guide. Topics covered range from basic concepts about scientific method to implementation and completion.
Practical. Interactive. Engaging. This book provides an imaginative alternative to doing research methods. With visual prompts and easy-to-follow activities, it will help you understand the basic foundations of the research process in bite-sized pieces that suit your way of learning. Including activities such as word searches, crosswords, spider charts and puzzles, this book will help you gain a wider understanding of how, and why, specific research methods are used. Complete with a variety of learning features, this book will: Build your understanding of the core principles of research. Help you to interpret different methods and their practicalities. Aid you in identifying your weakness and adapting useful techniques to combat these. Stand as a visual toolkit that sets content out in bite-sized pieces. Perfect for beginners, this user-friendly guide will give you a deeper understanding of research methods through action, images, and visualization.
This book is an elaboration of the author's lecture notes in a graduate course in statistical physics and thermodynamics, augmented by some material suitable for self-teaching as well as for undergraduate study. The first 4 or 5 chapters are suitable for an undergraduate course for engineers and physicists in Thermodynamics and Statistical Physics and include detailed study of the various ensembles and their connections to applied thermodynamics. The Debye law of specific heats and reasons for deviations from the Debye formulas are covered, as are the Einstein theories of Brownian motion, black-body radiation and specific heat of solids. Van der Waals gases and the reason for the apparent failure of his Law of Corresponding States are discussed. The last 5 chapters treat topics of recent interest to researchers, including: the Ising and Potts models, spin waves in ferromagnetic and anti-ferromagnetic media, sound propagation in non-ideal gases and the decay of sound waves, introduction to the understanding of glasses and spin glasses, superfluidity and superconductivity. The selection of material is wide-ranging and the mathematics for handling it completely self-contained, ranging from counting (probability theory) to quantum field theory as used in the study of fermions, bosons and as an adjunct in the solutions of the equations of classical diffusion-reaction theory. In addition to the standard material found in most recent books on statistical physics the constellation of topics covered in this text includes numerous original items: • Generalization of “negative temperature” to interacting spins • Derivation of Gibbs' factor from first principles • Exact free energy of interacting particles in 1D (e.g., classical and quantum Tonk's gas) • Introduction to virial expansions, Equations of State, Correlation Functions and “critical exponents” • Superfluidity in ideal and non-ideal fluids (both Bogolubov and Feynman theories) • Superconductivity: thermodynamical approach and the BCS theory • Derivation of “Central Limit Theorem” and its applications • Boltzmann's “H-Theorem” and the nonlinear Boltzmann equation • Exact solution of nonlinear Boltzmann Equation for electrons in time-dependent electric field and the derivation of Joule heating, transport parameters in crossed electric and magnetic fields, etc. • Frequency spectrum and decay of sound waves in gases • Exact evaluation of free energy and thermodynamic properties of the two-dimensional Ising model in regular and fully frustrated (spin-glass like) lattices • The “zipper” model of crystal fracture or polymer coagulation — calculation of Tc • Potts model in 2D: duality and Tc • “Doi's theory” of diffusion-limited chemical reactions with some exact results — including the evaluation of statistical fluctuations in radioactive decay • Thermodynamic Green Functions and their applications to fermions and bosons with an example drawn from random matrix theory and much more.
For students old and new, Brain and Mind Made Simple makes sense of the brain, mind and consciousness. The book is packed with examples, patient histories and explanations, exploring for instance the strange case of Phineas Gage who survived brain injury but with a new personality. An expert, scientific and highly accessible guide. Most people know David Nutt as the UK’s sacked Drug Czar – ‘kicked out’ for speaking truth to power i.e. that UK policy on drugs and alcohol was not fit for purpose, driven by politics not science. But in a life outside politics Nutt is an academic, psychiatrist and researcher who studies the brain to help understand how it goes awry in mental and neurological illnesses. A few years ago, before Covid, he started giving public lectures explaining how the brain works and how alterations of the mind can occur as a result of changes in brain function. They were extremely popular — usually over 150 people at each — with lots of questions. So, he decided to write up the lectures in this book for the general public, and anyone else with an interest in the field, especially university students of psychology, medicine and neuroscience. As well as educating these groups, all royalties from Brain and Mind Made Simple will help support the charity Drug Science that David Nutt set-up after his sacking to continue to promote the cause of bringing scientific evidence to improve drug policy.
This title was first published in 2002: This is an attempt to simplify the initial study of classification as used for information retrieval. The text adopts a gradual progression from very basic principles, one which should enable the reader to gain a firm grasp of one idea before proceeding to the next.
Nutrition is a complicated subject. This book, divided into 40 short chapters, makes it simple. "An outstanding compilation of nutrition information. I consider it to be one of the seminal books in nutrition".--Brian Leibovitz, Ph.D., editor of Journal of Optimal Nutrition.
Not Another Diet Book! The Glycemic Index (GI) is a scientifically proven tool that will revolutionize your approach to weight loss. Forget fad diets, depriving yourself, and counting calories-a low glycemic diet is simple to follow, satisfying, and it will give you results that you can see and feel. Sherry Torkos, a pharmacist, fitness instructor, and natural health expert has created an easy-to-follow action plan that will help you to lose weight, reduce food cravings, control appetite, and boost energy while you impro9ve your health. In this book you will learn about: Diabetes, metabolic syndrome, and heart disease: how to lower risk using the GI The impact of blood sugar and insulin on weight loss, aging, and sexual function How stress, sleep, and hormone imbalances affect body fat Holiday and restaurant survival strategies Smart supplements for blood sugar control and weight loss Tips on creating an effective exercise program The GI Made Simple is a Valuable resource for everyone./ Whether you want to lose weight, have more energy and greater vitality, or cut your risk of chronic health problems, this is a must-have book.
A step by step method for understanding (mapping) your organization and developing meaningful enterprise metrics and then using those metrics to lead the organization and continually improve.