BIOVISUAL LAB
C. Thermodynamics in Biological Systems
Thermodynamics in Biological Systems. First and second law of thermodynamics, Biological systems as open non-equilibrium systems, Failure of classical thermodynamics in describing biological processes, Concepts of thermodynamics flux and force, Concept of entropy production, Constitutive equations, Thermodynamics of coupled biochemical reactions, Thermodynamic analysis of oxidative phosphorylation, Glycolytic oscillations; biological clocks
S12 - C
C. Thermodynamics in Biological Systems
Thermodynamics in Biological Systems. First and second law of thermodynamics, Biological systems as open non-equilibrium systems, Failure of classical thermodynamics in describing biological processes, Concepts of thermodynamics flux and force, Concept of entropy production, Constitutive equations, Thermodynamics of coupled biochemical reactions, Thermodynamic analysis of oxidative phosphorylation, Glycolytic oscillations; biological clocks
Topic Content
Interactive learning modules for each subtopic.
First and second law of thermodynamics, Biological systems as open non-equilibrium systems, Failure of classical thermodynamics in describing biological processes, Concepts of thermodynamics flux and force, Concept of entropy production, Constitutive equations, Thermodynamics of coupled biochemical reactions, Thermodynamic analysis of oxidative phosphorylation, Glycolytic oscillations
- First and second law of thermodynamics
- Biological systems as open non-equilibrium systems
- Failure of classical thermodynamics in describing biological processes
- +6 more concepts...
biological clocks
- biological clocks
Interactive Labs
Hands-on experiments and simulations for this topic.
Continue Learning
← Back to Biochemical Engineering and Industrial Biotechnology
View all topics in this subject
Next Topic
Coming soon - sequential navigation