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This subject has been successfully enrolled by a number of foreign students, most of them from Italy. Classes are taught in Catalan, and students are expected to achieve a basic understanding of spoken Catalan. However, exams and practical reports can be written in Italian or other languages. Public questions in the classroom, and private questions to the lecturer, can also be posed in Italian or other languages.
CE2: Understanding and mastery of the basic concepts of the general laws of mechanics, thermodynamics, fields and waves and electromagnetism and their application in solving problems specific to engineering.
Introduction to general physics, emphasizing those aspects that may be more useful for later subjects. The contents are complemented with those of the subject of Physics 2.
In general, this subject contributes to the following learning outcomes specified for the subject to which it belongs:
At a more specific level, at the end of the course the student must be able to:
The course combines face-to-face classes in the classroom in a large group and practical classes in the laboratory in a small group.
In the classroom, the presentation of the theoretical concepts, the resolution of exercises and examples of application by the teacher will be alternated, and occasionally, the collaborative resolution and presentation on the board of some exercise by the students. students.
In the laboratory the students, in groups of two or three, will carry out experiments related to the contents of the subject.
Students will have to devote additional time, non-contact, to the resolution of exercises, preparation of reports of laboratory practices and preparation of written tests.
1. Introduction |
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Description |
International System of Units. Significant figures. Orders of magnitude. Operations with vectors. Position, displacement, speed and acceleration. Mean values and instantaneous values. Free fall. Relative speed. Projectile movement. Tangential and centripetal acceleration. |
Related activities |
Exercise resolution. First partial test. |
2. Strength |
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Description |
Newton's laws. Contact and distance forces. Overlay. Normal force. Friction force. Coefficients of static, kinetic and rolling friction. Braking forces, skidding and with ABS. Inclined plane. Spring. Tension of a cable. Drag force. Speed limit. Centripetal force. Peraltate and non-peraltate revolt. Center of mass. |
Related activities |
Exercise resolution. First partial test. |
3. Energy |
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Description |
Work. Kinetic energy. Gravitational and elastic potential energy. Power. Scalar product. Energy conservation. Conservation of linear momentum. Impulse of a force. Elastic and inelastic collision. Refund coefficient. |
Related activities |
Exercise resolution. First partial test. |
4. Rotation |
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Description |
Angular displacement, speed and acceleration. Moment of inertia. Kinetic energy of rotation. Parallel axis theorem. Pair of forces. Moment of a force. Newton's second law for rotation. Line of action and lever arm. Police. Non-slip, non-slip bearing. Vector product. Conservation of angular momentum. Angular momentum. Gyroscopes. Precession and nutation. Static balance. Stable, unstable and neutral balance. |
Related activities |
Exercise resolution. Second partial test. |
5. Waves |
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Description |
Simple harmonic movement. Spring and pendulum. Damped and forced oscillations. Resonance. Simple wave motion. Wave function. Transverse and longitudinal wave. Sound waves and strings. Circular, linear, spherical and flat waves. Speed. Energy. Intensity. Decibels. Coefficients of reflection and transmission. Refraction. Diffraction. Doppler effects. Shock waves. Wave overlay. Constructive and destructive interference. Pulsations. Standing waves. Tone and timbre. Harmonic analysis and synthesis. |
Related activities |
Exercise resolution. Second partial test. |
1. Laboratory practices |
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General description |
Measurements and observation of various experiments in the Physics laboratory. |
Support material |
Practice scripts provided by the teacher. |
Deliverable and links to the evaluation |
Preliminary calculations when necessary. Report of each practice with the results of the measures and the conclusions of the student. The qualification of the practices will represent 30% of the note of the course. |
Specific objectives |
Perform theoretical calculations and take various measures for experimental verification. Treat the experimental measures: calculation of errors and interpretation of the graphical representations. Draw conclusions from them. |
2. Resolution of exercises |
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General description |
Some of the proposed exercises will have to be solved. |
Support material |
Collection of exercises. Notes, books and other supporting material. |
Deliverable and links to the evaluation |
Generally these exercises will have to be solved outside the classroom. Some of them will be solved by the students in the classroom, collaboratively in groups of two or three students, and displayed on the board. This activity will not directly contribute to the course grade. However, its realization will be very useful for the preparation of the written tests. |
Specific objectives |
Solve exercises related to the contents of the subject. |
3. First partial test |
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General description |
Written test to evaluate the contents developed in the first half of the course. |
Support material |
Statement of the test. |
Deliverable and links to the evaluation |
Test resolution. The grade will represent 35% of the course grade. |
Specific objectives |
Solve exercises and explain theoretical concepts corresponding to the first half of the subject. |
4. Second partial test |
|
General description |
Written test to evaluate the contents developed in the second half of the course. |
Support material |
Statement of the test. |
Deliverable and links to the evaluation |
Test resolution. The grade will represent 35% of the course grade. |
Specific objectives |
Solve exercises and explain theoretical concepts corresponding to the second half of the subject. |
The final grade will be the weighted average of the grades of the assessable activities:
First partial test: 35%
Second partial test: 35%
Laboratory practices: 30%
Recovery exam: 70%
There will be a first partial test in the middle of the course and a second partial test at the end of the course.
For students who do not pass the assessment during the course, 30% of the internship grade will be maintained, and an overall retake exam will be held which will be worth 70% of the grade.
The resit exam may be used to pass the subject with a final grade of 5, but not to obtain a grade higher than 5.
In the event that the health regulations prevent a first face-to-face examination, the weighting of the evaluable activities will be:
Face-to-face final test: 70%
Laboratory practices: 30%
Tipler, Moscow. Physics for Science and Technology. Reverted.
Monté, Paul, Fàbregas. Physics Practices 1. ESUP Tecnocampus.
Sears, Zemansky. University Physics. Pearson.
Serway, Jewet. Physics for science and engineering. Thomson.
Hayt, Kemmerly. Circuit Analysis in Engineering. McGraw Hill.