Description
Discover the fascinating world of Visual Differential Geometry and Forms, where complex mathematical concepts meet engaging visual explanations. Authored by Tristan Needham, this remarkable trade paperback published by Princeton University Press in 2021 is ideal for students and mathematics enthusiasts alike. The book employs 235 hand-drawn diagrams to vividly illustrate essential principles of differential geometry, making advanced topics accessible and intuitive.
Through its first four acts, this book performs a unique dive into the geometry behind differential geometry. Notably, it presents four distinct geometric proofs of the Global Gauss-Bonnet theorem, brilliantly connecting local geometry with global topology. Readers will appreciate the geometric elucidation of Gauss's Theorema Egregium and the comprehensive treatment of the Riemann curvature tensor of n-manifolds. Furthermore, the text provides an insightful explanation of Einstein's field equations, showcasing the interplay between gravity and curved spacetime, while paving the way to understand gravitational waves, black holes, and the grand scheme of cosmology.
In the last act, Needham tackles advanced yet comprehensible topics like the integration of vector calculus integral theorems, Maxwell’s equations reformulated in elegant 2-forms, and de Rham cohomology. This book also introduces Cartan’s method of moving frames and culminates with the calculation of the Riemann tensor via curvature 2-forms. Designed for those with only a foundational knowledge of calculus and geometry, Visual Differential Geometry and Forms is a revolutionary approach that reshapes how these critical mathematical concepts are taught and understood.
Through its first four acts, this book performs a unique dive into the geometry behind differential geometry. Notably, it presents four distinct geometric proofs of the Global Gauss-Bonnet theorem, brilliantly connecting local geometry with global topology. Readers will appreciate the geometric elucidation of Gauss's Theorema Egregium and the comprehensive treatment of the Riemann curvature tensor of n-manifolds. Furthermore, the text provides an insightful explanation of Einstein's field equations, showcasing the interplay between gravity and curved spacetime, while paving the way to understand gravitational waves, black holes, and the grand scheme of cosmology.
In the last act, Needham tackles advanced yet comprehensible topics like the integration of vector calculus integral theorems, Maxwell’s equations reformulated in elegant 2-forms, and de Rham cohomology. This book also introduces Cartan’s method of moving frames and culminates with the calculation of the Riemann tensor via curvature 2-forms. Designed for those with only a foundational knowledge of calculus and geometry, Visual Differential Geometry and Forms is a revolutionary approach that reshapes how these critical mathematical concepts are taught and understood.