| Code |
14891
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| Year |
1
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| Semester |
S1
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| ECTS Credits |
6
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| Workload |
TP(60H)
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| Scientific area |
Physics
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Entry requirements |
None
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Learning outcomes |
The objective of this course is the acquisition of theoretical and practical knowledge of Physics, in view of applications of classical mechanics in various related scientific and technological areas.
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Syllabus |
kinematics.
Newton's laws. work. potential energy. Conservation of mechanical energy.
Center of mass. Collisions.
Moment of a force and moment of inertia. Angular momentum.
gravity. Static balance and elasticity. Tension and strain.
Fluids. Pressure in a fluid. Impulsion and principle of Archimedes. hydrostatics. Bernoulli equation.
Viscous flow.
Oscillations. Transverse waves and longitudinal waves. Overlap of waves and standing waves.
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Main Bibliography |
Jewett JW, Serway RA (2017). Física para Cientistas e Engenheiros, 9.ª ed., vol. 1 e 2. São Paulo: Cengage Learning.
Tipler PA, Mosca G (2009). Física para Cientistas e Engenheiros, 6.ª ed., vol. 1. Rio de Janeiro: LTC.
Resnick R, Halliday D, Krane KS (2002). Física, 5.ª ed., vol. 1 e 2. Rio de Janeiro: LTC.
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Teaching Methodologies and Assessment Criteria |
The assessment structure for the course (CEA) is composed of two components: homework assignments (TPC), which are graded on a scale of 0-20 and contribute 70% to the final grade, and a written exam (TE), also graded on a scale of 0-20, accounting for 30% of the final grade. Therefore, the formula for calculating the overall CEA grade is as follows:
CEA=0.70×TPC+0.30×TE
All that may pretend to attend a final exam are admitted, without constraints.
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Language |
Portuguese. Tutorial support is available in English.
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