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All new hands-on demonstrations and fictional minute mysteries illustrate chemical concepts as the authors present the science--and the realities--of forensic chemistry in a narrative style that makes this timely topic accessible to the nonchemist.
How can a plant as beautiful as the foxglove be so deadly and yet for more than a century be used to treat heart disease? The same is true of other naturally occurring molecules as will be revealed in this current book by award-winning author and chemist, John Emsley. More Molecules of Murder follows on from his highly-acclaimed earlier book Molecules of Murder, and again it deals with 14 potential poisons; seven of which are man-made and seven of which are natural. It investigates the crimes committed with them, not from the point of view of the murderers, their victims, or the detectives, but from the poison used. In so doing it throws new light on how these crimes were carried out and ultimately how the perpetrators were uncovered and brought to justice. Each chapter starts by looking at the target molecule itself, its discovery, its chemistry, its often-surprising use in medicine, its effects on the human body, and its toxicology. The rest of the chapter is devoted to murders and attempted murders in which it has been used. But, be reassured that murder by poison is not the threat it once was, thanks to laws which restrict access to such materials and to the skills of analytical chemists in detecting their presence in incredibly tiny amounts.
Examines a variety of careers in the field of forensic science, covering the basics of the job, personal and professional requirements, work environment, salary statistics, future outlook for the career, and more.
It is critical that we increase public knowledge and understanding of science and technology issues through formal and informal learning for the United States to maintain its competitive edge in today's global economy. Since most Americans learn about science outside of school, we must take advantage of opportunities to present chemistry content on television, the Internet, in museums, and in other informal educational settings. In May 2010, the National Academies' Chemical Sciences Roundtable held a workshop to examine how the public obtains scientific information informally and to discuss methods that chemists can use to improve and expand efforts to reach a general, nontechnical audience. Workshop participants included chemical practitioners (e.g., graduate students, postdocs, professors, administrators); experts on informal learning; public and private funding organizations; science writers, bloggers, publishers, and university communications officers; and television and Internet content producers. Chemistry in Primetime and Online is a factual summary of what occurred in that workshop. Chemistry in Primetime and Online examines science content, especially chemistry, in various informal educational settings. It explores means of measuring recognition and retention of the information presented in various media formats and settings. Although the report does not provide any conclusions or recommendations about needs and future directions, it does discuss the need for chemists to connect more with professional writers, artists, or videographers, who know how to communicate with and interest general audiences. It also emphasizes the importance of formal education in setting the stage for informal interactions with chemistry and chemists.
A unique approach to the history of science using do-it-yourself experiments along with brief historical profiles to demonstrate how the ancient alchemists stumbled upon the science of chemistry. Be the alchemist! Explore the legend of alchemy with the science of chemistry. Enjoy over twenty hands-on demonstrations of alchemical reactions. In this exploration of the ancient art of alchemy, three veteran chemists show that the alchemists' quest involved real science and they recount fascinating stories of the sages who performed these strange experiments. Why waste more words on this weird deviation in the evolution of chemistry? As the authors show, the writings of medieval alchemists may seem like the ravings of brain-addled fools, but there is more to the story than that. Recent scholarship has shown that some seemingly nonsensical mysticism is, in fact, decipherable code, and Western European alchemists functioned from a firmer theoretical foundation than previously thought. They had a guiding principle, based on experience: separate and purify materials by fire and reconstitute them into products, including, of course, gold and the universal elixir, the Philosophers' stone. Their efforts were not in vain: by trial, by error, by design, and by persistence, the alchemists discovered acids, alkalis, alcohols, salts, and exquisite, powerful, and vibrant reactions--which can be reproduced using common products, minerals, metals, and salts. So gather your vats and stoke your fires! Get ready to make burning waters, peacocks' tails, Philosophers' stone, and, of course, gold!
Includes, beginning Sept. 15, 1954 (and on the 15th of each month, Sept.-May) a special section: School library journal, ISSN 0000-0035, (called Junior libraries, 1954-May 1961). Also issued separately.