Study programme competencies |
Code
|
Study programme competences / results
|
A1 |
"Ability to apply graphical procedures to the representation of spaces and objects (T) " |
A2 |
Ability to conceive and represent the visual attributes of objects and master proportion and drawing techniques, including digital ones (T) |
A3 |
Knowledge of spatial representation systems and projections adapted and applied to architecture |
A4 |
Knowledge of the analysis and the theory of form and the laws of visual perception adapted and applied to architecture and urbanism |
A5 |
"Knowledge of the metric and projective geometry adapted and applied to architecture and urbanism " |
A6 |
"Knowledge of graphic surveying techniques at all stages, from the drawing sketches to scientific restitution, adapted and applied to architecture and urbanism " |
A10 |
"Knowledge of basic topography, hypsometry, mapping and earthmoving techniques adapted and applied to architecture and urbanism " |
A63 |
Development, presentation and public review before a university jury of an original academic work individually elaborated and linked to any of the subjects previously studied |
B1 |
Students have demonstrated knowledge and understanding in a field of study that is based on the general secondary education, and is usually at a level which, although it is supported by advanced textbooks, includes some aspects that imply knowledge of the forefront of their field of study |
B4 |
Students can communicate information, ideas, problems and solutions to both specialist and non-specialist public |
B5 |
Students have developed those learning skills necessary to undertake further studies with a high level of autonomy |
B12 |
Understanding the relationship between people and buildings and between these and their environment, and the need to relate buildings and the spaces between them according to the needs and human scale |
C1 |
Expressing themselves correctly, both orally and in writing, in the official languages of the autonomous region |
C2 |
Mastering the expression and comprehension of a foreign language both orally and in writing |
C3 |
Using basic tools of information technology and communications (ICT) necessary for the exercise of the profession and for lifelong learning |
C4 |
Exercising an open, educated, critical, committed, democratic and caring citizenship, being able to analyse facts, diagnose problems, formulate and implement solutions based on knowledge and solutions for the common good |
C5 |
Understanding the importance of entrepreneurship and knowing the means available to the enterpreneur |
C6 |
Critically evaluate the knowledge, technology and information available to solve the problems they must face |
C7 |
Assuming as professionals and citizens the importance of learning throughout life |
C8 |
Assessing the importance of research, innovation and technological development in the socio-economic advance of society and culture |
Learning aims |
Learning outcomes |
Study programme competences / results |
Achegar rigor xeométrico á representación e análise do espazo arquitectónico, sen esquecer que o proceso creativo do arquitecto se basea fundamentalmente na súa capacidade racional de percepción do espazo |
A1 A2 A3 A5 A10
|
B1 B4 B5 B12
|
C3
|
Desenvolvemento da capacidade de imaxinación e lectura espacial, tanto para que o alumno poida imaxinarse no espazo un obxecto representado no plano, coma para que poida representar no plano o previamente imaxinado no espazo, é dicir, estimular a aprehensión espacial ou "ver no espazo" |
A1 A3 A4 A5 A6 A10 A63
|
B1 B4 B5 B12
|
C2
|
Estudo dos diferentes Sistemas de Representación gráfica de aplicación no campo arquitectónico, a partir dos seus fundamentos teóricos, cun afondamento diferenciado en función da súa operatividade, baseándose na selección do sistema máis adecuado en cada caso concreto |
A3 A5 A10 A63
|
B4 B5
|
C3 C6 C7
|
Desenvolvemento da expresividade mediante proxeccións intencionadas, perspectivas e trazado de sombras, útiles noutros ámbitos da formación arquitectónica |
A2 A3 A4 A5 A6 A63
|
B4
|
C3 C6
|
Introducir o alumno no coñecemento de exemplos arquitectónicos de interese que vaian formando a súa cultura arquitectónica, facéndoo ver que o seu obxectivo é a Arquitectura e non o debuxo en abstracto |
A1 A2 A3 A4 A5 A6 A10
|
B1 B5 B12
|
C1 C4 C5 C8
|
Introducir o alumno na representación da arquitectura mediante procesos informáticos, concretamente a utilización de programas CAD 3D |
A1 A2 A3 A4 A5 A63
|
|
C3
|
Contents |
Topic |
Sub-topic |
I.- INTRODUCTION.
