Physics as Natural Philosophy


Book Description

When Laszlo Tisza first came to MIT in 1941, he had already made significant contributions to physics. In the years since, he has consolidated his position as one of the most important theoreticians of his time. Tisza's major areas of activity, closely reflected in these twenty-three essays, have included studies of quantum liquids (in particular, the remarkable properties of liquid helium and the nature of superfluidity and superconductivity), irreversible thermodynamics and the statistical thermodynamics of equilibrium, phase transitions and critical phenomena, and the application of group theory to molecular spectroscopy.Tisza has also given long and close attention to the philosophy and history of his science, to a degree rarely attained by an active research physicist. His special contribution has been his insights into the logical and conceptual structure of physics. This aspect of Tisza's work is less well known than his technical contributions, and the book has been structured to right the balance by revealing Tisza the natural philosopher who collaborates with Tisza the physicist.Written by Tisza's colleagues and former students, the essays are grouped under five headings: Foundations of Probability and Thermodynamics; Condensed Matter Physics; Quantum Mechanics and Relativity; Biological Systems; and History and Philosophy of Science.Abner Shimony, Professor of Philosophy and Physics at Boston University, has contributed a closing evaluation of Tisza's philosophy of science, and Herman Feshbach, Head of the Department of Physics at MIT, has contributed an opening recollection of Tisza's scientific style.




The Physics of the Natural Philosophers


Book Description

The Physics of the Natural Philosophers blends conceptual physics with algebra-based problem-solving for a one-semester introductory course appropriate for students planning to major in physics as well as nonmajors taking it as a terminal science course. The introduction to classical physics topics-including mechanics, vibrations and waves, electricity, magnetism, electromagnetism, and heat-requires only a basic algebra background with a small amount of trigonometry. This text serves two audiences: students who need additional problem-solving skills before taking the standard algebra- or calculus-based courses, and students who need science general education credits and who likely will not go on in physics coursework. New majors will be mainly attracted by the standard problem-solving emphasis, while liberal arts students will appreciate the coverage of the history of physics, philosophy of science, and short biographies of famous classical physicists, from Aristotle to Faraday. The in-text examples and exercises at the end of the chapters present interesting and unusual problems. For example, the section on projectile motion offers an example from the JFK assassination using data from the Warren Commission Report. Many of the questions are conceptual physics questions, but most of the problems are traditional problems, making The Physics of the Natural Philosophers an excellent choice for a one-semester introduction to the field.




Averroes' Physics


Book Description

Ruth Glasner presents an illuminating reappraisal of Averroes' physics. She reveals that Averroes changed his interpretation of the basic notions of physics - the structure of corporeal reality and the definition of motion - more than once.




From Natural Philosophy to the Sciences


Book Description

During the 19th century, much of the modern scientific enterprise took shape: scientific disciplines were formed, institutions and communities were founded and unprecedented applications to and interactions with other aspects of society and culture occurred. taught us about this exciting time and identify issues that remain unexamined or require reconsideration. They treat scientific disciplines - biology, physics, chemistry, the earth sciences, mathematics and the social sciences - in their specific intellectual and sociocultural contexts as well as the broader topics of science and medicine; science and religion; scientific institutions and communities; and science, technology and industry. From Natural Philosophy to the Sciences should be valuable for historians of science, but also of great interest to scholars of all aspects of 19th-century life and culture.




A History of Natural Philosophy


Book Description

This book describes how natural philosophy and exact mathematical sciences joined together to make the Scientific Revolution possible.




Epistemology and Natural Philosophy in the 18th Century


Book Description

This book documents the process of transformation from natural philosophy, which was considered the most important of the sciences until the early modern era, into modern disciplines such as mathematics, physics, natural history, chemistry, medicine and engineering. It focuses on the 18th century, which has often been considered uninteresting for the history of science, representing the transition from the age of genius and the birth of modern science (the 17th century) to the age of prodigious development in the 19th century. Yet the 18th century, the century of Enlightenment, as will be demonstrated here, was in fact characterized by substantial ferment and novelty. To make the text more accessible, little emphasis has been placed on the precise genesis of the various concepts and methods developed in scientific enterprises, except when doing so was necessary to make them clear. For the sake of simplicity, in several situations reference is made to the authors who are famous today, such as Newton, the Bernoullis, Euler, d’Alembert, Lagrange, Lambert, Volta et al. – not necessarily because they were the most creative and original minds, but mainly because their writings represent a synthesis of contemporary and past studies. The above names should, therefore, be considered more labels of a period than references to real historical characters.







God and Natural Order


Book Description

In God and Natural Order: Physics, Philosophy, and Theology, Shaun Henson brings a theological approach to bear on contemporary scientific and philosophical debates on the ordered or disordered nature of the universe. Henson engages arguments for a unified theory of the laws of nature, a concept with monotheistic metaphysical and theological leanings, alongside the pluralistic viewpoints set out by Nancy Cartwright and other philosophers of science, who contend that the nature of physical reality is intrinsically complex and irreducible to a single unifying theory. Drawing on the work of theologian Wolfhart Pannenberg and his conception of the Trinitarian Christian god, the author argues that a theological line of inquiry can provide a useful framework for examining controversies in physics and the philosophy of science. God and Natural Order will raise provocative questions for theologians, Pannenberg scholars, and researchers working in the intersection of science and religion.




Physics and Philosophy


Book Description

Heisenberg explains the central ideas of the quantum revolution, and his uncertainty principle. He reveals how words can lose their meaning in the world of relativity and quantum physics, with philosophical implications for the nature of reality.




Isaac Newton and Natural Philosophy


Book Description

Isaac Newton is one of the greatest scientists in history, yet the spectrum of his interests was much broader than that of most contemporary scientists. In fact, Newton would have defined himself not as a scientist, but as a natural philosopher. He was deeply involved in alchemical, religious, and biblical studies, and in the later part of his life he played a prominent role in British politics, economics, and the promotion of scientific research. Newton’s pivotal work Philosophiæ Naturalis Principia Mathematica, which sets out his laws of universal gravitation and motion, is regarded as one of the most important works in the history of science. Niccolò Guicciardini’s enlightening biography offers an accessible introduction both to Newton’s celebrated research in mathematics, optics, mechanics, and astronomy and to how Newton viewed these scientific fields in relation to his quest for the deepest secrets of the universe, matter theory and religion. Guicciardini sets Newton the natural philosopher in the troubled context of the religious and political debates ongoing during Newton’s life, a life spanning the English Civil Wars, the Restoration, the Glorious Revolution, and the Hanoverian succession. Incorporating the latest Newtonian scholarship, this fast-paced biography broadens our perception of both this iconic figure and the great scientific revolution of the early modern period.