FINALIST for the Subaru Prize for Excellence in Science Books

This book shows that chemistry is not just relevant to life; it's really, really interesting.--Foreword Reviews, STARRED review

A perfect book for readers of The Physics of Everyday Things and Storm in a Teacup

Have you ever wondered why your alarm clock sends you spiraling? Or how toothpaste works on your teeth? Why do cakes and cookies sometimes turn out dry? (Hint: you may not be adding enough sugar.) In Chemistry for Breakfast, award-winning chemist and science communicator Mai Thi Nguyen-Kim reveals the amazing chemistry behind everyday things (like baking and toothpaste) and not-so-everyday things (like space travel). With a relatable, funny, and conversational style, she explains essential chemical processes everyone should know--and turns the ordinary into extraordinary.

Over the course of a single day, Mai shows us that chemistry is everywhere: we just have to look for it. In the morning, her partner's much-too-loud alarm prompts a deep dive into biological clocks, fight-or-flight responses, and melatonin's role in making us sleepy. Before heading to the lab, she explains how the stress hormone cortisol helps wake us up, and brews her morning coffee with a side of heat conduction and states of matter.

Mai continues her day with explainers of cell phone technology, food preservation, body odor, baking, the effects of alcohol, and the chemistry behind the expression love drunk. All the while, she shows us what it's really like to be a working chemist, and fights against the stereotype of a nerd playing with test tubes in a lab coat.

Filled with charming illustrations, laughter, and plenty of surprises, Chemistry for Breakfast is a perfect book for anyone who wants to deepen their understanding of chemistry without having prior knowledge of the science. With Mai as your guide, you'll find something fascinating everywhere around you.

This new edition, publishing in the International Year of the Periodic Table, celebrates the completion of the seventh period of the table, with the ratification and naming of elements 113, 115, 117, and 118 as nihonium, moscovium, tennessine, and oganesson. Eric R. Scerri also incorporates new material on recent advances in our understanding of the origin of the elements, as well as developments concerning group three of the periodic table.

ABOUT THE SERIES: The Very Short Introductions series from Oxford University Press contains hundreds of titles in almost every subject area. These pocket-sized books are the perfect way to get ahead in a new subject quickly. Our expert authors combine facts, analysis, perspective, new ideas, and enthusiasm to make interesting and challenging topics highly readable.

Practical approaches to ensure that analytical methods and instruments meet GMP standards and requirements

Complementing the authors' first book, Analytical Method Validation and Instrument Performance Verification, this new volume provides coverage of more advanced topics, focusing on additional and supplemental methods, instruments, and electronic systems that are used in pharmaceutical, biopharmaceutical, and clinical testing. Readers will gain new and valuable insights that enable them to avoid common pitfalls in order to seamlessly conduct analytical method validation as well as instrument operation qualification and performance verification.

• Part 1, Method Validation, begins with an overview of the book's risk-based approach to phase appropriate validation and instrument qualification; it then focuses on the strategies and requirements for early phase drug development, including validation of specific techniques and functions such as process analytical technology, cleaning validation, and validation of laboratory information management systems

• Part 2, Instrument Performance Verification, explores the underlying principles and techniques for verifying instrument performance--coverage includes analytical instruments that are increasingly important to the pharmaceutical industry, such as NIR spectrometers and particle size analyzers--and offers readers a variety of alternative approaches for the successful verification of instrument performance based on the needs of their labs

At the end of each chapter, the authors examine important practical problems and share their solutions. All the methods covered in this book follow Good Analytical Practices (GAP) to ensure that reliable data are generated in compliance with current Good Manufacturing Practices (cGMP).

Analysts, scientists, engineers, technologists, and technical managers should turn to this book to ensure that analytical methods and instruments are accurate and meet GMP standards and requirements.

This book shows that chemistry is not just relevant to life; it's really, really interesting.--Foreword Reviews, STARRED review

A perfect book for readers of The Physics of Everyday Things and Storm in a Teacup

Have you ever wondered why your alarm clock sends you spiraling? Or how toothpaste works on your teeth? Why do cakes and cookies sometimes turn out dry? (Hint: you may not be adding enough sugar.) In Chemistry for Breakfast, award-winning chemist and science communicator Mai Thi Nguyen-Kim reveals the amazing chemistry behind everyday things (like baking and toothpaste) and not-so-everyday things (like space travel). With a relatable, funny, and conversational style, she explains essential chemical processes everyone should know--and turns the ordinary into extraordinary.

Over the course of a single day, Mai shows us that chemistry is everywhere: we just have to look for it. In the morning, her partner's much-too-loud alarm prompts a deep dive into biological clocks, fight-or-flight responses, and melatonin's role in making us sleepy. Before heading to the lab, she explains how the stress hormone cortisol helps wake us up, and brews her morning coffee with a side of heat conduction and states of matter.

