Course 2 of Statistical Thermodynamics presents an introduction to quantum mechanics at a level appropriate for those with mechanical or aerospace engineering backgrounds. Using a postulatory approach that describes the steps to follow, the Schrodinger wave equation is derived and simple solutions obtained that illustrate atomic and molecular structural behavior. More realistic behavior is also explored along with modern quantum chemistry numerical solution methods for solving the wave equation.
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Quantum Mechanics
This course is part of Statistical Thermodynamics Specialization
Instructor: John W. Daily
22,142 already enrolled
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(716 reviews)
What you'll learn
Describe the relationship between the Schrödinger wave equation and atomic/molecular structural behavior
Demonstrate an understanding of modern quantum chemistry numerical solution methods for solving the wave equation
Analyze the role of quantum mechanics in explaining atomic and molecular structural behavior
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There are 3 modules in this course
Module 1presents an introduction to quantum mechanics at a level appropriate for those with mechanical or aerospace engineering backgrounds. Using a postulatory approach that describes the steps to follow, the Schrodinger wave equation is derived and it is showen that the time dependence can be separated and a stationary wave equation results.
What's included
4 videos4 readings1 assignment1 discussion prompt
In module 2 we solve the stationary wave equation for several simple systems. These include the particle in a box, the rigid rotator, the harmonic oscillator, and the hydrogenic atom. These simple solutions form the basisi for discussing real atomic and molecular behavior in the next module.
What's included
4 videos4 readings1 discussion prompt
In Module 3 we explore the more realistic behavior of atoms and molecules. We also introduce and discuss numerical methods for solving the wave equation.
What's included
6 videos6 readings2 discussion prompts
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