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Investigative Pathways
This fascinating book is an investigation of scientific creativity. Following the research pathways of outstanding scientists over the past three centuries, it finds common features in their careers and their landmark discoveries and sheds light on the nature of long-term experimental research. Frederic Lawrence Holmes begins by discussing various approaches to the historical study of scientific practice. He then explains three kinds of analysis of the individual scientific life: broad-scale, which examines the phases of a scientist's career - apprenticeship, mastery, distinction, and maturity - over a lifetime; middle-scale, which explores the episodes within such a career; and fine-scale, which scrutinises laboratory notebooks and other data to focus on the daily interplay between thought and operation. Using these analyses, Holmes presents rich examples from his studies of six preeminent scientists: Antoine-Laurent Lavoisier, Claude Bernard, Hans Krebs, Matthew Meselson, Franklin Stahl, and Seymour Benzer. The similar themes that he finds in their work and careers lead him to valuable insights into enduring issues and problems in understanding the scientific process.
Investigative Pathways
This fascinating book is an investigation of scientific creativity. Following the research pathways of outstanding scientists over the past three centuries, it finds common features in their careers and their landmark discoveries and sheds light on the nature of long-term experimental research. Frederic Lawrence Holmes begins by discussing various approaches to the historical study of scientific practice. He then explains three kinds of analysis of the individual scientific life: broad-scale, which examines the phases of a scientist’s career—apprenticeship, mastery, distinction, and maturity—over a lifetime; middle-scale, which explores the episodes within such a career; and fine-scale, which scrutinizes laboratory notebooks and other data to focus on the daily interplay between thought and operation. Using these analyses, Holmes presents rich examples from his studies of six preeminent scientists: Antoine-Laurent Lavoisier, Claude Bernard, Hans Krebs, Matthew Meselson, Franklin Stahl, and Seymour Benzer. The similar themes that he finds in their work and careers lead him to valuable insights into enduring issues and problems in understanding the scientific process.
Meselson, Stahl, and the Replication of DNA
In 1957 two young scientists, Matthew Meselson and Frank Stahl, produced a landmark experiment confirming that DNA replicates as predicted by the double helix structure Watson and Crick had recently proposed. It also gained immediate renown as a “most beautiful” experiment whose beauty was tied to its simplicity. Yet the investigative path that led to the experiment was anything but simple, Frederic L. Holmes shows in this masterful account of Meselson and Stahl’s quest. This book vividly reconstructs the complex route that led to the Meselson-Stahl experiment and provides an inside view of day-to-day scientific research--its unpredictability, excitement, intellectual challenge, and se...
Instruments and Experimentation in the History of Chemistry
This volume moves chemical instruments and experiments into the foreground of historical concern, in line with the emphasis on practice that characterizes current work on other fields of science and engineering.
Reconceiving the Gene
This book relates how, between 1954 and 1961, the biologist Seymour Benzer mapped the fine structure of the rII region of the genome of the bacterial virus known as phage T4. Benzer’s accomplishments are widely recognized as a tipping point in mid-twentieth-century molecular biology when the nature of the gene was recast in molecular terms. More often than any other individual, he is considered to have led geneticists from the classical gene into the molecular age. Drawing on Benzer’s remarkably complete record of his experiments, his correspondence, and published sources, this book reconstructs how the former physicist initiated his work in phage biology and achieved his landmark investigation. The account of Benzer’s creativity as a researcher is a fascinating story that also reveals intriguing aspects common to the scientific enterprise.
Lavoisier and the Chemistry of Life
Drawing on Lavoisier's daily laboratory records, unpublished notes, and successive drafts of articles, Holmes explores the interaction between this creative scientist's theories and practice, the experimental problems he encountered and his response to them, the apparently intuitive understanding that guided his choice of experiments, and the gradual refinement of his hypotheses. This thorough and comprehensive exposition of Lavoisier's scientific style forms the basis for general reflections on the nature of creative scientific imagination that will interest historians of science and biology, philosophers of science, cognitive psychologists, and all who are intrigued by the drama of pioneering scientific discovery.
From Elements to Atoms
Seeking to enlarge an understanding of the nature of chemical science & explain how the concepts being taught in the classroom came to be, Siegfried presents a simple, readable account of how in the 18th cent. chemical composition slowly abandoned the centuries- long tradition of metaphysical elements of earth, air, fire, & water. Through the work of such scientist as Lavoisier, Dalton, & Davy, chemical theory moved from metaphysical elements to operationally functional atoms. The book is based on chemical writings of 17th- & 18th-cent. chemists; references to recently published secondary works are intended for the benefit of readers who wish to enlarge their perspectives on the development of early chemical thinking.
History of Analytical Chemistry
History of Analytical Chemistry is a systematic account of the historical development of analytical chemistry spanning about 4,000 years. Many scientists who have helped to develop the methods of analytical chemistry are mentioned. Various methods of analysis are discussed, including electrogravimetry, optical methods, electrometric analysis, radiochemical analysis, and chromatography. This volume is comprised of 14 chapters and begins with an overview of analytical chemistry in ancient Greece, the origin of chemistry, and the earliest knowledge of analysis. The next chapter focuses on analytical chemistry during the Middle Ages, with emphasis on alchemy. Analytical knowledge during the peri...
The Arsenal of Eighteenth-Century Chemistry
The first complete and detailed catalogue of Lavoisier’s collection of instruments preserved at the Musée des Arts et Métiers in Paris. The story of the collection is carefully reconstructed and its instruments (all illustrated) are described in detail.
