Add to ORKGThe article discusses the pioneering work of Erwin Schrödinger on wave mechanics that forms the basis of modern understanding in subatomic behavior. Schrödinger introduced a second-order differential equation that had to be solved to explain the nature of the hydrogen atom. He also demonstrated that the matrix mechanics of Heisenberg and Born were mathematically equivalent and developed the concept of perturbation theory to explain the Stark effect
Experimental basis of quantum mechanics ; derivation of the wave equation ; the hydrogen atom ; angu...
(Portion of First Page) Classical Physics leads to Quantum Mechanics: On July 5th 1687, over 300 yea...
This introductory text emphasizes Feynman's development of path integrals and its application to wav...
The article presents several theories relative to the nature of matter. The quantum theory of German...
The article examines the failure of classical mechanics that necessitated the development of a new t...
The article examines the failure of classical mechanics that necessitated the development of a new t...
The article features the last and fourth part of the lecture series about the application of quantum...
quantum mechanics was first developed. Quantum mechanics proved very successful in describing what i...
The classical laws ofmotion and Newtonian thought met considerable opposition in the late 1800s and ...
This text on quantum mechanics begins by covering all the main topics of an introduction to the subj...
In this article we derive the solution to the Schrödinger's equation in one dimension for a simple e...
Fundamentals of Quantum Mechanics, Third Edition is a clear and detailed introduction to quantum mec...
The article discusses the issues of the formation of quantum mechanics, the creation of a mathematic...
In the context of a new analysis of the notebooks of Erwin Schrödinger, the paper deals with the que...
Many attempts were made to derive with the old quantum theory structures for the hydrogen molecule, ...
Experimental basis of quantum mechanics ; derivation of the wave equation ; the hydrogen atom ; angu...
(Portion of First Page) Classical Physics leads to Quantum Mechanics: On July 5th 1687, over 300 yea...
This introductory text emphasizes Feynman's development of path integrals and its application to wav...
The article presents several theories relative to the nature of matter. The quantum theory of German...
The article examines the failure of classical mechanics that necessitated the development of a new t...
The article examines the failure of classical mechanics that necessitated the development of a new t...
The article features the last and fourth part of the lecture series about the application of quantum...
quantum mechanics was first developed. Quantum mechanics proved very successful in describing what i...
The classical laws ofmotion and Newtonian thought met considerable opposition in the late 1800s and ...
This text on quantum mechanics begins by covering all the main topics of an introduction to the subj...
In this article we derive the solution to the Schrödinger's equation in one dimension for a simple e...
Fundamentals of Quantum Mechanics, Third Edition is a clear and detailed introduction to quantum mec...
The article discusses the issues of the formation of quantum mechanics, the creation of a mathematic...
In the context of a new analysis of the notebooks of Erwin Schrödinger, the paper deals with the que...
Many attempts were made to derive with the old quantum theory structures for the hydrogen molecule, ...
Experimental basis of quantum mechanics ; derivation of the wave equation ; the hydrogen atom ; angu...
(Portion of First Page) Classical Physics leads to Quantum Mechanics: On July 5th 1687, over 300 yea...
This introductory text emphasizes Feynman's development of path integrals and its application to wav...