Dense Gases, Liquids and Solids
Develop expertise in statistical thermodynamic analysis methods to understand and predict complex molecular behavior in dense matter systems.
Develop expertise in statistical thermodynamic analysis methods to understand and predict complex molecular behavior in dense matter systems.
This course cannot be purchased separately - to access the complete learning experience, graded assignments, and earn certificates, you'll need to enroll in the full Statistical Thermodynamics Specialization program. You can audit this specific course for free to explore the content, which includes access to course materials and lectures. This allows you to learn at your own pace without any financial commitment.
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What you'll learn
Analyze intermolecular forces impact on gas-liquid transitions
Evaluate thermodynamic system stability
Assess radial distribution function role in liquid properties
Describe crystalline solids using statistical thermodynamics
Master dense gas behavior and phase transitions
Skills you'll gain
This course includes:
1.2 Hours PreRecorded video
4 quizzes
Access on Mobile, Tablet, Desktop
FullTime access
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There are 4 modules in this course
Course 4 of Statistical Thermodynamics addresses dense gases, liquids, and solids. The curriculum covers how intermolecular forces affect behavior as gas density increases, explores transitions between gas and liquid states, examines thermodynamic stability, and investigates properties of liquids using radial distribution functions. The course concludes with an analysis of crystalline solids using statistical thermodynamics.
Universal Theories and Renormalization Group
Module 1 · 2 Hours to complete
From Renormalization Group to Phases
Module 2 · 3 Hours to complete
Band Theory
Module 3 · 3 Hours to complete
Metals and Insulators
Module 4 · 3 Hours to complete
Fee Structure
Instructor
Professor of Mechanical Engineering
John W. Daily is a Professor of Mechanical Engineering at the University of Colorado Boulder, specializing in combustion and reacting flows. His research focuses on understanding the behavior of reacting systems to enhance control, improve safety, and mitigate harmful health effects in various applications, including propulsion, wildland fire management, biomass utilization, and material processing. Professor Daily's work aims to provide insights that can lead to safer and more efficient combustion processes.In addition to his research in combustion, Professor Daily is also interested in medical instrumentation and is a co-founder of Precision Biopsy, a company dedicated to developing optical methods for cancer diagnosis. He teaches courses such as "Dense Gases, Liquids and Solids," "Fundamentals of Macroscopic and Microscopic Thermodynamics," and "Quantum Mechanics," equipping students with essential knowledge in thermodynamics and fluid mechanics. Through his innovative teaching and impactful research, John W. Daily continues to contribute significantly to the fields of mechanical engineering and biomedical applications at CU Boulder.
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