Additional physics

lphy1103  2024-2025  Louvain-la-Neuve

Additional physics
4.00 credits
40.0 h + 10.0 h
Q2
Language
French
Prerequisites
To follow this course, it is necessary to master the knowledge and skills developed in the course LPHY1101
Main themes
  • Vibrations and waves
  • Electricity and magnetism
  • Optics
  • Modern physics
Learning outcomes

At the end of this learning unit, the student is able to :

  • Predict the consequences of the laws of wave physics, electromagnetism, optics and modern physics.
  • Interpret data, diagrams and experiments using the concepts and laws of wave physics, electromagnetism, optics and modern physics.
  • Solve numerical problems involving wave physics, electromagnetism, optics and modern physics.
  • Explain the role of electrical and wave phenomena in living beings
  • Explain the physical concepts behind various medical imaging techniques.
  • Compare the advantages, disadvantages and limitations of different medical imaging techniques.
 
Content
The teaching unit aims for the student to acquire a mastery of the fundamental concepts of wave physics, electromagnetism, optics and modern physics (black body model, atomic physics, nuclear physics). The objective is that the student is able to apply these concepts to the qualitative and quantitative study of phenomena to which living beings are subjected.
Particular attention is paid to the physical basis of various medical imaging techniques: ultrasound, endoscopy, thermography, radiography, computed tomography, positron emission tomography, magnetic resonance imaging. The aim is for the student to be able to explain how they work and to compare their advantages, disadvantages and limitations.
This unit contributes to the following competences and outcomes :
    BIOL1BA: 1.2, 5.1, 5.3
    VETE1BA: 1.1.3, 2.5, 2.6
    MINCULTS: 1, 2
Teaching methods
  •     Theoretical lectures (20 x 2 h) : lectures, videos, experimental demonstrations, quizzes.
  •     Face-to-face exercise sessions (5 x 2 h): collective (with the assistant) and individual or small group problem solving.
  •     Quizzes on the Moodle LPHY1103 space to test the understanding of the concepts covered in the theoretical lectures.
Evaluation methods
The assessment consists of a written examination with numerical problems, multiple choice questions and/or open questions. No documents are allowed except for a form written by the teachers and provided with the questionnaire.
Online resources
Theoretical course slideshows and exercise sheets are available on the Moodle space LPHY1103.
Bibliography
  • Delbar, Th. (2001). Physique générale : Vibrations et ondes. Syllabus. Université catholique de Louvain.
  • Delbar, Th. (2002). Physique générale : Électricité et magnétisme I. Syllabus. Université catholique de Louvain.
  • Delbar, Th. (2002). Physique générale : Électricité et magnétisme II. Syllabus. Université catholique de Louvain.
  • Delbar, Th. (2007). Physique générale : Optique. Syllabus. Université catholique de Louvain.
  • Delbar, Th. (2007). Physique générale : Physique moderne. Syllabus. Université catholique de Louvain.
  • Delbar, Th. (2014). Physique générale : Recueil d’exercices. Syllabus. Université catholique de Louvain.
  • Hewitt, P. G. (2015). Conceptual physics (12e éd.). Pearson.
  • Knight, R. D., Jones, B. et Field, S. (2018). College physics: a strategic approach (4e éd.). Pearson.
  • Seret, A. et Hoebeke, M. (2012). Imagerie médicale : Bases physiques. Presses Universitaires de Liège.
Teaching materials
  • Diaporama sur les vibrations et les ondes
  • Diaporama sur l'électricité et le magnétisme
  • Diaporama sur l'optique
  • Diaporama sur la physique moderne
Faculty or entity


Programmes / formations proposant cette unité d'enseignement (UE)

Title of the programme
Sigle
Credits
Prerequisites
Learning outcomes
Bachelor in Veterinary Medicine

Minor in Scientific Culture

Bachelor in Biology

Bachelor in Biology, Anthropology and Archaeology