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The focus of Unique Physics of Light and Astronomy, a brand new title from Professor Kadakia, is on the processes responsible for the creation of light and its interaction with matter. After several years of extensive research in light wave physics, the author realized that several past physicists had left unexplained gaps in their theories characterizing the behavior of radiation entities in general, and light waves in particular. Though Einstein had postulated a dual nature of of light and radiation, namely a particle and a wave, which travelled at a constant speed c in space, he did not describe the physical phenomenon for the origination of radiant energy. In this text book, we reveal the unique events surrounding the creation of light and radiation waves. They are germinated from a quantum phenomenon, electrons dissipate energy during orbital transitions, inherently due to a quantized change in their energy states while performing oscillations within electrostatic charge field of protons. Thus, the frequencies and the speed of all radiation is set by the reverberation of the charge field that is independent of the motion of atoms and objects. Moreover, various types of radiation is thus considered as manifestations of oscillations of the charge field at different frequencies and, therefore, are not electromagnetic in nature. The readers of this text will be amazed by the several stunning breakthrough ideas presented here. For instance, we developed a novel concept for the probability of finding a radiation quantum in Richard Feynman's QED that is determined from the wave function of a particle electron that creates the radiation. Another remarkable fact that is postulated by us is that "Black Holes" do not possess a singularity, as was made popular by Stephen Hawking, inasmuch as they are quark stars in reality. Finally, we proudly announce that we have revised the most celebrated mass-energy equivalence expression, as postulated by Albert Einstein, for translation of matter into energy E = mc2 to new a relationship to wit: E = Ʃmneutrinoc2 + Ʃhfradiation.
This book is the first of its kind to devote itself at this level to the key role played by light and electromagnetic radiation in the universe. Readers are introduced to philosophical hypotheses such as the economy, symmetry, and universality of natural laws, and are then guided to practical consequences such as the rules of geometrical optics and even Einstein's well-known but mysterious relationship, E = mc2. Most chapters feature a pen picture of the life and character of a relevant scientific figure. These “Historical Interludes” include, among others, Galileo's conflicts with the Inquisition, Fourier's taunting of the guillotine, Neils Bohr and World War II, and the unique character of Richard Feynman. Going one step beyond the popular level, this easy-to-read book gives an overall view to undergraduate and postgraduate physics students that is often missing when trying to assimilate the technical details of their courses. Through its original treatment of topics and enjoyable style of writing, it will also stimulate keen interest in general readers who are interested in science and have a basic mathematics background as well as teachers looking for basic and accurate background information.Contents: Light, the Central Actor; Geometrical Optics — Reflection; Geometrical Optics — Refraction; Light from Afar — Astronomy; Light from the Past — Astrophysics; Introducing Waves; Sound Waves; Light as a Wave; Making Images; There Was Electricity, and Then There Was Light; 'Atoms of Light' — The Birth of Quantum Theory; The Development of Quantum Mechanics; Atoms of Light Acting as Particles; Atoms of Light Behaving as Waves; Special Relativity — How It Began; Special Relativity — Verifiable Predictions; Epilogue.
Subject matter of radiation physics and origin of forces of gravity is vast and is Universal. Therefore, we decided to split Second Edition of our text book ¿Unique Physics of Light and Astronomy¿ into two volumes. Further, whenever advanced theories are developed for solution of known problems, gaps are left behind due to ignorance. Novel theories are created for removing deficiencies of old theories yet new gaps emerge. We made a gallant effort and resolved all gaps of the past Electromagnetic Field theories. In Volume 1, we describe the fundamental principles about the origin of all types of radiation in general and light waves in particular. Further, we identified the root cause of forces of gravity among all objects in the Universe. In Volume two, we apply principles developed in First Volume for detection of gravity waves and their use in the area of Space exploration. In this Second Edition, First volume is composed of Eight Chapters and the Second volume has Seven Chapters. In this expanded edition, we have included topics such as methods of measurement of speed of light in a chronological fashion and compared merits of different techniques. In Chapter Six, we have disclosed relationship between probability in Path Integral Formalism of Feynman¿s Fascinating theory of light and probability an electron of light radiating source is found at a specific location. Also, we have explained reasons behind observed magnetic moment property of electrons in orbit of atoms of all elements of Periodic Table. In Chapter 8, we have revealed stunning facts about the presence of forces of gravity among objects spread out in enormously vast Universe. The details about the origin of force of gravity were presented from nanoscale view point of substances formed from composition of particles. Also, we characterized the effects of forces of gravity among objects on frequency of radiation emitted in construction of atomic clocks. Further, our discovery of origin of forces of gravity allowed us to unify all four forces of nature without any discrepancy. In this enlarged Second edition we have added several new questions and problems in exercise section.