LESSON 1.- DESCRIPTIVE GEOMETRY. OVERVIEW |
1.1 -. Objectives of Descriptive Geometry.
1.2 -. Concept of projection. Classification and properties.
1.3 -. Concept of biunivocity. Projections. Classification
1.4 -. Geometric elements in space.
1.5 -. Denominations.
|
II. - MAIN PROJECTIONS. PARALLEL PROJECTION.
LESSON 2.- MULTIVIEW ORTHOGRAPHIC PROJECTION. OVERVIEW
|
2.1 -. Concept.
2.2 -. European projection. American projection.
2.3 -. Primary auxiliary views.
- Plans, elevations and sections.
|
LESSON 3.- MULTIVIEW ORTHOGRAPHIC PROJECTION. AUXILIARY VIEWS |
3.1.- Primary auxiliary views: view projected from the top view.
3.2.- Primary auxiliary views: view projected from the front view.
3.3.- Secondary auxiliary views: Succesive auxiliary views
|
LESSON 4.- TOPOGRAPHIC PROJECTION. TERRAIN REPRESENTATION |
4.1.- Concept.
4.2.- Topographic surfaces. Contour lines.
4.3.- Profiles and panoramas.
4.4.- Analysis and interpretation of topographic surfaces.
|
LESSON 5.- AXONOMETRIC PROJECTION. OVERVIEW
|
5.1.- Concept.
5.2.- Orthographic axonometric.
5.3.- Oblique axonometric.
5.4.- Main axonometric projections. |
III.- JOINT DEVELOPMENT OF THE PARALLEL PROJECTIONS.
LESSON 6.- FUNDAMENTAL GEOMETRIC ELEMENTS |
6.1.- Representation of straigth lines and planes.
-Different positions.
6.2.- Main plane straight lines.
-Horizontal line.
-Maximum slope line.
6.3.- Relationships between line and plane: intersection and parallelism.
6.4.- Relationships between two planes: intersection and parallelism.
6.5.- Perpendicularity condition.
|
LESSON 7.- ROOF DESIGN |
7.1.- Planes with the same slopes.
7.2.- Planes with different slopes.
7.3.- Elevations.
|
LESSON 8. - TRUE SIZE AND PLANE FIGURES |
8.1.- True size and shape:
- Auxiliary plans.
- Rotation and revolution.
- Combined method.
8.2.- Representation of plane figures
|
IV.- LINEAR PERSPECTIVE.
LESSON 9.- LINEAR PERSPECTIVE. OVERVIEW |
9.1.- Concept.
9.2.- Representation of a straight line. Vanishing point.
9.3.- Representation of the plane.
9.4.- Types of linear perspectives.
- According to the picture plane.
- According to the station point.
|
LESSON 10. - CLASSIC METHODS OF PERSPECTIVE. VISUAL RAY METHOD
|
10.1.- One-point perspective.
10.2.- Two-point perspective.
10.3.- Visual perception and representation.
10.4.- Distortion diagrams.
10.5.- Relative position of the elements in linear perspective.
- Influence of the location of the station point.
- Influence of the location of the picture plane. |
LESSON 11.- DIRECT MEASUREMENT IN PERSPECTIVE. MEASURING POINT METHOD |
11.1.- Concept.
11.2.- One-point perspective.
11.3.- Two-point perspective.
|
V.- INTRODUCTION TO SHADES AND SHADOWS.
LESSON 12. - THEORY OF SHADOWS. ELEMENTS |
12.1.- Solar geometry.
12.2.- Shadow of points and vertical lines.
12.3.- Shadow of other lines.
12.4.- Counter-projection.
12.5.- Shadow of curve lines.
|
LESSON 13.- SHADOWS IN LINEAR PERSPECTIVE |
13.1.- Sunlight parallel to the picture plane.
13.2.- Sunlight oblique to the picture plane.
- Sun behind the viewer.
