Menù principale
B016926 - ELEMENTS OF BIOCHEMICAL THERMODYNAMICS AND MOLECULAR PROPERTIES
Main information
Teaching Language
Course Content
Suggested readings
Learning Objectives
Prerequisites
Teaching Methods
Type of Assessment
Course program
Academic Year 2021-22
Course year
First year - Second Semester
Belonging Department
Experimantal and Clinical Medicine
Course Type
Single education field course
Scientific Area
CHIM/02 - PHYSICAL CHEMISTRY
Credits
6
Teaching Hours
48
Teaching Term
28/02/2022 ⇒ 18/06/2022
Attendance required
No
Type of Evaluation
Final Grade
Course Content
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Course program
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Lectureship
Teaching Language
italian
Course Content
Thermodynamics laws. physical and chemical transformations. Phase equilibria. Thermodynamics reactions. Chemical potential. Phase diagrams. Equations of quantum chemistry. Models for the resolutions. Vibrating rope; particle in the box; rigid rotator; harmonic oscillator. Hydrogen atom. Chemical Bond: VB and MO theory. Hydrogen ion molecule. Intermolecular interactions. Light-matter interaction. Spectroscopy: IR and Raman, Electronic absorption and emission. Laser.
Suggested readings (Search our library's catalogue)
Atkins-De Paula: Elementi di Chimica Fisica
Atkins-De Paula: Chimica Fisica
MOODLE platform contains the class slides.
Atkins-De Paula: Chimica Fisica
MOODLE platform contains the class slides.
Learning Objectives
Basic knolewdge on thermodynamics.
Molecular models to introduce quantum mechanics.
Spectroscopic tools.
theorical examples and exercises.
Molecular models to introduce quantum mechanics.
Spectroscopic tools.
theorical examples and exercises.
Prerequisites
mathematics
physics
general chemistry
physics
general chemistry
Teaching Methods
class and lab
Type of Assessment
oral examination. Three questions: first thermodynamics with exercise, second quantum chemistry third spectroscopic applications.
Course program
Thermodynamics laws. physical and chemical transformations. Phase equilibria. Phase diagrams. Chemical potential. Thermodynamics reactions. Equations of quantum chemistry. Models for the resolutions. Vibrating rope; particle in the box; rigid rotator; harmonic oscillator. Hydrogen atom. Chemical Bond: VB and MO theory. Hydrogen ion molecule. Intermolecular interactions. Light-matter interaction: absorption, transmission, emission, diffusion. Optical spectroscopy: IR, Raman, UV-vis, circular dichroism, fluorescence. Stimulated emission and Lasers.