Physics II

Code

10353

Academic unit

Faculdade de Ciências e Tecnologia

Department

Departamento de Física

Credits

6.0

Teacher in charge

Rui Filipe dos Reis Marmont Lobo

Weekly hours

7

Total hours

71

Teaching language

Português

Objectives

 

Fundamental concepts and techniques of Thermodynamics will be introduced, together with application and examples.

Students should be able  to deeply understand the processes occurring in thermodynamic systems

At the end of this subject the student should have obtained knowledge, ability and competences in

-the physical processes and the Laws of Thermodynamics, in particular a) heat transfer by conduction, convection and radiation b) phase transitions c) thermodynamic cycles for the study of heat engines, heat pumps and refrigerators and the calculation of the respective efficiency when opperating with ideal gases in reversible processes d) experimental study of some of these processes

-the basic physical phenomena and laws of Fluid Dynamics, with applications to ideal fluids

-the laws and applications of Geometrical optics to mirrors and lenses

Prerequisites

Aproval in the  disciplines "Análise Matemática I"

and "Física I" is recommended.

Subject matter

1. Introdution to Fluid Mechanics
2. Fundamental concepts
   2.1. Thermodynamic systems
   2.2. Thermodynamic properties
   2.3. Thermodynamic processes
3. Temperature and state equation
   3.1. Thermometric properties
   3.2. Thermal balance
   3.3. Thermal scales
   3.4. Ideal gas state equation - PvT surface
   3.5. Real gas state equation
   3.6. Phase transitions
4. Kinetic theory
   4.1. The theorem of equipartition of energy
   4.2. Specific heat classical theory
5. First law of thermodynamics - energy conservation
   5.1. Work
   5.2. Heat
   5.3. Enthalpy
   5.4. Specific heat and latent heat
   5.5. Internal energy

6. Heat transfer (conduction, convextion and radiation)

7. Heat engines, heat pumps and refrigerators

8. Second law of thermodynamics - Entropy
   6.1. Kelvin and Clausius formulations
   6.2. Carnot''''''''s theorem
   6.3. Thermodynamic temperature
   6.4. Entropy
   6.5. Entropy change in reversible processes
   6.6. Clausius inequality
   6.7. Entropy formulation of the second law

   6.8. Microscopic meaning of Entropy

9. Combined first and second law  of thermodynamics
   7.1. Using T and V as independent variables
   7.2. Using T and P as independent variables
   7.3. TdS equations
   7.4. Properties of pure substances
   7.5. Properties of ideal gases
   7.6. Properties of van der Waals´s gases

 7.7.Third law of thermodynamics

10. Geometrical optics and applications

 

Bibliography

In English:

Título : Fundamentals of Physics

Autores : Halliday & Resnick

Editora: Wiley 

In Portuguese:

Título : Termodinâmica  

Autores : M. M. Abbott, H. C. Van Ness

Editora: McGraw-Hill 

Teaching method

The information on the  functioning of the subject will be available in the CLIP, either in the "Avisos"  or in the folders of   "Documentação de apoio", during the teaching semester.

This subject is divided in a theoretic component and a laboratory component. Both components require successful assessment results.

The theory, including problems, is teached twice a week in lectures. The inscription in a given lecture class is required for the students at first inscription in the subject.

The laboratory is teached every two weeks.  The inscription in a given class is mandatory for the students at first inscription in the subject. 

Evaluation method

Continuous assessment of knowledge (see details in portuguese)

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