- Sun in front of the viewer.
|
Planning |
Methodologies / tests |
Competencies / Results |
Teaching hours (in-person & virtual) |
Student’s personal work hours |
Total hours |
Introductory activities |
B5 B12 C5 C6 C7 C8 |
1 |
0 |
1 |
Guest lecture / keynote speech |
A3 A4 A5 A6 A10 |
15 |
7.5 |
22.5 |
Workshop |
A1 A2 A3 A4 A5 A6 A10 A63 B1 B4 B5 B12 C3 C4 C5 C6 C7 |
29 |
29 |
58 |
Supervised projects |
A1 A2 A3 A4 A5 A6 A10 A63 B4 B5 B12 C1 C2 C3 C6 C7 C8 |
5 |
40 |
45 |
Practical test: |
A1 A2 A3 A4 A5 A6 A10 B4 B5 B12 C6 C7 |
4 |
10 |
14 |
Collaborative learning |
A1 A2 A3 A4 A5 A6 A10 B1 B4 B5 B12 C8 C7 C6 C5 C4 C3 C1 |
5 |
2.5 |
7.5 |
|
Personalized attention |
|
2 |
0 |
2 |
|
(*)The information in the planning table is for guidance only and does not take into account the heterogeneity of the students. |
Methodologies |
Methodologies |
Description |
Introductory activities |
Activities to be carried out before starting the process of teaching and learning in order to know the skills, interests and / or motivation of the students in order to achieve the objectives.
Their goal is to obtain relevant information that would allow the teaching to foster efficient and meaningful learning from the students' prior knowledge.
|
Guest lecture / keynote speech |
This methodology has to do with the foundations of knowledge of the subject specified in the contents.
In these classes, the students have a receptive aptitude following the presentations by supporting drawings on the blackboard, screen projections and digital tools (ICT).
Students take notes and ask questions about the issues raised. It aims to develop the lessons, providing both concepts and the necessary tools for their understanding from a perspective in which the architecture is always present. |
Workshop |
This is where the student participates actively in the learning process, facing the need to assess, respond and experience all the knowledge of the lectures, to which must conform.
There are two types of exercises:
1. Drawing exercises on the board with a dedication of a practice session.
2. Special exercises as a control of the student´s learning process.
Architectural models of prestigious architects are selected for the development of these graphic exercises, whose formalization processes are clear and definable, in order that the students achieve an architectural culture.
All exercises are mandatory.
|
Supervised projects |
This type of work promotes independent learning of the student under the supervision of the tutor. It consists of supervised graphic exercises to be developed by the student individually, in correspondence with the theoretical concepts of the lectures. The tutoring will be held in office hours and / or class.
Exercises with no sufficient supervision will not be assessed.
These works are compulsory and essential to pass the course and / or to attend the first or second opportunity |
Practical test: |
A final test will be done to all those students who in spite of attending the course did not pass the subject. It may consist of theoretical and practical contents. |
Collaborative learning |
Individual or group work that students must develop in CAD.
Face-to-face hours will be devoted to the formulation of work, a series of lectures and the review of the works, individually or in group.
This methodology referred primarily to learning the "how to do things" to promote independent learning of students, under the tutelage of a professor.
|
Personalized attention |
Methodologies
|
Guest lecture / keynote speech |
Workshop |
Supervised projects |
Collaborative learning |
Introductory activities |
|
Description |
The subject is conceived eminently experimental and practical as the student's learning process is based on the realization of graphic exercises that enable the student to participate in a more personalized relationship with the teacher.
Exercises will be developed individually or in small groups and will be related to course work.
In order to achieve the objectives set, tutorial attendance scheduled by the tutor is considered essential.
|
|
Assessment |
Methodologies
|
Competencies / Results |
Description
|
Qualification
|
Guest lecture / keynote speech |
A3 A4 A5 A6 A10 |
This methodology has to do with the foundations of knowledge of the subject specified in the contents.
In these classes, the students have a receptive aptitude following the presentations by supporting drawings on the blackboard, screen projections and digital tools (ICT).
Students take notes and ask questions about the issues raised. It aims to develop the lessons, providing both concepts and the necessary tools for their understanding from a perspective in which the architecture is always present. |
0 |
Workshop |
A1 A2 A3 A4 A5 A6 A10 A63 B1 B4 B5 B12 C3 C4 C5 C6 C7 |
This is where the student participates actively in the learning process, facing the need to assess, respond and experience all the knowledge of the lectures, to which must conform.
