Linear algebra and analytic geometry for physical sciences / Giovanni Landi, Alessandro Zampini.
By: Landi, Giovanni [author.]
Contributor(s): Zampini, Alessandro [author.]
Language: English Series: Undergraduate lecture notes in physics: Publisher: Cham, Switzerland : Springer, 2018Description: 1 online resource (xii, 345 pages)Content type: text Media type: computer Carrier type: online resourceISBN: 9783319783611; 3319783610Subject(s): Algebras, Linear | Geometry, Analytic | Algèbre linéaire | Géométrie analytique | Algebra | Maths for engineers | Geometry | Maths for computer scientists | Mathematical modelling | Mathematical physics | Mathematics -- Algebra -- Linear | Mathematics -- Applied | Mathematics -- Geometry -- General | Computers -- Data Processing | Science -- Mathematical Physics | Algebras, Linear | Geometry, AnalyticGenre/Form: Electronics books.Additional physical formats: Print version:: Linear algebra and analytic geometry for physical sciences.LOC classification: QA184.2Online resources: Springer Nature Summary: A self-contained introduction to finite dimensional vector spaces, matrices, systems of linear equations, spectral analysis on euclidean and hermitian spaces, affine euclidean geometry, quadratic forms and conic sections. The mathematical formalism is motivated and introduced by problems from physics, notably mechanics (including celestial) and electro-magnetism, with more than two hundreds examples and solved exercises. Topics include: The group of orthogonal transformations on euclidean spaces, in particular rotations, with Euler angles and angular velocity. The rigid body with its inertia matrix. The unitary group. Lie algebras and exponential map. The Dirac's bra-ket formalism. Spectral theory for self-adjoint endomorphisms on euclidean and hermitian spaces. The Minkowski spacetime from special relativity and the Maxwell equations. Conic sections with the use of eccentricity and Keplerian motions. An appendix collects basic algebraic notions like group, ring and field; and complex numbers and integers modulo a prime number. The book will be useful to students taking a physics or engineer degree for a basic education as well as for students who wish to be competent in the subject and who may want to pursue a post-graduate qualification.| Item type | Current location | Home library | Call number | Status | Date due | Barcode | Item holds |
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COLLEGE LIBRARY | COLLEGE LIBRARY | Not for loan |
Includes index.
A self-contained introduction to finite dimensional vector spaces, matrices, systems of linear equations, spectral analysis on euclidean and hermitian spaces, affine euclidean geometry, quadratic forms and conic sections. The mathematical formalism is motivated and introduced by problems from physics, notably mechanics (including celestial) and electro-magnetism, with more than two hundreds examples and solved exercises. Topics include: The group of orthogonal transformations on euclidean spaces, in particular rotations, with Euler angles and angular velocity. The rigid body with its inertia matrix. The unitary group. Lie algebras and exponential map. The Dirac's bra-ket formalism. Spectral theory for self-adjoint endomorphisms on euclidean and hermitian spaces. The Minkowski spacetime from special relativity and the Maxwell equations. Conic sections with the use of eccentricity and Keplerian motions. An appendix collects basic algebraic notions like group, ring and field; and complex numbers and integers modulo a prime number. The book will be useful to students taking a physics or engineer degree for a basic education as well as for students who wish to be competent in the subject and who may want to pursue a post-graduate qualification.
Online resource; title from PDF title page (SpringerLink, viewed May 14, 2018).
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