Ch 9 pages 446-451; 455-463 Lecture 20 – Particle and Waves.
1. Quantum theory: introduction and principles = c 1.1 The failures of classical physics 1.2 Wave-particle duality 1.3 The Schrödinger equation 1.4 The.
Schrodinger’s Equation for Three Dimensions. QM in Three Dimensions The one dimensional case was good for illustrating basic features such as quantization.
Quantization of Charge, Light, and Energy. 1. Quantization of Electric Charge; 1. Quantization of Electric Charge; 2. Blackbody Radiation; 2. Blackbody.
Presented by Group 6: Neal Boseman, Vessen Hopkins, and Sarah Moorman.
Exploring C-Chem with numeric MM and Ab-Initio methods Masood Malekghassemi.
Zero-point Energy Minimum energy corresponds to n=1 n=0 => n (x)=0 for all x => P(x)=0 => no electron in the well zero-point energy never at rest! Uncertainty.
1- Text Book, Fundamental of Molecular Spectroscopy, C. N. Banwell, 4 th ed.,1995 2- Internet website Resources.
The science that drives modern computers. COS 116: 4/8/2008 Sanjeev Arora.
Quantum Dots – Past, Present and Open Questions Yigal Meir Department of Physics & The Ilse Katz Center for Meso- and Nano-scale Science and Technology.
Analysis Techniques Chapter 5: Organic Analysis The theory of Light Spectrophotometry Mass Spectoscopy Chapter 6: Inorganic Analysis Atomic Emission Spectroscopy.
Quantum Theory Classical physics failed to explain certain events which led to the development of the field known as quantum mechanics. Explains particle.