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As a means of conveying the excitement of science from one generation to the next, the lecture demonstration is one of the most powerful tools at the disposal of the modern science teacher. The interest of the young aspiring scientist is aroused not by dull textbook recitation, but by the enthusiastic lecturer with a range of demonstrations that illustrate the importance of science in the real world. In this lucid and entertaining book, Professor Taylor explores the origins of lecture demonstration and its development to the present day, emphasizing the underlying principles and the lessons to be learned. Set alongside the work of the most eminent of his predecessors, Michael Faraday and Lawrence Bragg, Taylor's book should find a worthy place among the literature of popular science. The Art and Science of Lecture Demonstration will be useful to all those with a serious amateur or professional interest in the teaching of science, from primary school to university and beyond.
Interactive Lecture Demonstrations (ILDs) are designed to enhance conceptual learning in physics lectures through active engagement of students in the learning process. Students observe real physics demonstrations, make predictions about the outcomes on a prediction sheet, and collaborate with fellow students by discussing their predictions in small groups. Students then examine the results of the live demonstration (often displayed as real-time graphs using computer data acquisition tools), compare these results with their predictions, and attempt to explain the observed phenomena. ILDs are available for all of the major topics in the introductory physics course and can be used within the traditional structure of an introductory physics course. All of the printed materials needed to implement them are included in this book.
The definitive career guide for grad students, adjuncts, post-docs and anyone else eager to get tenure or turn their Ph.D. into their ideal job Each year tens of thousands of students will, after years of hard work and enormous amounts of money, earn their Ph.D. And each year only a small percentage of them will land a job that justifies and rewards their investment. For every comfortably tenured professor or well-paid former academic, there are countless underpaid and overworked adjuncts, and many more who simply give up in frustration. Those who do make it share an important asset that separates them from the pack: they have a plan. They understand exactly what they need to do to set themselves up for success. They know what really moves the needle in academic job searches, how to avoid the all-too-common mistakes that sink so many of their peers, and how to decide when to point their Ph.D. toward other, non-academic options. Karen Kelsky has made it her mission to help readers join the select few who get the most out of their Ph.D. As a former tenured professor and department head who oversaw numerous academic job searches, she knows from experience exactly what gets an academic applicant a job. And as the creator of the popular and widely respected advice site The Professor is In, she has helped countless Ph.D.’s turn themselves into stronger applicants and land their dream careers. Now, for the first time ever, Karen has poured all her best advice into a single handy guide that addresses the most important issues facing any Ph.D., including: -When, where, and what to publish -Writing a foolproof grant application -Cultivating references and crafting the perfect CV -Acing the job talk and campus interview -Avoiding the adjunct trap -Making the leap to nonacademic work, when the time is right The Professor Is In addresses all of these issues, and many more.
For more than two hundred years the Royal Institution has been at the centre of scientific research and has provided a cultural location for science in Britain. Within its walls some of the major scientific figures of the last two centuries - such as Humphry Davy, Michael Faraday, John Tyndall, James Dewar, Lord Rayleigh, William Henry Bragg, Henry Dale, Eric Rideal, William Lawrence Bragg and George Porter - carried out much of their research, with discoveries from sodium to x-ray crystallography. The success of the Royal Institution in research and in locating science within general culture led it to being used as a model for other institutions, most notably by the founders of the Smithsonian Institution in Washington. Much has been written about the scientific work in the Royal Institution, but much less about the cultural settings which allowed it to become such a major site for the creation of scientific knowledge. The purpose of this book is to examine these aspects of its history.
These demonstrations will fascinate, amaze, and teach students the wonders and practical science of physics. Physics Demonstrations illustrates properties of motion, heat, sound, electricity, magnetism, and light. All demonstrations include a brief description, a materials list, preparation procedures, a provocative discussion of the phenomena displayed and the principles illustrated, important information about potential hazards, and references. Suitable for performance outside the laboratory, Physics Demonstrations is an indispensable teaching tool. This book includes a DVD of the author performing all 85 demonstrations.
Since the mid-1820s, a series of lectures has been delivered each year over the Christmas period in the world-famous Faraday Lecture Theatre at The Royal Institution of Great Britain by prominent scientists, addressed specifically to an audience of children. Initially made accessible in book form, the lectures have been nationally televised throughout the UK and distributed worldwide since the 1960s, making them accessible to an even larger audience. The importance of these lectures in promoting science to a broad audience is perhaps best gauged by the fact that an image of one of Faraday's lectures appeared on the Bank of England £20 note in the 1990s.This anthology brings together, for the first time, a carefully chosen selection of 11 lectures from the 1860s to the 1990s. The selection includes lectures by Michael Faraday, arguably the most important and influential 19th-century physicist, and Lawrence Bragg, the youngest ever winner of the Nobel Prize. Through this work, readers will come to grips with the changing nature of popular science lectures over the past 140 years.
Authored by renowned experts in the field of chemistry education, this book provides a holistic approach to cover all issues related to learning and teaching in the chemistry laboratory.
The period between 1750 and 1850 was a time when knowledge and its modes of transmission were reconsidered and reworked in fundamental ways. Social and political transformations, such as the French Revolution and the Industrial Revolution, went hand in hand with in new ways of viewing, sensing, and experiencing what was perceived to be a rapidly changing world. This volume brings together a range of essays that explore the performance of knowledge in the period from 1750 to 1850, in the broadest possible sense. The essays explore a wide variety of literary, theatrical, and scientific events staged during this period, including scientific demonstrations, philosophical lectures, theatrical performances, stage design, botany primers, musical publications, staged Schiller memorials, acoustic performances, and literary declamations. These events served as vital conduits for the larger process of generating, differentiating, and circulating knowledge. By unpacking the significance of performance and performativity for the creation and circulation of knowledge in Germany during this period, the volume makes an important contribution to interdisciplinary German cultural studies, performance studies, and the history of knowledge.
The author, a computer science professor diagnosed with terminal cancer, explores his life, the lessons that he has learned, how he has worked to achieve his childhood dreams, and the effect of his diagnosis on him and his family.