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Summary of Nancy Forbes & Basil Mahon's Faraday, Maxwell, and the Electromagnetic Field
Please note: This is a companion version & not the original book. Sample Book Insights: #1 The life of Michael Faraday might have begun and passed quietly in the remote seclusion of rural Westmorland, but for the pressure of wider events. In the mid to late 1700s, Britain had been fighting rival colonial powers at sea for many years, and it finally lost an expensive war against its own colonists in America. #2 Faraday was a book lover, and he was always reading. He learned from books, and he learned from his mistakes. He developed a method of self-improvement that involved reading, and he always tried to use precise language. #3 Faraday was a very curious young man, and he loved to read. He would copy out his notes from the lectures he went to, and he would often experiment with static electricity. He was already beginning to think about how electricity worked, and he questioned the truth of an ostensibly authoritative article in the Encyclopaedia Britannica. #4 In 1800, John Tatum learned of the voltaic cell, or battery, invented by Alessandro Volta. It produced a continuous flow of electricity that could be used to demonstrate the structure of matter.
The Man Who Changed Everything
This is the first biography in twenty years of James Clerk Maxwell, one of the greatest scientists of our time and yet a man relatively unknown to the wider public. Approaching science with a freshness unbound by convention or previous expectations, he produced some of the most original scientific thinking of the nineteenth century — and his discoveries went on to shape the twentieth century.
Faraday, Maxwell, and the Electromagnetic Field
The story of two brilliant nineteenth-century scientists who discovered the electromagnetic field, laying the groundwork for the amazing technological and theoretical breakthroughs of the twentieth century Two of the boldest and most creative scientists of all time were Michael Faraday (1791-1867) and James Clerk Maxwell (1831-1879). This is the story of how these two men - separated in age by forty years - discovered the existence of the electromagnetic field and devised a radically new theory which overturned the strictly mechanical view of the world that had prevailed since Newton's time. The authors, veteran science writers with special expertise in physics and engineering, have created ...
The Forgotten Genius of Oliver Heaviside
FINALIST! 2019 IEEE William and Joyce Middleton Electrical Engineering History Award This biography of Oliver Heaviside profiles the life of an underappreciated genius and describes his many contributions to electrical science, which proved to be essential to the future of mass communications. Oliver Heaviside (1850 -1925) may not be a household name but he was one of the great pioneers of electrical science: his work led to huge advances in communications and became the bedrock of the subject of electrical engineering as it is taught and practiced today. His ideas and original accomplishments are now so much a part of everyday electrical science that they are simply taken for granted; almos...
Oliver Heaviside
A compelling account of the life of one of the great pioneers of electrical science Oliver Heaviside (1850-1925). He showed how to analyse circuit, how to rid telephone lines of distortion and interpreted Maxwell's theory of electromagnetism in a way that working engineers and physicists could understand.
Maxwell on the Electromagnetic Field
Reproduces major portions of Maxwell's classic papers on key concepts in modern physics, written between 1855 and 1864, along with commentaries, notes, and bandw diagrams. Includes a detailed biographical introduction exploring the personal, historical, and scientific context of his work. Designed to be accessible to readers with limited knowledge of math or physics, as well as scientists and historians of science. Annotation copyright by Book News, Inc., Portland, OR
The Dilemmas of an Upright Man
In this moving and eloquent portrait, Heilbron describes how the founder of quantum theory rose to the pinnacle of German science. He shows how Planck suffered morally and intellectually as his lifelong habit of service to his country and to physics was confronted by the realities of World War I and the brutalities of the Third Reich.
Post-Punk Perception
Growing up in Singapore in the 80s has been challenging. I didn't know much about life or economy. I didn't know what I want to do apart from playing. I know I had to study and get a job. In school we had to write composition about our profession when we grow up. I had never wanted to be a philosopher, let alone writing about social philosophy. It is just that growing up with a single parent is tough. It is tougher when she is uneducated and I had to learn most things by myself. After my National Service, I decided to further studies. That was when I was exposed to philosophy and psychology in the UK. After graduation in 1999 with a degree in Electronics, I came back home to resume my Nation...
Statistics
An imaginative introduction to statistics, reorienting the course towards an understanding of statistical thinking and its meaning and use in daily life and work. Gudmund Iversen and Mary Gergen bring their years of experience and insight into teaching the subject, incorporating such innovations and insights as a sustained emphasis on the process of statistical analysis and what statistics can and cannot do as well as careful exposition of the ideas of developing statistical and graphical literacy. In the spirit of contemporary pedagogy and by using technology, the authors break down the traditional barriers of statistical formulas and lengthy computations encountered by students without strong quantitative skills. Further, formulas are grouped at the end of each chapter along with related problems, and, with only algebra as a prerequisite, the book is ideal for students in the liberal arts and the behavioural and social sciences.
Surfing the Quantum World
The ideas and phenomena of the quantum world are strikingly unlike those encountered in our visual world. This book shows why and how this is so via a gentle introduction to the principles of quantum theory. It is used to explain both ordinary microscopic phenomena like the structure of the Periodic Table of Elements and mind-bending phenomena
