Guia docente 2023_24 Escola de Enxeñaría de Minas e Enerxía

Assessment

	Description	Qualification	Training and Learning Results
Lecturing	Written exam of 12 short answer questions. EXPECTED RESULTS FROM THIS SUBJECT: Understand the basics of Electromagnetism. Develop practical solutions to phenomena and problem-situations of everyday reality in general and Electromagnetism in particular. Know how to evaluate information from different sources in order to form one's own opinion and to be able to express oneself critically on current scientific and technological problems related to electromagnetism.	35	A1 A2 A3 A4 A5	B1 B3 B4 B5	C4	D5
Problem solving	Written exam of 3 exercises. EXPECTED RESULTS FROM THIS SUBJECT: Understand the basics of Electromagnetism. Develop practical solutions to phenomena and problem-situations of everyday reality in general and Electromagnetism in particular. Know how to evaluate information from different sources in order to form one's own opinion and to be able to express oneself critically on current scientific and technological problems related to electromagnetism. Understand that scientific knowledge arises from a process of elaboration in interaction with technology and linked to the characteristics and needs of society at each historical moment.	35	A1 A2 A3 A4 A5	B1 B3 B4 B5	C4	D5
Laboratory practical	Laboratory report. EXPECTED RESULTS FROM THIS SUBJECT: Understand the basics of Electromagnetism. Develop practical solutions to phenomena and problem-situations of everyday reality in general and Electromagnetism in particular. Know how to evaluate information from different sources in order to form one's own opinion and to be able to express oneself critically on current scientific and technological problems related to electromagnetism. Understand that scientific knowledge arises from a process of elaboration in interaction with technology and linked to the characteristics and needs of society at each historical moment.	15	A1 A2 A3 A4 A5	B1 B3 B4 B5	C4	D5
Seminars	Work report. EXPECTED RESULTS FROMTHIS SUBJECT: Develop practical solutions to phenomena and problem-situations of everyday reality in general and Electromagnetism in particular. Know how to evaluate information from different sources in order to form one's own opinion and to be able to express oneself critically on current scientific and technological problems related to electromagnetism. Understand that scientific knowledge arises from a process of elaboration in interaction with technology and linked to the characteristics and needs of society at each historical moment.	15	A1 A2 A3 A4 A5	B1 B3 B4 B5	C4	D5

Other comments on the Evaluation
1.- Two Continuous Assessment (CA) opportunities are proposed: a) First CA opportunity (at the end of the term). In order to facilitate a continuous evaluation during the term, two voluntary partial exams will be carried out (with contents of the Theory (T) master sessions and those of resolution of exercises/Problems (P)), which, if approved, will release the corresponding contents out of the final written exam of the First opportunity. To pass these voluntary partial exams it is necessary to obtain a minimum grade of 3.50 in the written exams (T and P) and an average (0.5(T+P)) equal to or greater than 5. Each voluntary partial exam represents a 70 /3% of the subject grade. Other weekly Voluntary Theory Tests (PVT) or Voluntary Problems Tests (PVP) only increase the final grade if a minimum average grade of 3.50 is reached in the written exams (T and P). Attendance to Group B (SB) and Group C (SC) sessions is compulsory, so the grade obtained in the Seminar Work Report/Physics Project (PF) and in the Laboratory Report will be weighted by taking into account the assistance to laboratory practices (L). The grade can be increased if Voluntary Laboratory Tests are undertaken (PVL). b) Second opportunity CA (July). The values obtained previously in the following assessables are maintained: PVT, PVP, PVL, SB, SC, PF and L. The written exam now consists of 3 exercises and 9 short-answer questions and assumes as a whole, as in the First opportunity EC , 70% of the final mark. In both EC opportunities the Final Note is obtained by the following formula: Final Score = Score A + Score B + Score C Score A = [(T + PVT) + (P + PVP)] 0.35 Note B = (L + PVL) * SB * 0.15 Note C = (PF + PVL) * SC * 0.15 T1, T2, T3: Theory grade for blocks 1 (Optics), 2 (Electric Field) and 3 (Magnetic Field), respectively P1, P2, P3: note of Problems of blocks 1 (Optics), 2 (Electric Field) and 3 (Magnetic Field), respectively T: average of the theory grades P: mean of the problem scores T + PVT: the PVT note is added if both P and T are equal to or exceed 3.50 points P + PVP: the PVP note is added if both P and T are equal to or exceed 3.50 points L: average mark of the 5 laboratory practices SB: attendance at sessions B (SB = number of sessions attended/5) L + PVL: the PVL note is added if L is equal to or exceeds 3.50 points PF: Physics Project note SC: attendance at C sessions (SC = number of sessions attended/3) PF + PVL: the note of the PVL is added if PF equals or exceeds 3.50 points The students have a simulator for calculating qualifications in MooVi platform. 2.- Global Assessment (GA): Those students who cannot comply with the continuous assessment (CA) method described above may apply for a single global assessment, understood as that which is carried out in a single academic act, which may include as many tests as are necessary to accredit that the student has acquired all the competences described in the this Teaching Guide. Exam schedule. Verify/consult updates on the center's website: http://minaseenerxia.uvigo.es/gl/docencia/exames