Código Oficial: | 9016 |
Sigla: | BIOT |
Descrição: | O curso foi planeado como uma licenciatura em Biotecnologia de base generalista, garantindo uma vasta gama de saídas profissionais para os futuros licenciados. Esta formação é especialmente destinada aos estudantes interessados em prosseguir uma carreira no sector da biotecnologia – quer nas grandes multinacionais de Biotecnologia ou da indústria farmacêutica ou a empresas de menor dimensão, explorando as novas inovações no campo. A formação em Biotecnologia combina as aptidões laboratoriais e os conhecimentos teóricos fornecidos nas várias unidades curriculares e estágio curricular ou projeto biotecnológico de modo a preparar o diplomado a entrar no mercado de trabalho em vários sectores como o Farmacêutico, Alimentar , Agrícola ou indústrias de investigação biológica/biotecnológica. Este curso permite o acesso à Ordem dos Engenheiros Técnicos. Reportagem publicada por Inspiring Future Licenciaturas "Bio": a ciência aplicada à vida |
The goal is to carry on developing the mathematical reasoning initiated in highschool education, in order to be able to meet the demands of other curricular units. On completing this curricular unit, students should have acquired the necessary skills in differential calculus and integration of functions of one variable, including the fundamental theorems of calculus.
The main aim of this curricular unit is to understand that biotechnology is a multidisciplinary area that uses living organisms and bio-processes in engineering, technology, medicine and other scientific areas that require bio-products. Biotechnology also uses these products for manufacture purposes. It is also important to know and understand the evolution of biotechnology throughout time, as well as its ramification in the several areas. Compare and differentiate between chemical and biological processes and know some of its most important products in biotechnology are also important aims of this subject. In addition, all this technological progress over the years raises some important ethical questions, in which there is no moral consensus. In the end of the semester, the student must be able to understand the importance of bioethics in biotechnology and must be able to have critical and justified ideas regarding: abortion, cloning procedures, organ transplantation, euthanasia.
The objectives for students are: to become familiar with formulas, structures, nomenclature and concepts in the field of organic chemistry; to recognize the importance of a given molecule, the role and distribution of electrons that can intervene in organic reactions; to classify the reactions of organic compounds; to understand the chemical reactions and justify mechanistically these reactions. Apply the knowledge of the reactivity of different functional groups in order to obtain new compounds; to acquire the concept of geometry of molecules in space associated with the study of stereochemistry.
It is intended that students acquire skills to access profession as chemical engineering professionals in the chemical or biological in general and, in particular, in the pharmaceutical, agrochemical, food and biochemistry, or related fields, and in public services.
This curricular unit is based on laboratories experiences representing theoretical concepts acquired in the Biochemistry, Transport Phenomena I and. Thermodynamics s curricular units.
It is intended that, in this curricular unit, the students acquire the following competencies:
- Plan, implement, develop and optimize experiments in the area of the curricular units that the laboratory work refers.
- Interpreting results of experiments that highlight some of the basic phenomena I transfer, materials and biochemistry.
- Correlate the theoretical models taught, with the proper applicability in treatment of experimental results.
- Handle material / specific equipment used in carrying out the experiments.
It is essential that the students understand and predict physical properties of ideal and real gases, knowing how to apply the three laws of thermodynamics in biochemistry reactions, allowing them to predict and calculate heat changes, entropy variations and spontaneity of the processes.
The student must be able to interpret phase diagram of pure substance, understanding the meaning of triple and critic points, and also to interpret different phase diagrams for mixtures, establishing the basis for several industrial separation process.
It is also necessary that student understand the differences between ideal and real liquid mixtures and the importance of the activity coefficients concept, allowing them to control the variables that affect the equilibrium.This curricular unit is based on laboratory experiences representing theoretical concepts acquired in Separation Process IB, Transport Phenomena II, and Molecular and Cellular Biology curricular units.
It is intended that, in this curricular unit, the students acquire the following competencies:
- Plan, implement, develop and optimize experiments in the area of the curricular units that the laboratory work refers.
- Interpreting results of experiments that highlight some of the basic transport phenomena, instrumental methods of analysis and biochemistry.
- Correlate the theoretical models taught, with the proper applicability in the treatment of experimental results.
- Handle material and specific equipment used in carrying out the experiments.
- Assess the importance of the accuracy of the measurements to be made.
- Writing a scientific report clearly and objectively.
This course is intended for students to acquire knowledge about the multiple potential of microorganisms for biotechnological purposes. The student must know how to manipulate microorganisms, to use them directly or to produce and isolate by-products (eg, enzymes, chemical compounds) with medical-pharmaceutical application, in agricultural production, food technology, and industry. You should also acquire basic knowledge about the improvement of plants and animals.
The competence acquisition by the student can be measured on the basis of the following objectives:
To use effectively basic instruments for industrial management;
To apply the basic concepts of business accountability and finance and to comprehend the diferente accounting documents and instruments;
To be able to recognize the importance of business marketing, demonstrate its application in a variety of context;
To be able to apply management concepts to production activity, as well as to the management of materials, human and financial resources;
To use effectively instruments of industrial management.
The curricular internship is a fundamental tool and opportunity for finalist students to use their acquired knowledge over the course. The student is integrated into a work group in research institutes, biotechnology companies or faculties and it is expected that he develops part of a project and skills, with initiative and critical judgment. In the case of the student chooses a biotechnological project, the main aim is to introduce the initiative and methodic spirit for the accomplishment of a conception project. It is aimed to stimulate the enterprising capacity and create skills for students to be the agents of change anywhere they work. In particular, the project aims to develop the ability to research and solve problems, enhance the synthesis capacity and knowledge integration, leadership and critical spirit.