Modern cosmology aims to determine the origin, evolution, and ultimate fate of the Universe. This is an area of modern science that has engendered fierce debates which have captured public interest. This book recounts the development of modern cosmology, in chapters contributed by many of the leading protagonists. It is a fascinating account of physical and observational cosmology, the great cosmological debates, important observations and the riddle of dark matter. The enormous controversy surrounding the Big Bang theory is retold in personal recollections from H. Bondi, W. McCrea, and Fred Hoyle. This is followed by chapters on the discovery of cosmic radio waves and the contributions made by radio astronomers to current cosmology. The book concludes with a tribute to some of the pioneers of cosmology.
Astronomy is the science of everything – with the exception of the Earth and everything on it and inside. Astronomy has a rich heritage dating back to the myths and legends of antiquity and the course of civilization has been greatly affected by mankind’s interpretation of what they saw in the starry sky and experienced through seasonal changes associated with the Sun and Moon. Early astronomy is associated with the definition of calendars which were needed to predict the dates of such as religious festivals and the numbers of months. A gradual shift of emphasis from astronomy to its sister, astrophysics, which took place through the 19th century, is generally attributed to the measurement of reliable stellar distances and the development of spectroscopy as a tool for understanding the physical nature of stars. Many paradigms in astronomy and its many subfields are continuously being shaken. New insights in the intricacy and elegance of the cosmos are steadily being obtained. Every few decennia, our concepts of the Universe are challenged and substantially modified. The reasons for this are the continuous development of new observing techniques and instruments for observatories both ground-based and in space, in addition to considerable progress in mathematics and physics, including computational ability. Our Universe harbors numerous phenomena and processes representing conditions that cannot be duplicated in terrestrial laboratories. Astronomy therefore frequently leads to fundamentally new insight and knowledge far beyond astronomy itself. Last but not least, it represents a first inspiring introduction to natural science, especially among young people, which is an extra motivation to many scientists to contribute to the Astronomy and Astrophysics Theme of this Encyclopedia. The book on Astronomy and Astrophysics with contributions from distinguished experts in the field, represents a first inspiring introduction to natural science, especially among young people, which is an extra motivation to many scientists to contribute to the Astronomy and Astrophysics Theme of this Encyclopedia. The first chapter which treats the development of astronomy and astrophysics in a historical perspective is followed by an account of the impact of astronomy on human culture and civilization. Observational astronomy is facing a number of environmental challenges. The nature and complexity of these and how the associated problems are met and overcome are described in the third article. Various aspects of our solar system are covered by authoritative articles on the Sun, planets including their satellites and smaller bodies, plus a review of the laws of motions and orbits of celestial bodies. The detection and studies of exo-solar planetary systems is rapidly developing field in astronomy which is treated in a separate chapter. Then follow fascinating up-to-date overviews on stars describing their formation, structure and life cycles. Stars are the building blocks of larger cosmic entities leading to the enigmatic galaxies composed of billions of stars, and gradually to clusters of galaxies. The final chapters cover the origin and evolution of galaxies and the large-scale structure of the Universe, including dark matter and dark energy which are among the most fascinating problems of physics today. These two volumes are aimed at the following five major target audiences: University and College students Educators, Professional practitioners, Research personnel and Policy analysts, managers, and decision makers and NGOs.
The scientific life of Fred Hoyle (1915–2001) was truly unparalleled. During his career he wrote groundbreaking scientific papers and caused bitter disputes in the scientific community with his revolutionary theories. Hoyle is best known for showing that we are all, literally, made of stardust in his paper explaining how carbon, and then all the heavier elements, were created by nuclear reactions inside stars. However, he constantly courted controversy and two years later he followed this with his 'steady state' theory of the universe. This challenged another model of the universe, which Hoyle called the 'big bang' theory. Fred Hoyle was also famous amongst the general public. He popularised his research through radio and television broadcasts and wrote best-selling novels. Written from personal accounts and interviews with Hoyle's contemporaries, this book gives valuable personal insights into Fred Hoyle and his unforgettable life.
Prior to 20th century physics it was believed an ethereal medium pervaded all space. It was believed the ether is necessary to explain light as waves propagating through a medium. Physicists failed to confirm the ether really exists. Only indirect inference to wave properties can be made with regard to its possible existence. Otherwise it is invisible to our world. Ethereal physics has been abandoned. It has been replaced with a methodology whereby only what can be observed is considered real. All observable effects are mathematically related in the form of a functional theory. Much of theory is postulated, not explained. There is, for instance, no attempt to explain the probability nature of quantum mechanics. Only the results are considered pertinent to scientific investigation. However, with the historical foundation from which modern theory evolves, physicists are becoming confused. They believe, for instance, general relativity predicts black holes. There are no black holes. They are myths created from inconsistent interpretation of theory. This book goes beyond physics to explain the physics of gravity, the atomic structure and cosmology. It provides a historical perspective for understanding physics in a more consistent manner.
"Schwarz first surveys scientific explanations for the origins of the universe and of life and discusses the scientific understanding of matter, space, time, and determinism. He then reviews the history of Christian responses to science's discoveries, including a summary of reactions from Christian scientists. He completes his analysis with a proposal for the development of a Christian understanding of creation."--BOOK JACKET.
Fred Hoyle was one of the most widely acclaimed and colourful scientists of the twentieth century, a down-to-earth Yorkshireman who combined a brilliant scientific mind with a relish for communication and controversy. Best known for his steady-state theory of cosmology, he described a universe with both an infinite past and an infinite future. He coined the phrase 'big bang' to describe the main competing theory, and sustained a long-running, sometimes ill-tempered, and typically public debate with his scientific rivals. He showed how the elements are formed by nuclear reactions inside stars, and explained how we are therefore all formed from stardust. He also claimed that diseases fall from the sky, attacked Darwinism, and branded the famous fossil of the feathered Archaeopteryx a fake. Throughout his career, Hoyle played a major role in the popularization of science. Through his radio broadcasts and his highly successful science fiction novels he became a household name, though his outspokenness and support for increasingly outlandish causes later in life at times antagonized the scientific community. Jane Gregory builds up a vivid picture of Hoyle's role in the ideas, the organization, and the popularization of astronomy in post-war Britain, and provides a fascinating examination of the relationship between a maverick scientist, the scientific establishment, and the public. Through the life of Hoyle, this book chronicles the triumphs, jealousies, rewards, and feuds of a rapidly developing scientific field, in a narrative animated by a cast of colourful astronomers, keeping secrets, losing their tempers, and building their careers here on Earth while contemplating the nature of the stars.
As advanced by astronomer-cosmologist Sir Fred Hoyle, astronomy, biology, astrobiology, astrophysics, and cosmology converge agreeably with natural theology. In The Big Bang and God, these interdisciplinary convergences are developed by an astronomer collaborating with a theologian.
This book tells the fascinating history of cosmology using a series of fictitious interview transcripts with the field's leading scientists, including giants such as Albert Einstein, Edwin Hubble, and George Gamow, to give the reader a lively and "almost authentic" impression of the problems that faced this early generation of cosmologists.
