ECAM ENGINEERING PROGRAM
Combined Bachelor's / Master's Degree
General Data
Academic programECAM ENGINEERING PROGRAMModule Manager(s):
CAKAR Halil Ibrahim
Module typeTeaching Unit
Credits (ECTS)9
Maximum number of students250
Total duration :108h00Period :
Semester 1
Language : :
English
Learning outcomes
The aim of the Chemistry course is to provide a cultural background and to standardize the level between the students. At the end of this course, students should have learned about:<br>- the electronic structure of atoms and related periodic properties, including chemical bonds<br>- the physical states of matter, emphasizing the properties of gases and aqueous solutions,<br>- chemical equilibrium, including an introduction to thermochemistry<br>- chemical kinetics<br><br>The aim of the Direct Current Circuit Analysis course is to provide strong foundations for further studies in electronics. At the end of this course, students should know how to use:<br>- the basic circuit terminology and the main properties of current, voltage and power,<br>- i-v laws & combination rules for the main passive elements (resistors, inductors and capacitors),<br>- the main theorems dealing with sources (Thévenin, Norton, transformation, superposition),<br>- the main global methods for circuit analysis (node voltage & mesh current),<br>- differential equations to get transient responses for RC, RL (1st order) & RLC (2nd order) circuits. <br>Emphasis is put on two skills during the course: realizing the importance of the algebraic character of all the electric variables and being able to choose the most suitable method (out of the toolbox) for an efficient circuit analysis.<br><br>"Mechanics" course is designed to provide students with a working knowledge of elementary physics principles as well as their applications, and to enhance their conceptual understanding of physical laws. The topics covered during this course are: measurements, dimensional analysis, kinematics, Newton's laws, inertial and non inertial reference frames, statics and dynamics of rigid bodies and oscillations. Introduction to Hooke's law.