A contemporary exploration of physics, light, and sound told through stunning graphic artwork. Designed to present physics in a totally new way, this book explores the topics of physics, light, and sound alongside incredible artwork from Ximo Abadía. Visualize sonar sound, discover the speed of light, and understand basic quantum physics with easy-to-understand, engaging text by acclaimed science writer Colin Stuart. Impressive design meets exciting content in this title that will truly captivate and inspire.
Light and light based technologies have played an important role in transforming our lives via scientific contributions spanned over thousands of years. In this book we present a vast collection of articles on various aspects of light and its applications in the contemporary world at a popular or semi-popular level. These articles are written by the world authorities in their respective fields. This is therefore a rare volume where the world experts have come together to present the developments in this most important field of science in an almost pedagogical manner. This volume covers five aspects related to light. The first presents two articles, one on the history of the nature of light, and the other on the scientific achievements of Ibn-Haitham (Alhazen), who is broadly considered the father of modern optics. These are then followed by an article on ultrafast phenomena and the invisible world. The third part includes papers on specific sources of light, the discoveries of which have revolutionized optical technologies in our lifetime. They discuss the nature and the characteristics of lasers, Solid-state lighting based on the Light Emitting Diode (LED) technology, and finally modern electron optics and its relationship to the Muslim golden age in science. The book’s fourth part discusses various applications of optics and light in today's world, including biophotonics, art, optical communication, nanotechnology, the eye as an optical instrument, remote sensing, and optics in medicine. In turn, the last part focuses on quantum optics, a modern field that grew out of the interaction of light and matter. Topics addressed include atom optics, slow, stored and stationary light, optical tests of the foundation of physics, quantum mechanical properties of light fields carrying orbital angular momentum, quantum communication, and Wave-Particle dualism in action.
Light and Life in the Universe: Selected Lectures in Physics, Biology and the Origin of Life is a collection of lectures given at the 1964 Nuclear Research Foundation Summer Science School for High School Students, held at the University of Sydney, Australia, on January 6-17, 1964. The papers explore various aspects of life, both on earth and in the universe generally. Emphasis is placed on the ""units"" of living matter, how life may have started on earth, and the possibility of life on other planets. This book is comprised of 15 chapters and begins with a brief description of some of the properties of atoms and how they join up to form molecules, as well as some of the properties of the central core of each atom. The discussion then turns to electromagnetic radiation, highlighting the difficulties originally encountered by Ernest Rutherford's picture of the atom. Subsequent chapters focus on the influence of gravitational fields; the origin of the solar system; the evolution of life on earth; and link between the primordial atmosphere and the origin of life. The functions of proteins, the practical effects of biology on humans, and the replication of living molecules are also considered. This monograph is written specifically for fourth-year high school students interested in astronomy, physics, chemistry, and biology.
Astronomers have successfully observed a great deal of the Universe's history, from recording the afterglow of the Big Bang to imaging thousands of galaxies, and even to visualising an actual black hole. There's a lot for astronomers to be smug about. But when it comes to understanding how the Universe began and grew up we are literally in the dark ages. In effect, we are missing the first one billion years from the timeline of the Universe. This brief but far-reaching period in the Universe's history, known to astrophysicists as the 'Epoch of Reionisation', represents the start of the cosmos as we experience it today. The time when the very first stars burst into life, when darkness gave way to light. After hundreds of millions of years of dark, uneventful expansion, one by the one these stars suddenly came into being. This was the point at which the chaos of the Big Bang first began to yield to the order of galaxies, black holes and stars, kick-starting the pathway to planets, to comets, to moons, and to life itself. Incorporating the very latest research into this branch of astrophysics, this book sheds light on this time of darkness, telling the story of these first stars, hundreds of times the size of the Sun and a million times brighter, lonely giants that lived fast and died young in powerful explosions that seeded the Universe with the heavy elements that we are made of. Emma Chapman tells us how these stars formed, why they were so unusual, and what they can teach us about the Universe today. She also offers a first-hand look at the immense telescopes about to come on line to peer into the past, searching for the echoes and footprints of these stars, to take this period in the Universe's history from the realm of theoretical physics towards the wonder of observational astronomy.
This is a book about the physics of stars and starlight. The story of starlight is truly fascinating. Astronomers analyze and interpret the light from stars using photometry and spectroscopy, then inspirational detective work combines with the laws of physics to reveal the temperatures, masses, luminosities and outer structure of these far away points of light. The laws of physics themselves enable us to journey to the very center of a star and to understand its inner structure and source of energy! Starlight provides an in-depth study of stellar astrophysics that requires only basic high school mathematics and physics, making it accessible to all amateur astronomers. Starlight teaches amateur astronomers about the physics of stars and starlight in a friendly, easy-to-read way. The reader will take away a profoundly deeper understanding of this truly fascinating subject – and find his practical observations more rewarding and fulfilling as a result.