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Titre : Le calcul tensoriel en physique : Cours et exercices corrigés. Type de document : texte imprimé Auteurs : Jean Hladik, Auteur Editeur : [Paris] : Dunod Année de publication : 1999 Importance : 228p. Présentation : couv:ill. Format : 25cm ISBN/ISSN/EAN : 978-2-10-004071-1 Langues : Français (fre) Catégories : 53 - Physique:530.1 Principes généraux de la physique Mots-clés : Calcul tensoriel
Physique théorique
Tenseurs
Mécanique des milieux continus
Relativité
Électromagnétisme
Vecteurs
Exercices corrigés
Physique mathématique
Coordonnées curvilignes
Tenseur métrique
Transformations de coordonnées
Applications physiques
Champs tensoriels
Dérivées covariantesIndex. décimale : 530.145 Mécanique quantique Résumé : Le calcul tensoriel a été inventé à la fin du XIXe siècle pour rendre compte des tensions au sein des milieux continus. Depuis, il est devenu un outil mathématique indispensable en physique. S'appuyant sur le calcul vectoriel enseigné dans le secondaire, ce petit livre expose la technique du calcul tensoriel et ses applications. Chaque chapitre s'achève par une série d'exercices corrigés. Le calcul tensoriel en physique : Cours et exercices corrigés. [texte imprimé] / Jean Hladik, Auteur . - [Paris] : Dunod, 1999 . - 228p. : couv:ill. ; 25cm.
ISBN : 978-2-10-004071-1
Langues : Français (fre)
Catégories : 53 - Physique:530.1 Principes généraux de la physique Mots-clés : Calcul tensoriel
Physique théorique
Tenseurs
Mécanique des milieux continus
Relativité
Électromagnétisme
Vecteurs
Exercices corrigés
Physique mathématique
Coordonnées curvilignes
Tenseur métrique
Transformations de coordonnées
Applications physiques
Champs tensoriels
Dérivées covariantesIndex. décimale : 530.145 Mécanique quantique Résumé : Le calcul tensoriel a été inventé à la fin du XIXe siècle pour rendre compte des tensions au sein des milieux continus. Depuis, il est devenu un outil mathématique indispensable en physique. S'appuyant sur le calcul vectoriel enseigné dans le secondaire, ce petit livre expose la technique du calcul tensoriel et ses applications. Chaque chapitre s'achève par une série d'exercices corrigés. Exemplaires(1)
Code-barres Date d'acquisition Origine Cote Support Localisation Section Disponibilité 3064 530.145 HLA Livre BIB-SE BIB-SE Exclu du prêt 31/12/2024
Titre : Quantum mechanics : a concise introduction Type de document : texte imprimé Auteurs : Biao Wu (19..-..), Auteur Editeur : [Beijing] : Peking University Press Importance : 1 vol. (XII-188 p.) Présentation : ill., couv. ill. en coul Format : 24 cm ISBN/ISSN/EAN : 978-981-19762-5-4 Langues : Anglais (eng) Mots-clés : Quantum mechanics
Wave functions
Schrödinger equation
Quantum states
Hilbert space
Quantum operators
Heisenberg uncertainty principle
Quantum measurement
Quantum systems
Dirac notation
Eigenvalues and eigenvectors
Quantum harmonic oscillator
Angular momentum
Spin
Quantum entanglementIndex. décimale : 530.145 Mécanique quantique Résumé : This textbook highlights a concise introduction to quantum mechanics in a readable and serious manner. Being readable, the book intends to present the beauty and magic of quantum mechanics to the mass public. Being serious, the book uses mathematics to describe the most profound results in quantum mechanics. To balance the two, the book assumes that the readers are familiar with high-school mathematics and instructs the least possible advanced mathematics necessary for the understanding of quantum mechanics.The book first covers the history of quantum mechanics and then introduces the magical quantum world, including quantum states living in Hilbert space, indistinguishable particles, linear superposition, Heisenberg's uncertainty relations, quantum entanglement, Bell's inequality, quantum energy levels, Schr?Eodinger?s cat and many-worlds theory, etc. To compare with classic physics, the book also covers the classic mechanics before introducing quantum mechanics. At last, the book briefly covers quantum computing and quantum communications. Besides readers of other majors, the book is also a good reference for students in physics. It helps physics students to develop a solid understanding of the basics of quantum mechanics, preventing them from getting lost in solving the Schr?Eodinger equation. The book also discusses quantum entanglement and quantum information which traditional quantum mechanics textbooks do not cover Quantum mechanics : a concise introduction [texte imprimé] / Biao Wu (19..-..), Auteur . - [Beijing] : Peking University Press, [s.d.] . - 1 vol. (XII-188 p.) : ill., couv. ill. en coul ; 24 cm.
