General Physics II
1
2023-2024
01002572
Physics
Portuguese
Face-to-face
SEMESTRIAL
6.0
Compulsory
1st Cycle Studies
Recommended Prerequisites
General Physics I, Calculus I.
Teaching Methods
Direct teaching with active participation of the students. Challenges are posed in the theoretical classes.
The practical classes are focused on the application of the laws of Physics to the solution of several problems and exercises.
Learning Outcomes
Objectives:
- Understanding of (theoretical and empirical) laws of Classical Physics and their applications.
- Ability to use Classical Physics concepts in problem solving.
- Ability to learn Physics.
- Deep general knowledge in Physics.
- Ability to communicate scientific findings in Physics both orally and in written form.
Competences:
- Analysis and synthesis.
- Organisation and planning.
- Oral and written communications.
- Problem solving.
- Critical thinking.
- Self-study.
- Adaptability to new situations.
- Practical use of theoretical knowledge.
- Self-evaluation and self-criticism.
Work Placement(s)
NoSyllabus
Coulomb's law. Electric field, potential and potential energy. Gauss's law. Conductors. Capacitors. Dielectric media.
Electric current. Ohm's law. Electromotive force. Kirchhoff's laws. Associations of resistors. Galvanometers, voltmeters and ammeters. Charge and discharge of capacitors.
Oersted's experiments. Laplace's law. Hall effect. Biot-Savart's law. Magnetic fields due to electric currents. Interaction between electric currents. Ampère's law. Magnetic induction. Faraday and Lenz laws. Self and mutual inductance. Alternating current. LC and RLC circuits. Transformers.
Electromagnetic waves. Polarisation. Poynting vector. Spectrum and behaviour of visible light.
Principles and laws of geometrical optics. Reflection. Refraction. Dispersion. Plane and spherical mirrors. Thin lenses. The reflex photographic machine. The human eye. The magnifier. The microscope. Telescopes.
Young's experiment. Interference and diffraction. Thin films.
Head Lecturer(s)
Alexandre Carlos Morgado Correia
Assessment Methods
Final assessment
Exam: 100.0%
Continuous assessment
Frequency: 100.0%
Bibliography
Physics for Scientists and Engineers with Modern Physics
Raymond A. Serway, John Jewett
Brooks/Cole (9th edition, 2013); ISBN: 978-1133953999
Physics for Scientists and Engineers with Modern Physics
Douglas C. Giancoli
Pearson (4th edition, 2008); ISBN: 978-0136074809
Fundamentos de Física
Maria José B. Marques de Almeida, Maria Margarida Ramalho R. Costa
Almedina (3ª edição, 2012); ISBN: 978-9724048413.