Expected skills and content of the exam

The examinee is expected to be able to analyze and solve an automation control problem and a problem

involving several fields of physics(electrokinetics,mathematics for physics,wave physics,

electromagnetism,thermodynamics,optics,and mechanics).The exam consists of two parts:an

automation control problem which counts for 50 points,and a physics problem which counts for 100

points.

Engineering Science part(automation control)

I-Modeling of automation systems

1°)Forward chain control

2°)Feedback control

II-Hypotheses related to the study of linear time-invariant(LTI)systems

1°)Continuity

2°)Linearity

3°)Time invariance

III-Performances of LTI systems

1°)Steady-state performances

2°)Transient-state performances

IV-Mathematical tools for the study of LTI systems

1°)Laplace transform of a continuous signal

2°)Modeling by a block diagram

V-Time response

1°)First order systems

2°)Second order systems

3°)Higher order systems

VI-Frequency response

1°)Definition and methods

2°)Frequency plots

3°)Frequency response of some basic systems

4°)Frequency response of other systems

VII-Algebraic methods for the determination of the performances of a LTI system

1°)Stability

2°)Accuracy and robustness

3°)Swiftness and damping

VIII-Determination of the performances of a LTI system from the frequency response of its open￾loop transfer function

1°)General methodology:Nyquist criterion

2°)Stability

3°)Damping:Nichols chart

4°)Accuracy/robustness and swiftness

IX-Compensation of control systems

1°)Types of controllers(serial,parallel,by anticipation)

2°)Classical controllers

Physics part

I-Electrokinetics

1°)General laws of electrokinetics

2°)Usual theorems of electrokinetics

3°)Transient regimes

4°)Linear circuits used with forced sinusoidal excitations

5°)Transfer function and filtering

6°)Filtering of periodic signals

II-Mathematics for physics presented through steady-state electromagnetism

1°)Charge distribution

2°)Electrostatic field

3°)Current distribution

4°)Magnetostatic field

5°)An electrostatic potential

6°)A vector potential

7°)The electrostatic dipole-The magnetic dipole

III-Wave physics

1°)1-D d’Alembert equation

2°)Synchronous harmonic waves superposition:interferences and resonance

3°)Electromagnetic waves in vacuum

4°)Reflection of an electromagnetic wave off a perfectly conducting medium

5°)Linear propagation phenomenon-dispersion

6°)Propagation of an electromagnetic wave in a real conducting medium-absorption

7°)Reflection and refraction of an electromagnetic wave on a surface

IV-Electromagnetism

1°)Electromagnetism postulates

2°)Energy carried by an electromagnetic wave

3°)Conductive media

4°)Electric dipole radiation

5°)Quasi stationary state approximation

6°)Electromagnetic induction

V-Thermodynamics

1°)Temperature-Description of model fluids

2°)Thermodynamical system at the thermodynamical equilibrium

3°)First law of thermodynamics

4°)Second law of thermodynamics

5°)Heat engines

6°)Phase transition

7°)Transport phenomena:particles diffusion-heat conduction

VI-Optics

1°)Elements of geometrical optics

2°)Wave model of light

3°)Interference phenomena

4°)Spatial and temporal coherences

5°)Michelson interferometer

VII-Mechanics

1°)Newton’s laws of motion

2°)Work,potential energy and kinetic energy

3°)Angular momentum

4°)Linear systems used with forced sinusoidal excitations

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