ISBN : 978-981-19762-5-4
Langues : Anglais (eng)
Mots-clés : Quantum mechanics
Wave functions
Schrödinger equation
Quantum states
Hilbert space
Quantum operators
Heisenberg uncertainty principle
Quantum measurement
Quantum systems
Dirac notation
Eigenvalues and eigenvectors
Quantum harmonic oscillator
Angular momentum
Spin
Quantum entanglementIndex. décimale : 530.145 Mécanique quantique Résumé : This textbook highlights a concise introduction to quantum mechanics in a readable and serious manner. Being readable, the book intends to present the beauty and magic of quantum mechanics to the mass public. Being serious, the book uses mathematics to describe the most profound results in quantum mechanics. To balance the two, the book assumes that the readers are familiar with high-school mathematics and instructs the least possible advanced mathematics necessary for the understanding of quantum mechanics.The book first covers the history of quantum mechanics and then introduces the magical quantum world, including quantum states living in Hilbert space, indistinguishable particles, linear superposition, Heisenberg's uncertainty relations, quantum entanglement, Bell's inequality, quantum energy levels, Schr?Eodinger?s cat and many-worlds theory, etc. To compare with classic physics, the book also covers the classic mechanics before introducing quantum mechanics. At last, the book briefly covers quantum computing and quantum communications. Besides readers of other majors, the book is also a good reference for students in physics. It helps physics students to develop a solid understanding of the basics of quantum mechanics, preventing them from getting lost in solving the Schr?Eodinger equation. The book also discusses quantum entanglement and quantum information which traditional quantum mechanics textbooks do not cover Exemplaires(1)
Code-barres Date d'acquisition Origine Cote Support Localisation Section Disponibilité 7382 530.145 WUB1 Livre BIB-SE BIB-SE Disponible 31/12/2024 Representations of the rotation and Lorentz groups and their applications (2012) / 978-1-61427-346-2
Titre : Representations of the rotation and Lorentz groups and their applications Type de document : texte imprimé Année de publication : 2012 ISBN/ISSN/EAN : 978-1-61427-346-2 Mots-clés : Group theory
Rotation group
Lorentz group
Unitary representations
Mathematical physics
Relativistic quantum mechanics
Symmetries
Harmonic analysis
Special functions
Representation theory
Relativistic invariance
Lie algebra
UDC Classification (approximate):
512.54 (Group theory)
530.145 (Theoretical quantum mechanics)
514.74 (Differential geometry)
530.12 (Theory of relativity)
This book is considered a classic reference in the field of mathematical physics and continues to be studied by researchers working on the mathematical aspects of theoretical physics.RéessayerClaude peut faire des erreurs. Assurez-vous de vérifier ses réponses.Index. décimale : 530.145 Mécanique quantique Résumé : "Representations of the Rotation and Lorentz Groups and Their Applications" by I.M. Gel'fand (ISBN: 978-1-61427-346-2) is a fundamental mathematical work that explores the theory of representations of rotation and Lorentz groups and their applications in theoretical physics. The book rigorously develops the mathematical structure of representations of these important groups, which are essential for understanding relativistic quantum mechanics. Gel'fand presents analytical methods for studying the irreducible unitary representations of the Lorentz and rotation groups, and establishes deep connections with the theory of special functions. The work constitutes a major contribution to mathematical physics, providing the necessary tools for understanding symmetry in the equations of relativistic and quantum physics. Representations of the rotation and Lorentz groups and their applications [texte imprimé] . - 2012.
ISBN : 978-1-61427-346-2
Mots-clés : Group theory
Rotation group
Lorentz group
Unitary representations
Mathematical physics
Relativistic quantum mechanics
Symmetries
Harmonic analysis
Special functions
Representation theory
Relativistic invariance
Lie algebra
UDC Classification (approximate):
512.54 (Group theory)
530.145 (Theoretical quantum mechanics)
514.74 (Differential geometry)
530.12 (Theory of relativity)
This book is considered a classic reference in the field of mathematical physics and continues to be studied by researchers working on the mathematical aspects of theoretical physics.RéessayerClaude peut faire des erreurs. Assurez-vous de vérifier ses réponses.Index. décimale : 530.145 Mécanique quantique Résumé : "Representations of the Rotation and Lorentz Groups and Their Applications" by I.M. Gel'fand (ISBN: 978-1-61427-346-2) is a fundamental mathematical work that explores the theory of representations of rotation and Lorentz groups and their applications in theoretical physics. The book rigorously develops the mathematical structure of representations of these important groups, which are essential for understanding relativistic quantum mechanics. Gel'fand presents analytical methods for studying the irreducible unitary representations of the Lorentz and rotation groups, and establishes deep connections with the theory of special functions. The work constitutes a major contribution to mathematical physics, providing the necessary tools for understanding symmetry in the equations of relativistic and quantum physics. Exemplaires(1)
Code-barres Date d'acquisition Origine Cote Support Localisation Section Disponibilité 4123 530.145 GEL1 Livre BIB-SE BIB-SE Disponible
