History of Civil Engineering
Keywords |
Classification |
Keyword |
OFICIAL |
Complementary Sciences/Technologies |
Instance: 2023/2024 - 1S ![Requerida a integração com o Moodle Ícone do Moodle](/feup/pt/imagens/MoodleIcon)
Cycles of Study/Courses
Acronym |
No. of Students |
Study Plan |
Curricular Years |
Credits UCN |
Credits ECTS |
Contact hours |
Total Time |
L.EC |
138 |
Syllabus |
1 |
- |
3 |
13 |
81 |
Teaching Staff - Responsibilities
Teaching - Hours
Type |
Teacher |
Classes |
Hour |
Lectures |
Totals |
2 |
2,00 |
Tiago João Fazeres Marques Ferradosa |
|
0,18 |
Vasco Manuel Araújo Peixoto de Freitas |
|
0,18 |
José Miguel de Freitas Castro |
|
0,18 |
Cecília do Carmo Ferreira da Silva |
|
0,18 |
Miguel Ângelo Carvalho Ferraz |
|
0,18 |
Humberto Salazar Amorim Varum |
|
0,18 |
Bárbara Rangel Carvalho |
|
0,18 |
Francisco de Almeida Taveira Pinto |
|
0,38 |
Cristiana Maria da Fonseca Ferreira |
|
0,18 |
Carlos Manuel Rodrigues |
|
0,18 |
Teaching language
Portuguese
Objectives
OBJECTIVES:
To motivate for the understanding of civil engineering endeavours. To initiate a professional attitude. To contribute for the understanding of the evolution and development of the foundations of Civil Engineering.
Learning outcomes and competences
SKILLS AND LEARNING OUTCOMES:
To familiarize the civil engineering student with the History of his profession is an important factor for knowledge. But also facilitates their socialization with other students of the University and that are preparing for other professional experiences. Anticipate what might happen later when confronted with other experts in their profession: architects, builders, other engineers, etc.
Working method
Presencial
Program
The civil engineering constructions. The issues which differentiate the civil engineering constructions from the products of the other areas of Engineering. The relation beteewn the Portuguese Territory and the History and the Civil Engineering heritage and skills in Portugal. The constructions with stone. The metallic constructions. The constructions with concrete. The bridges over river Douro in Porto. The construction of roads. The construction of railways. The structural engineering. The Lisbon earthquake of 1755 and the seismic-resistant construction. The dams. The building rehabilitation. The urban planing.
DEMONSTRATION OF THE SYLLABUS COHERENCE WITH THE CURRICULAR UNIT'S OBJECTIVES:
The curricular unit aims to contribute for the understanding of the manifestations of Civil Engineering in all world, without making a first approximation to its techniques, methods and procedures. It is intended that students start a professional experience of Civil Engineering, even in a phase of the course in which the learning themes still have an introductory and general character.
Mandatory literature
Hans Straub;
A history of civil engineering
J. G. Landels;
Engineering in the Ancient World, University of California Press; Berkley and Los Angeles, 2000
J. Laginha Serafim;
Engenharia civil em Portugal
Luís Madureira;
Hidroelectricidade, Edição da REN, 2001
texto Helder Carita ; fotog. Homem Cardoso;
Pontes em Portugal
Manuel de Azeredo e Maria Augusta Azeredo;
As pontes do Porto. ISBN: 972-752-056-1
Complementary Bibliography
José Maria Brandão de Brito, Manuel Heitor, Maria Fernanda Rollo;
O Engenho e a Obra; Uma abordagem à história da Engenharia em Portugal no século XX, Instituto Superior Técnico – Publicações D. Quixote; Lisboa, 2002
Eduardo R. Arantes e Oliveira;
Engenharia e Vida, Revista mensal sobre Engenharia Civil, Construção e Desenvolvimento; Iniciou a sua publicação em Abril de 2004; Director: Prof. Eduardo R. Arantes e Oliveira; Loja da Imagem, Lisboa
Teaching methods and learning activities
Lectures to expose different topics of the curricular unit, supported on a "power point" presentation with images illustrating examples of the evolution in construction in different times of human history. It is also shown how some types of equipment and infrastructure, where the intervention of Civil Engineering is crucial, were developed to address technical problems related to design and construction techniques. The following teaching examples are used: Bridges of Porto and Dams in Portugal. A study visit is taken to a construction site that gives both an idea of the nature of the technical problems involved and reveals itself as a Civil Engineer must interact with other professionals.
DEMONSTRATION OF THE COHERENCE BETWEEN THE TEACHING METHODOLOGIES AND THE LEARNING OUTCOMES:
Topics covered in the curricular unit are introduced gradually in classes, being complemented with conferences with distinguished experts and conducting a study visit. In this way students deal with technical problems and learn how a Civil Engineer must interact with other professionals.
Evaluation Type
Distributed evaluation without final exam
Assessment Components
Designation |
Weight (%) |
Teste |
100,00 |
Total: |
100,00 |
Amount of time allocated to each course unit
Designation |
Time (hours) |
Estudo autónomo |
28,00 |
Frequência das aulas |
14,00 |
Total: |
42,00 |
Eligibility for exams
Achieving final classification requires compliance with attendance at the course unit, according to the MIEC assessment rules. It is considered that students meet the attendance requirements if, having been regularly enrolled, the number of absences of 25% for each of the classes’ types is not exceeded.
Calculation formula of final grade
FM = Mark at the test
Observations
Working time estimated out of classes: 1 hour