Thermodynamic Properties of Inorganic Substances - D101002
Title: Termodynamické vlastnosti anorganických látek
Guaranteed by: Department of Inorganic Chemistry (101)
Faculty: Faculty of Chemical Technology
Actual: from 2015 to 2021
Semester: winter
Points: winter s.:0
E-Credits: winter s.:0
Examination process: winter s.:
Hours per week, examination: winter s.:0/0, other [HT]
Capacity: unknown / unknown (unknown)
Min. number of students: unlimited
Language: Czech
Teaching methods: full-time
Teaching methods: full-time
Level:  
For type:  
Note: course is intended for doctoral students only
can be fulfilled in the future
Guarantor: Flemr Vratislav doc. Ing. CSc.
Examination dates   
Annotation -
Last update: VED101 (14.05.2014)
The course is based on the fundamental principles of general and inorganic chemistry, physical chemistry and solid state chemistry and physics. It opens a way to a deeper understanding the role of energy in chemical processes. The students will have an opportunity to check on the specific examples and problems their ability to assess the reactivity, stability and possibility of formation of inorganic substances.
Aim of the course -
Last update: FLEMRV (16.05.2014)

Students will be able to:

Clarify the origin as well meaning of energy and entropic contributions to the properties of inorganic substances.

Assess the impact of non-standard conditions on the energy pronouncement of substances.

To estimate the possibility of inorganic compounds inherency.

Justify the behavior of cations and anions in polar solvents.

Explain the periodic trends in the thermodynamic properties of inorganic compounds.

Literature -
Last update: VED101 (14.05.2014)

R: W.E. Dasent, Inorganic Energetics: an Introduction, Cambridge University Press, 1982

A: D.A. Johnson, Some Thermodynamic Aspects of Inorganic Chemistry, Cambridge University Press, 1982

Syllabus -
Last update: FLEMRV (16.05.2014)

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1. Energy changes in inorganic reactions

2. Thermodynamic stability and kinetics

3. Energetics of gaseous atoms, ions and molecules

4. Energetics of ionic crystals. Lattice energies

5. Periodic trends in ΔGof and ΔHof for ionic crystals

6. Estimation of ΔGof for ionic compounds

7. Energetics of covalent compounds. Bond energies

8. Periodic trends in ΔGof and ΔHof for covalent compounds

9. Energetics of metals and alloys

10. Energetics of ions in water solutions. Hydratation

11. Electrode potentials

12. Strength of inorganic acids and bases in aqueous solution

13. Stability of covalent and complex compounds in aqueous systems

14. Thermochemical cycles