| Expected results from this subject |
Training and Learning Results |
| Explain the hypotheses, the consequences and the fundamental results of the Molecular Kinetical Theory of the gases |
|
|
C7
C14
C19
C23
|
D1
D3
D4
D9
|
| Describe the general mechanism of the process of transport and *particularizarlo for the transport of distinct physical properties. Comprise the origin of the ionic conductivity. Know apply this knowledge to the determination of thermodynamic parameters like constants of balance, coefficients of activity or others like molar conductivities limit. |
|
|
C7
C14
C19
C23
|
D1
D3
D4
D9
|
| Define with precision, all the basic concepts in Kinetical Chemical, and know the distinct methods of analysis of data to obtain equations
of speed. |
|
|
C7
C19
C23
|
D1
D3
D4
D9
|
| Establish the kinetical behaviour of complex reactions and apply the most usual approximations in kinetical chemical. Obtain equations of speed of complex processes from the corresponding mechanisms. Distinguish between complexes of Arrhenius and van't Hoff and know realise a kinetical treatment-formal general for both cases. |
|
|
C7
C14
C19
|
D1
D3
D4
D9
|
| Describe the foundation of the distinct experimental technicians available for the kinetical study of the chemical reactions. |
|
|
C20
C27
C28
|
D1
D3
D4
D9
|
| Be able to carry out the analysis of kinetical data, including the ones of complex reactions and relate the same with the mechanisms of reaction. |
|
|
C7
C19
C27
|
D1
D3
D4
D7
D9
|
| Explain the fundamental hypotheses of the distinct theories on the chemical change, as well as the results and the limitations of each one of them (Theory of Collisions and Theory of the State of Transition and know apply them like tool in the analysis of kinetical results). |
|
|
C7
C14
C19
|
D1
D3
D4
D9
|
| Describe the distinct types of *catálisis, explain the mechanism of the reactions *catalizadas and apply it to concrete cases. Know *particularizar said kinetical treatment-formal to the distinct types of *catálisis |
|
|
C7
C19
|
D1
D3
D4
D9
|
| Know the basic structure of the *interfase energised and his applications to the study of the stability of the colloids and of the processes in the *interfases *electródicas. |
|
|
C7
C14
C19
|
D1
D3
D4
D9
|
| Explain the principles that govern the phenomena of adsorption on solid surfaces and distinguish the types. Comprise the origin of the distinct isotherms of adsorption and know apply them to concrete problems.
|
|
|
C14
C19
|
D1
D3
D4
D9
|
| Explain the nature and structure of the macromolecules in dissolution and the most representative models for his description. |
|
|
C14
C19
|
D1
D3
D4
D9
|
| Describe with clarity the nature and the distinct types of systems *coloidales. Comprise the basic appearances of the thermodynamic treatment of the macromolecular dissolutions. |
|
|
C14
C19
|
D1
D3
D4
D9
|
| Describe the foundation of the experimental technicians more important for the determination of the structure of *macromoleculas and systems *coloidales. |
|
|
C14
C27
|
D1
D3
D4
D9
|
| Describe the structure and explain the causes of the stability of the systems *coloidales as well as recognise his chemical importance. |
|
|
C14
C19
|
D1
D3
D4
D9
|
| Know the basic appearances of the structure of the *interfase *electródica, the origin of the distinct types of *sobrepotencial and his application. |
|
|
C7
C14
C19
|
D1
D3
D4
D9
|
| Apply the distinct basic technicians in the field of the kinetical for the determination, between others, of equations of speed and energies of activation. Determine experimentally properties associated to the phenomena of transport and superficial and the structure of the macromolecules and systems *coloidales. |
|
|
C19
C20
C21
C22
C26
C27
C28
C29
|
D1
D4
D5
D6
D7
D8
D9
D14
D15
|
