Applied Chemistry
- Details
- Category: Discipline
- Não
- This curricular unit introduces the principles and practices in the field of analytical chemistry. Focus on developing a quantitative understanding of homogeneous and heterogeneous equilibrium phenomena using acid-base and complexometric titrations, rudimentary separations, optical spectroscopy and electrochemical.
- Semestral
Descrição
Data limite
Ponderação
Teste de avaliação Teórica I
dd-mm-aa
25%
Teste de avaliação Teórica II
dd-mm-aa
25%
Teste de avaliação Prática I dd-mm-aa 25% Teste de avaliação Prática I
dd-mm-aa
25%
.A classificação final (CF) da unidade curricular por avaliação contínua é obtida a partir das classificações obtidas na componente escrita (T) e na componente prática (PL). A componente escrita consta de duas frequências escritas e é relativa aos conteúdos teóricos. A classificação mínima em cada frequência é de 8 valores. A componente prática consta de 2 momentos de avaliação práticos realizados durante as aulas. A classificação mínima em cada frequência prática é de 8 valores. A classificação final é calculada a partir da seguinte fórmula: CF = 0,50 T + 0,50 PL. A classificação de todos os instrumentos de avaliação é expressa numa escala de 0 a 20 valores, sendo que o valor ponderado das classificações obtidas em cada componente, tem de ser igual ou superior a 9,5 valores.
- Matter Constitution Atoms, ions and molecules. Pure substances and mixtures Periodic table and chemical properties Chemical Bond Types of chemical bonds and their characteristics Chemical Reactions Chemical equations, stoichiometry and Lavoisier Law Aqueous Solutions And Properties Concentration. Dilutions Limiting reagent Yield Chemical Reactions Energy Internal energy, enthalpy, entropy and free energy Chemical Equilibrium General properties Acid-base, solubility and redox equilibrium Introduction Methods Of Analysis Volumetric Acid-base Redox Spectroscopic UV-VIS spectroscopy qualitative and quantitative analysis. Lambert-Beer law Kinetic Reactions rate Activation energy Catalysts Enzymatic analyzes
- Provide a basic level general chemistry theory and introduce its application in some analytical methods, developing practical skills of problem solving and laboratory performance. Interpret and work with critical sense, the results obtained in the laboratory. Learning ability of taught concepts, analysis and application to new situations Proper communication of acquired concepts. Troubleshooting application. Competency in calculation and units. Using the concepts of general chemistry methods in volumetric analysis, spectroscopy and kinetics. Planning laboratory work Proper execution of experimental procedures using laboratory and instrument equipment. Manipulation, interpretation of data / results and their critical evaluation. Ability to work individually or in group. Communicate and discuss results.
- Mandatory
- In this curricular unit, the Team-based learning (TBL) methodology is used, with tasks carried out in small groups, allowing the development of the ability to analyze and apply theoretical concepts.
- Português
- Chang, R. (2010). Chemistry, (10th ed.). McGraw Hill. Atkins, P.W. & Beran, J.A. (1992). General Chemistry. (2nd ed.). W.H. Freeman. Atkins, P. & Jones L. (2010). Chemical Principles. (5th ed.). Freeman. Harris, D.C. (2010). Quantitative Chemical Analysis. (8th ed.). W H Freeman. Holler, J.F. (2000). Analytical Chemistry: An Introduction. (7th ed.). Harcourt College Publishers.
- 4
- 0
- 5
- 1
- IPLUSO4085-19528
- Applied Chemistry
- 19528
- 4085
- Bioanalysis and Control
