This book is intended for physics students (undergraduate/transition to graduate) who want to prepare for lectures on general relativity. Some knowledge of linear algebra and analysis are required. This textbook starts with basic topics such as vector space and vectors (chapter 1), dual space and covectors (chapter 2), tensors (chapter 3), etc.. Great importance is always attached to the clarity of the explanations and derivations of the topics. 23 figures support these intentions.
General relativity is in its deeper sense a geometric theory. Therefore, the emphasis in this textbook has...
This book is intended for physics students (undergraduate/transition to graduate) who want to prepare for lectures on general relativity. Some knowled...
This book is intended for physics students (undergraduate/transition to graduate) who want to prepare for lectures on general relativity. Some knowledge of linear algebra and analysis are required. This textbook starts with basic topics such as vector space and vectors (chapter 1), dual space and covectors (chapter 2), tensors (chapter 3), etc.. Great importance is always attached to the clarity of the explanations and derivations of the topics. 31 figures support these intentions.
General relativity is in its deeper sense a geometric theory. Therefore, the emphasis in this textbook has...
This book is intended for physics students (undergraduate/transition to graduate) who want to prepare for lectures on general relativity. Some knowled...
Der Autor entwickelt eine Art Quantenstruktur der Schöpfung und legt dies durch viele Fakten aus Natur, Geschichte und Wissenschaft dar.Die Schöpfung wird als Schichtenstruktur beschrieben. Darin wird die Stellung des Menschen in hervorgehobener Weise erklärt. Es wird ein Wegweiser für ein schöpfungskonformes Verhalten des Menschen abgeleitet.
Der Autor entwickelt eine Art Quantenstruktur der Schöpfung und legt dies durch viele Fakten aus Natur, Geschichte und Wissenschaft dar.Die Schöpfun...
This book is intended to help students of physics and other branches of science in the first semesters of their studies to better understand the applied mathematical methods of Lagrangian and Hamiltonian mechanics. The book has the benefit of learning, in addition to the physical processes of classical mechanics, with focus on Lagrangian and Hamiltonian mechanics, the mathematical methods that are equally needed in other branches of physics. These include: Vector calculus, matrix calculus, tensor calculus, differential equations, derivative chain rule, Taylor series, differential geometry,...
This book is intended to help students of physics and other branches of science in the first semesters of their studies to better understand the appli...
