New Insights into Physical Science Vol. 8
Synopsis
This book covers key areas of Physical Science. The contributions by the authors include X-ray reflectivity, Mössbauer spectroscopy, magnetic multilayers, standing waves, Turbulent bubbly flow, sudden pipe expansion, measurements, modeling, wall friction, heat transfer modification, Microgrid, distributed generation, renewable energies, dynamic economic dispatch, predictive control model, mathematical programming, Controlled nuclear fusion, Excited states of nuclei, Laser, Interaction of laser with matter, Ƴ-Laser or Ƴ-Ray, Nuclear fusion at low temperature, Neutron source, Lithium, Neutron-rich nucleus, Fusion of protons or deuterons with light nuclei, Low Temperatures, Gauge charges, structure constants, multiplication tables, color, Quantum Field Theory, Charges and Currents, Cognitive radio networks, energy harvesting, hybrid underlay/overlay scheme, maximum independent set, multichannel allocation, interference constraint, Energy Harvesting, cognitive radio networks (CRNs), secondary transmitters (STs), radio frequency (RF), Langevin formula, derivation, permittivity, rigid dipoles, dipole-moment value, The volume of phase space, entropy, molar warmth of evaporation, Volume of phase space, entropy, melting heat, Molar Heat of Fusion, Imaginary numbers, quaternions, special theory of relativity, principle of light speed non-exceedance, relativistic formulas, parallel universes, portals, dark matter, dark energy, dark space, Multiverse, Hyperverse, Special Theory of Relativity etc. This book contains various materials suitable for students, researchers and academicians in the field of Physical Science.
Chapters
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Chapter 1Polarization Analysis in Synchrotron Mössbauer Reflectometry
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Chapter 2An Experimental and Numerical Study of Turbulent Bubbly Flow and Heat Transfer in a Vertical Pipe with Sudden Expansion
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Chapter 3Recent Study on Optimal Economic Dispatch in Microgrids with Renewable Energy Sources
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Chapter 4An Advanced Way to Realize Controlled Nuclear Fusion by γLaser or γRay
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Chapter 5Describing a Possible Way to Realize Controlled Nuclear Fusion at Low Temperatures
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Chapter 6Investigation on the Charges and Currents in the Quantum Field Theory
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Chapter 7Evaluating the Performance Maximization of Multichannel Allocation Mechanism under Interference Constraint for Hybrid Overlay/Underlay Cognitive Radio Networks with Energy Harvesting
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Chapter 8Investigating if the Derivation of the Langevin Formula is Correct?
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Chapter 9Research on Calculating Molar Heat of Evaporation
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Chapter 10Study on Calculating Molar Heat of Fusion
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Chapter 11A Recent Approach: Ohm’s Law Refutes Current Version of the Special Theory of Relativity