Download Free Proceedings Of The Cambridge Philosophical Society Vol Ii 1864 1876 Book in PDF and EPUB Free Download. You can read online Proceedings Of The Cambridge Philosophical Society Vol Ii 1864 1876 and write the review.

Reprint of the original, first published in 1876.
Reprint of the original, first published in 1880.
Reprint of the original, first published in 1876.
Cambridge is now world-famous as a centre of science, but it wasn't always so. Before the nineteenth century, the sciences were of little importance in the University of Cambridge. But that began to change in 1819 when two young Cambridge fellows took a geological fieldtrip to the Isle of Wight. Adam Sedgwick and John Stevens Henslow spent their days there exploring, unearthing dazzling fossils, dreaming up elaborate theories about the formation of the earth, and bemoaning the lack of serious science in their ancient university. As they threw themselves into the exciting new science of geology - conjuring millions of years of history from the evidence they found in the island's rocks - they also began to dream of a new scientific society for Cambridge. This society would bring together like-minded young men who wished to learn of the latest science from overseas, and would encourage original research in Cambridge. It would be, they wrote, a society "to keep alive the spirit of inquiry". Their vision was realised when they founded the Cambridge Philosophical Society later that same year. Its founders could not have imagined the impact the Cambridge Philosophical Society would have: it was responsible for the first publication of Charles Darwin's scientific writings, and hosted some of the most heated debates about evolutionary theory in the nineteenth century; it saw the first announcement of x-ray diffraction by a young Lawrence Bragg - a technique that would revolutionise the physical, chemical and life sciences; it published the first paper by C.T.R. Wilson on his cloud chamber - a device that opened up a previously-unimaginable world of sub-atomic particles. 200 years on from the Society's foundation, this book reflects on the achievements of Sedgwick, Henslow, their peers, and their successors. Susannah Gibson explains how Cambridge moved from what Sedgwick saw as a "death-like stagnation" (really little more than a provincial training school for Church of England clergy) to being a world-leader in the sciences. And she shows how science, once a peripheral activity undertaken for interest by a small number of wealthy gentlemen, has transformed into an enormously well-funded activity that can affect every aspect of our lives.
This book is an exposition of the algebra and calculus of differential forms, of the Clifford and Spin-Clifford bundle formalisms, and of vistas to a formulation of important concepts of differential geometry indispensable for an in-depth understanding of space-time physics. The formalism discloses the hidden geometrical nature of spinor fields. Maxwell, Dirac and Einstein fields are shown to have representatives by objects of the same mathematical nature, namely sections of an appropriate Clifford bundle. This approach reveals unity in diversity and suggests relationships that are hidden in the standard formalisms and opens new paths for research. This thoroughly revised second edition also adds three new chapters: on the Clifford bundle approach to the Riemannian or semi-Riemannian differential geometry of branes; on Komar currents in the context of the General Relativity theory; and an analysis of the similarities and main differences between Dirac, Majorana and ELKO spinor fields. The exercises with solutions, the comprehensive list of mathematical symbols, and the list of acronyms and abbreviations are provided for self-study for students as well as for classes. From the reviews of the first edition: “The text is written in a very readable manner and is complemented with plenty of worked-out exercises which are in the style of extended examples. ... their book could also serve as a textbook for graduate students in physics or mathematics." (Alberto Molgado, Mathematical Reviews, 2008 k)

The book is aiming, programmatically, at showing that both in science and religious thinking the basic space-time entity is ultimately built and defined by light. In this sense, the book is emphasizing the unique role of light in understanding the world around us. The approach is based on the belief that science and religion represent two very different modes of addressing reality, both of them being relevant to us as human beings.

The language of science and religion and the answers they each give to the same questions differ due to the elementary postulates on which they are built. A dialogue and debate in the classical sense is, therefore, meaningless. This is why the book has allowed the voice of Physics and the voice of the Philosophy of Religion to be heard in their distinctiveness and nobility. Instead of endless polemics, the work proposes to acknowledge with patience and respect the altera pars approach for the same overarching topics, highlighting the complexity of both domains, and, on a transdisciplinary level, pointing towards the complexity of our mind and reality.

The book is illustrated by Valentin Petridean. The images mirror and enrich the rigorous game of the intellect, illuminating it with sparks of vivid imagination.

CONTENTS

Memories from the past and the need for a new dialogueExperiment versus ExperienceThe Nitty-Gritty of LightThe Nature of LightColours and PerceptionProducing and Absorbing LightThe Speed of Light’s PropagationLight and AetherIdeal SpaceTangible SpaceIdeal TimeTangible TimeThe Principle of RelativityThe AftermathChanging Paradigms: ‘Memories of the Future’Concluding remarks
Traces the development of pure mathematics during the long nineteenth century in Britain, with extensive references and primary sources.