This book presents a global hydrographic description of the thermohaline circulation, an introduction to the theoretical aspects of this phenomenon, and observational evidence for the theory.
A Method for Studying Model Hamiltonians: A Minimax Principle for Problems in Statistical Physics centers on methods for solving certain problems in statistical physics which contain four-fermion interaction.
Designing new structural materials, extending lifetimes and guarding against fracture in service are among the preoccupations of engineers, and to deal with these they need to have command of the mechanics of material behaviour.
As our dependence on and need for abundant energy grows, it becomes increasingly important for engineers and managers to develop and maintain energy efficient systems and build effective energy management programs.
Liutex and Its Applications in Turbulence Research reviews the history of vortex definition, provides an accurate mathematical definition of vortices, and explains their applications in flow transition, turbulent flow, flow control, and turbulent flow experiments.
Originally published in 1979, Solar Energy provides a tour of the world of solar energy and asks two key questions: is solar energy the key to the future of our energy needs, and what are the facts and potential of this source of renewable power.
Nanofluids: Mathematical, Numerical and Experimental Analysis provides a combined treatment of the numerical and experimental aspects of this crucial topic.
Understanding the dynamics of gauge theories is crucial, given the fact that all known interactions are based on the principle of local gauge symmetry.
Surface Structure Modification and Hardening of Al-SI Alloys explores the hardening of material surfaces using concentrated energy flows resulting in the nanostructuring of surface layers.
The main objective of this book is to understand and manipulate the physical, chemical, and biological processes that occur in microscale fluidic systems.
Tobias Schüttler stellt in diesem essential beide im Detail sehr anspruchsvollen Gebiete – Einsteins berühmte Relativitätstheorie und die Satellitenortung mit GPS und Galileo – in allgemein verständlicher Weise dar und erklärt die Einflüsse der Relativitätstheorie bei der Satellitennavigation ohne höhere Mathematik.
In the first two books in his wildly popular The Theoretical Minimum series, world-class physicist Leonard Susskind provided a brilliant first course in classical and quantum mechanics, offering readers not an oversimplified introduction, but the real thing - everything you need to start doing physics, and nothing more.
Tobias Schüttler stellt in diesem essential beide im Detail sehr anspruchsvollen Gebiete – Einsteins berühmte Relativitätstheorie und die Satellitenortung mit GPS und Galileo – in allgemein verständlicher Weise dar und erklärt die Einflüsse der Relativitätstheorie bei der Satellitennavigation ohne höhere Mathematik.
Reveals how the pyramids of Egypt were sophisticated generators of clean energy*; Explains how the pyramids harmonized seismic energy, which enabled the harvesting of electricity and the mitigation of earthquakes*; Shares recent cutting-edge research on earthquake lights, acoustic frequency measurements and energy concentration within the Great Pyramid, the shafts of the Queen's Chamber, the scorch marks that support the King's Chamber explosion hypothesis, and the significance of the large void above the Grand Gallery*; Includes technical appendices written by experts and top researchersSharing extensive new evidence and cutting-edge research that the Great Pyramid at Giza was built as an energy-harvesting machine, Christopher Dunn details how the ancient Egyptians generated clean power for their civilization and reveals how the pyramid builders and the great inventor Nikola Tesla drew from the same universal knowledge.
Dieses essential vermittelt auf eingängige Weise, worum es bei Albert Einsteins Relativitätstheorie geht und weshalb sie von so großer Bedeutung für die Wissenschaft und den Alltag ist.
Die Autoren zeigen in diesem essential, wie Schwingungen und Wellen in vielen Teilgebieten der Physik auftreten und dass ein Massenpunkt um seine Ruhelage oder ein elektrischer Strom um den Wert Null schwingen können.
Die Autoren zeigen in diesem essential, wie Schwingungen und Wellen in vielen Teilgebieten der Physik auftreten und dass ein Massenpunkt um seine Ruhelage oder ein elektrischer Strom um den Wert Null schwingen können.
Dieses essential vermittelt auf eingängige Weise, worum es bei Albert Einsteins Relativitätstheorie geht und weshalb sie von so großer Bedeutung für die Wissenschaft und den Alltag ist.
