Purdue University: From Atoms to Materials: Predictive Theory and Simulations

Learn how materials look and work at atomic scales.

10 weeks

4–6 hours per week

Instructor-paced

Instructor-led on a course schedule

About this course

Explore this five-unit course and discover a unified framework for understanding the essential physics that govern materials at atomic scales. You’ll then be able to relate these processes to the macroscopic world.

The course starts with an introduction to quantum mechanics and its application to understand the electronic structure of atoms and the nature of the chemical bond. After a brief description of the electronic and atomic structures of molecules and crystals, the course discusses atomic motion in terms of normal modes and phonons, as well as using molecular dynamics simulations.

Finally, principles of statistical mechanics are introduced and used to relate the atomic world to macroscopic properties.

Throughout the course, students will use online simulations in nanoHUB to apply the concepts learned to interesting materials and properties; these simulations will involve density functional theory and molecular dynamics.

At a glance

Institution: PurdueX
Subject: Engineering
Level: Advanced
Prerequisites:
Any student or professional with a background in engineering or physical science should be able to take this course. We will assume students know basic classical physics (e.g. Newton’s equations, and electrostatics) and college-level math (calculus and algebra).

Language: English
Video Transcript: English
Associated skills: Mechanics, Physics, Density Functional Theory, Quantum Mechanics, Molecular Dynamics

What you'll learn

Skip What you'll learn

Principles of classical and quantum mechanics and their application to describe materials at atomic scales
Statistical mechanics to connect the atomistic and macroscopic worlds
How to use density functional theory and molecular dynamics to predict materials properties and processes

Syllabus

Skip Syllabus

Unit 1: Quantum Mechanics and Electronic Structure

Unit 2: Electronic Structure and Bonding of Molecules and Crystals

Unit 3: Dynamics of Atoms: Classical Mechanics and MD Simulations

Unit 4: Connecting Atomic Processes to the Macroscopic World – Vibrations, Optical, and Dielectric Response, Thermo-mechanical Properties

Unit 5: Advanced Topics and Case Studies. Density functional theory; reactive molecular dynamics, and more.

Ways to take this course

Choose your path when you enroll.

	Verified Track	Audit Track
Price	$49 USD	Free
Access to course materials	Unlimited	Limited
World class institutions and universities
edX support
Shareable certificate upon completion
Graded assignments and exams

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Purdue University: From Atoms to Materials: Predictive Theory and Simulations

From Atoms to Materials: Predictive Theory and Simulations

About this course

At a glance

What you'll learn

Syllabus

Ways to take this course

Verified Track

Audit Track

Price

Access to course materials

World class institutions and universities

edX support

Shareable certificate upon completion

Graded assignments and exams

Interested in this course for your business or team?