Mai continues her day with explainers of cell phone technology, food preservation, body odor, baking, the effects of alcohol, and the chemistry behind the expression love drunk. All the while, she shows us what it's really like to be a working chemist, and fights against the stereotype of a nerd playing with test tubes in a lab coat.

Filled with charming illustrations, laughter, and plenty of surprises, Chemistry for Breakfast is a perfect book for anyone who wants to deepen their understanding of chemistry without having prior knowledge of the science. With Mai as your guide, you'll find something fascinating everywhere around you.

This second edition of Write Like a Chemist has been updated to include new excerpts from the primary literature and other chemistry genres, updated tables and figures that can be consulted for chemistry-specific writing patterns and practices, infographics developed by inChemistry that convey essentials for writing conference abstracts and preparing scientific posters, a scientific poster template and corresponding model poster that can be used for poster creation, and updated exercises and task types. Additional resources for students and instructors have been placed on the Write Like a Chemist companion website, which includes exercises, answer keys, and a separate and secure section with materials for faculty adopting the book for a university course.

The separation of a mixture into its individual components is one of the most fundamental procedures in analytical and industrial chemistry. This classic book in analytical chemistry provides a comprehensive yet systematic outline of all known separation methods. Through its detailed treatment of the basic principles of separation possibilities, it not only covers what is currently known, but also represents a treasure trove of methods that are still awaiting further development. It is clearly structured and contains interesting examples, further reading and a detailed index. An indispensable book for advanced students of natural sciences (chemistry, biochemistry, food chemistry, pharmacy, clinical chemistry, environmental sciences) and technology (chemical engineering, chemical-physical measurement & biotechnology), as well as teachers of these disciplines.

Many methods within the compendium have notation indicating their adoption as harmonized international reference methods by the International Organization for Standardization (ISO), the International Dairy Federation (IDF), the International Union of Pure and Applied Chemistry (IUPAC), and the Codex Alimentarius Commission. This new edition includes new and updated methods approved since 2019

Interested in analysing complex systems? Have you considered nuclear magnetic relaxation studies to derive sound conclusions? Here's how.

Nuclear Magnetic Resonance (NMR) relaxation techniques form a family of powerful tools to study and characterize liquid, solid or semi-solid materials and systems. They provide access to details directly and in wide variable ranges. This book outlines the unparalleled potential of NMR relaxation experiments to elucidate molecular dynamics. The key concepts discussed are correlation functions and spectral densities of the thermal fluctuations of spin interactions.

For users working in technology, chemical engineering, materials science, biomedicine, food science, geophysics and physical chemistry, the text explores the principles, theoretical background and descriptions of typical applications. As an essential part of relaxation data, the focus is on the statistical features of molecular dynamics. The aim is to assist the reader to acquire meaningful nuclear magnetic relaxation data sets and develop appropriate statistical models as a basis for their interpretation.

This unique text is targeted to anyone performing or interested in NMR relaxation experiments from undergraduates to academics and those in industry.

Targeted for chemists, the current textbook outlines the principles, experimental methods and data analysis in X-Ray Absorption Spectroscopy (XAS). The authors introduce EXAFS, Near-Edge XAS, X-Ray Imaging and many other advanced experimental techniques. A special section of the book is devoted to applications of XAS in chemistry, materials and environmental sciences.

The 10th edition of Quantitative Chemical Analysis continues to set the standard for learning analytical chemistry with distinguished writing, the most up-to-date content, and now the acclaimed Achieve program, supporting exceptional problem solving practice. New author Charles Lucy joins Dan Harris, infusing additional subject expertise and classroom experience into the 10th edition.

Macmillan's new online learning platform, Achieve is the culmination of years of development work put toward creating the most powerful online learning tool for chemistry students. Achieve includes an interactive e-Book as well as our renowned assessments. Students will be able to focus their study with adaptive quizzing and gain a better understanding of what is happening at the atomic or molecular level through instrumentation technique videos.

Achieve features a flexible suite of resources to support learning core concepts, visualization, problem-solving, and assessment. This powerful platform houses all student and instructor resources. You can assign what you want or download resources as you need. Powerful analytics and quick insights in Achieve pair with exceptional content to provide an unrivaled learning and teaching experience.

This user friendly introduction highlights the importance of electrochemistry and its applications to the modern world and the future. In contrast to other texts currently available, it emphasises understanding and avoids using many pages of complex equations. It also describes the diverse applications of electrochemistry rather than focusing on analytical chemistry alone. Although the book follows a similar structure to the first edition, the earlier chapters have been extensively up-dated and the later chapters are entirely new. The text is supported by a large number of figures which illustrate key points. The book starts by describing the essential electrochemical techniques before moving on to cover experimental problems and applications. To reflect the present interest in fuel cells and the environment, these have become the focus of the final chapters. A useful appendix contains problems with fully worked answers to test the reader's understanding.

This guide explains the best methods for undertaking the measurement of mass, one of the most frequent operations in the analytical laboratory.