When tiny atoms interact, their chemistry affects our world. From cars rusting to stomachs digesting, chemical reactions make things happen. See the invisible atomic world with these easy and fun projects on chemistry and chemical reactions that you can do yourself. Think like a chemist as you burn oxygen in air, move microscopic metals through solution, make your own plastic, and much more. Uncover nature’s mysterious recipes with chemistry!
Concise writing and organizational skills are stressed throughout, and "move structures" teach students conventional ways to present their stories of scientific discovery.
Chemistry is around us. In plants, air, water and earth. Each human body is a wonderful chemical factory. A Simple Guide to Chemistry includes over 15 experiments designed using equipment and chemicals that are readily available in our homes. This is an interactive lab manual designed to trigger and satiate the interest of both young and old in the fascinating world of chemistry. The instructions are given in a way to help you visualize what is necessary to understand and appreciate chemistry at its core. No doubt, chemistry is a vast topic; it’s not necessary to spend years studying it unless it’s one of your core subjects in college. For most of us, we need a basic understanding to progress through school. You will surely find yourself looking at chemistry through a different lens after going through this book!
A Visual Analogy Guide to Chemistry is the latest in the innovative and widely used series of books by Paul Krieger. This study guide delivers a big-picture view of difficult concepts and effective study tools to help students learn and understand the details of general, organic, and biochemistry topics. A Visual Analogy Guide to Chemistry is a worthwhile investment for any introductory chemistry student.
Chemical data analysis, with aspects of metrology in chemistry and chemometrics, is an evolving discipline where new and better ways of doing things are constantly being developed. This book makes data analysis simple by demystifying the language and whenever possible giving unambiguous ways of doing things. Based on author D. Brynn Hibberts lectures on data analysis to undergraduates and graduate students, Data Analysis for Chemistry covers topics including measurements, means and confidence intervals, hypothesis testing, analysis of variance, and calibration models. The end result is a compromise between recipes of how to perform different aspects of data analysis, and basic information on the background principles behind the recipes to be performed. An entry level book targeted at learning and teaching undergraduate data analysis, Data Analysis for Chemistry makes it easy for readers to find the information they are seeking to perform the data analysis they think they need.
Half a million years ago our ancestors learned to make fire from scratch. They crafted intricate tools from stone and brewed mind-altering elixirs from honey. Their descendants transformed clay into pottery, wool into clothing, and ashes into cleansers. In ceramic crucibles they won metal from rock, the metals lead to colored glazes and glass. Buildings of brick and mortar enshrined books of parchment and paper. Kings and queens demanded ever more colorful clothing and accessories in order to out-class clod-hoppers and call-girls. Kingdoms rose and fell by the power of saltpeter, sulfur, and charcoal. And the demands of everyday folk for glass and paper and soap stimulated the first round of chemical industrialization. From sulfuric acid to sodium carbonate. From aniline dyes to analgesic drugs. From blasting powder to fertilizers and plastics. In a phrase, From Caveman to Chemist. Your guides on this journey are the four alchemical elements; Fire, Earth, Air and Water. These archetypical characters deliver first-hand accounts of the births of their respective technologies. The spirit of Fire, for example, was born in the first creature to cultivate the flame. This spirit passed from one person to another, from one generation to another, from one millennium to another, arriving at last in the pages of this book. The spirit of Earth taught folks to make tools of stone, the spirit of Air imparted knowledge of units and the spirit of Water began with the invention of spirits. Having traveled the world from age to age, who can say where they will find their next home? Perhaps they will find one in you.
The water you drink. The air you breathe. This book you’re holding. Everything around you is made of matter. Learn more about what makes up matter, the forms it can take, and nature’s rules about it. With inexpensive items that you probably have lying around your home, you can do these easy and fun experiments on solids, liquids, and gases. Think like a chemist as you construct a tower of liquids, grow your own crystals, and even measure the speed of smell. Explore the powerful world of matter, from the visible to the invisible.
Detailing the latest rules and international practice, this new volume can be considered a guide to the essential organic chemical nomenclature, commonly described as the "Blue Book."
Based on 14 years of research and experiment with plastics and various non-traditional materials, this book supplies information to designers and interpreters on specialized techniques for use in costumes for theatre, film and TV. Also included are charts detailing the effects of dry cleaning and laundering on adhesives, coatings, colourings and metallisers, allowing the designer to make appropriate choices for specific needs and longevity. This reference delivers many exciting new choices to designers and craftspeople, with the bonus of improved safety, maintenance, comfort for the wearer and visual effects for the audience.
Based on the Laboratory Analyst Training and Certification Program ... chemists from a range of pharmaceutical companies and a few academic laboratories explain how to comply with the US Food and Drug Administration's Good Manufacturing Practice rules as analytical technologies are changing rapidly .... Among the topics are the drug development process, uniform and consistent interpretation of compliance issues, the role of statistics and basic topics in analytical chemistry, and detectors and quantitative analysis. The emphasis is on high-performance liquid chromatographic methods.