This book has been written after the author's discovery of a new way in which wave phenomena occur. In the history of science, this is the first time we have realized this new way—the emission origin of waves—of producing wave phenomena. The emission origin for wave phenomena is not incompatible with the ideas of quantum theory; rather, it justifies the use of probabilistic methods of quantum theory. However, the emission origin for waves shows that quantum theory is statistically incomplete in, precisely, Einstein's sense. Underlying the ideas of quantum theory, there exists then a certain, previously unexplored, conceptual framework. This book describes such a conceptual framework.
The book demonstrates how the Doppler effect with acceleration is essential to interpreting astronomical observations. It also offers a detailed and self-sufficient technical background of mathematical ideas of category theory. It is a great reference for advanced undergraduate- and graduate-level students of physics and researchers in physics, astronomy, and cosmology.
About the Author:
Sanjay Moreshwar Wagh is director of the Central India Research Institute, Nagpur, India. He discovered a mathematical way of defining measures over any category, which led him to propose the universal theory of relativity. He also proposed that light consists of momentum-less quanta of only energy, and explained the wave properties of quanta using their emission characteristics—the emission origin for a wave of quanta. Professor Wagh is associated with many national and international societies of scientists and professionals. His research interests include theoretical astrophysics, image processing, fundamental physical interactions, nanoscale phenomena, the Joshi effect, the physics of sports, category theory, and universal relativity.
Key Features:
- Contains a discussion of historical nature in order to motivate ideas of universal relativity that is also for a wide readership
- Demonstrates that the Doppler effect with acceleration is essential to interpretations of astronomical observations
- Offers a detailed and self-sufficient technical background of mathematical ideas of category theory that will be useful to students of physics and researchers