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Presentation
Presentation
Study of the motion of point masses and particle systems: application of kinematics, Newton's Laws and the conservation of mechanical energy. Fundamental concepts of continuous media mechanics and fluid mechanics.
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Class from course
Class from course
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Degree | Semesters | ECTS
Degree | Semesters | ECTS
Bachelor | Semestral | 5
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Year | Nature | Language
Year | Nature | Language
1 | Mandatory | Português
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Code
Code
ULHT1656-1994
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Prerequisites and corequisites
Prerequisites and corequisites
Not applicable
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Professional Internship
Professional Internship
Não
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Syllabus
Syllabus
1. Physical dimensions and systems of units. Vectors. 2. One-dimensional movement 2.1 Position and displacement 2.2 Speed (average and instantaneous) 2.3 Acceleration (average and instantaneous) 2.4 Equations of motion 3. Movement in two or three dimensions 3.1 Displacement, speed and acceleration 3.2 Projectile motion 3.3 Circular movtion 3.4 Relative motion 4. Newton's laws 4.1 Law of inertia and fundamental law of 4.2 Action-reaction law 4.3 Resistive forces 4.4 Gravitational force 4.5 Inertial forces 5. Energy 5.1 Work and kinetic energy 5.2 Conservative forces and potential energy 5.3 Conservation of energy 6. Particle systems 6.1 Momentum and its conservation 6.2 Elastic and inelastic collisions 7. Introduction to continuous media 7.1 Continuous mass distributions 7.2 Forces on surfaces 8. Fluid mechanics 8.1 Fundamental equation of hydrostatics 8.2 Conservation of mass and continuity 8.3 Energy conservation and Bernoulli equation 9. Wing profiles
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Objectives
Objectives
It is intended that students acquire the following skills and knowledge: knowledge of the International System of units and conversion between systems of units, verification of the dimensional coherence of equations; cinematic study of simple and compound movements in the line, plane and space; Study of the movement of the material point, particle systems and the rigid body: application of kinematics, Newton's Laws and mechanical energy. Practical understanding of general principles and application to simple physical systems. Establishment of relations between the movement and its causes; mastery of the concepts of energy and momentum; knowledge of the descriptive quantities of continuous media mechanics and its application to fluid mechanics.
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Teaching methodologies
Teaching methodologies
Distribute to the students, complementary exercises of the modules taught.
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References
References
Alves, R; (2019) Mecânica Geral. 1ª edição. Lisboa: Edições Universitárias Lusófonas, ISBN: 978-989-757-067-4 Deus, J.; Peña, T.; Noronha, A.; Brogueira, P.; Pimenta, M.: (2014) - Introdução à Física. 3ª Edição. Lisboa: Escolar Editora, ISBN 13: 9789725924402 Fishbane, P.; Gasiorowicz, S.; Thornton, S.; (2005) Physics for Scientists and Engineers. 3ª edição. Pearson Prentice Hall, ISBN-13: 978-0131420946 Serway, R.; Jewett, J. W. (2004) Physics for Scientists and Engineers. 6ª edição. Thomson Brooks/Cole. ISBN 0534408427
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Assessment
Assessment
Descrição dos instrumentos de avaliação (individuais e de grupo) ¿ testes, trabalhos práticos, relatórios, projetos... respetivas datas de entrega/apresentação... e ponderação na nota final.
Exemplo:
Descrição
Data limite
Ponderação
1º Teste - 50%
2º Teste - 50%
Testes de avaliação
03-2026
12-2026
(...)
Os alunos poderão efectuar um teste de recuperação da 1ª ou 2ª partes da matéria, a realizar após o 2º teste. Contando para a média final a nota mais elevada.
A nota final será calculada como a média das classificações obtidas.
Haverá uma nota minima de 8 valores, em cada um dos testes, para efectuar a média. Caso o aluno obtenha num dos testes um valor inferior será esse valor a constar na nota final.
Adicionalmente poderão ser incluídas informações gerais, como por exemplo, referência ao tipo de acompanhamento a prestar ao estudante na realização dos trabalhos; referências bibliográficas e websites úteis; ...
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Mobility
Mobility
No