There are two types of exercises:
1. Drawing exercises on the board with a dedication of a practice session.
2. Special exercises as a control of the student´s learning process.
Architectural models of prestigious architects are selected for the development of these graphic exercises, whose formalization processes are clear and definable, in order that the students achieve an architectural culture.
All exercises are mandatory.
|
60 |
Supervised projects |
A1 A2 A3 A4 A5 A6 A10 A63 B4 B5 B12 C1 C2 C3 C6 C7 C8 |
This type of work promotes independent learning of the student under the supervision of the tutor. It consists of supervised graphic exercises to be developed by the student individually, in correspondence with the theoretical concepts of the lectures. The tutoring will be held in office hours and / or class.
Exercises with no sufficient supervision will not be assessed.
These works are compulsory and essential to pass the course and / or to attend the first or second opportunity |
30 |
Practical test: |
A1 A2 A3 A4 A5 A6 A10 B4 B5 B12 C6 C7 |
All students that don´t pass, in spite of attending classes, will have to sit an exam.
It may consist of practical and theoretical contents.
FIRST OPPORTUNITY (JANUARY)
Applying to students either scoring below 5 or with average special exercises below 5 and observing the following conditions:
- 80% attendance and submission of all weekly exercises
- Submission of the supervised projects
SECOND CHANCE (JULY)
The same conditions as the first opportunity. The score of the objective test to pass the subject will be of 5/10. That score will stand for 30% of the final grade. |
0 |
Collaborative learning |
A1 A2 A3 A4 A5 A6 A10 B1 B4 B5 B12 C8 C7 C6 C5 C4 C3 C1 |
Individual or group work that students must develop in CAD and ICT.
Face-to-face hours will be devoted to the formulation of work, a series of lectures and the review of the works, individually or in group.
This methodology referred primarily to learning the "how to do things" to promote independent learning of students, under the tutelage of a professor. |
10 |
|
Assessment comments |
Para superar a materia na 1ª oportunidade e/ou 2ª oportunidade é requisito imprescindible que os alumnos realizasen todos os traballos e prácticas do curso.
ALUMNOS CON MATRÍCULA FORMALIZADA CON POSTERIORIDADE A o INICIO DO CURSO ACADÉMICO (Setembro): Permitirase a participación na primeira oportunidade. Contarase o 80% da asistencia dende a data de matrícula, e facilitarase a recuperación das prácticas e traballos realizados con anterioridade necesarios para a avaliación final.
|
Sources of information |
Basic
|
VERO, R. (1981). El modo de entender la perspectiva.. Barcelona: Gustavo Gili.
SCHAARWACHTER,G. (1983). Perspectiva para arquitectos. México: Gustavo Gili
BARTSCHI, W. (1980). El estudio de las sombras en perspectiva. Barcelona:Gustavo Gili
FRANCO TABOADA, J. A (2011). Geometría Descriptiva para la Representación Arquitectónica. Vol. 1. Fundamentos. Santiago de Compostela: Andavira
FRANCO TABOADA, J. A (2011). Geometría Descriptiva para la Representación Arquitectónica. Vol. 2. Geometría de la Forma Arquitectónica. Santiago de Compostela: Andavira
SANCHEZ GALLEGO, J. A (1993). Geometría Descriptiva. Sistemas de Proyección Cilíndrica. Barcelona: Ediciones U.P.C
GHEORGHIU Y DRAGOMIR. (1978). Geometry of Structural Forms . London : Applied Science Publishers, cop.
WAY, M., (1991). La perspectiva en el dibujo,. Barcelona: Omega
VILLANUEVA BARTRINA, L. (1996). Perspectiva lineal. Su relación con la fotografía. Barcelona:Ediciones U.P.C
SIMONE de, L. (1976). Spazio prospettico. Roma: Bonacci |
|
Complementary
|
|
|
Recommendations |
Subjects that it is recommended to have taken before |
|
Subjects that are recommended to be taken simultaneously |
Debuxo de Arquitectura/630G02002 |
|
Subjects that continue the syllabus |
Análise de Formas Arquitectónicas/630G02007 | Xeometrías complexas en Arquitectura/630G02052 | Xeometría da Forma Arquitectónica/630G02014 |
|
Other comments |
It is considered essential for the understanding of the subject that students have a good background in Technical Drawing. |
|