Parties du livre de référence vues lors des cours et des séances d'exercices

Ceci n'est pas totalement exhaustif, mais devrait vous permettre de faire le lien entre le cours, les séances d'exercices et le livre de référence...

En particulier, cela devrait vous permettre d'identifier avec précision les parties du livre à connaître : il est essentiel de s'entraîner à faire de nombreux exercices sans regarder la solution !

Les sections indiquées en bleu peuvent être considérées comme particulièrement importantes :-)


Cours 1 : Cinématique
1 Units, physical quantities and vectors (Examples 1,2,3,4,5,6,7,8,9,10,11,12)
2 Motion along a straight line (Examples 1,2,3,4,5,6,7,8,9)
3.1 Position and velocity vectors (Example 1)
3.2 The acceleration vector (Examples 2,3,4)
3.3 Projectile motion (Examples 5,6,7,8,9,10)
3.4 Motion in a circle (Examples 11,12)
3.5 Relative velocity (Example 13)

Cours 2 : Dynamique et la force de gravité
4.1 Force and interactions (Example 1)
4.2 Newton's first law (Examples 2,3)
4.3 Newton's second law (Examples 4,5)
4.4 Mass and gravity force (Examples 6,7)
4.5 Newton's third law (Examples 8,9,10,11)
4.6 Free body diagrams
5.1 Using Newton's first law : particles in equilibrium (Examples 1,2,3,4,5)
5.2 Using Newton's second law : dynamics of particles (Examples 6,7,8,9,10,11,12)

Cours 3 : La force de Coulomb
21.1 Electric charge
21.2 Conductors, insulators and induced charges
21.3 Coulomb's law (Examples 1,2,3,4)
21.4 Electric field and electric forces (Examples 5,6,7)
21.5 Electric field calculations (Examples 8,9,10,11,12)
21.6 Electric field lines

Cours 4 : Le théorème de Gauss
22.1 Charge and electric flux
22.2 Calculating electric flux (Examples 1,2,3)
22.3 Gauss's law (Example 4)
22.4 Applications of Gauss's law (Examples 5,6,7,8,9,10,11)
22.5 Charges on conductor (Examples 12,13)

Cours 5 : Les forces de frottement
5.3 Frictional forces (Examples 13,14,15,16,17,18)
5.5 The fundamental forces of the Nature

Cours 6 : Energie, travail, puissance, impulsion, collisions
6.1 Work (Examples 1,2)
6.2 Kinetic energy and the work-energy theorem (Examples 3,4,5)
6.3 Work and energy with varying forces (Examples 6,7,8)
6.4 Power (Examples 9,10)
7.1 Gravitational potential energy (Examples 1,2,6)
7.2 Elastic potential energy (Examples 7,8,9)
7.3 Conservative and non-conservative forces (Examples 10,11)
8.1 Momentum and impulse (Examples 1,2,3)
8.2 Conservation of momentum (Examples 4,5,6)
8.3 Momentum conservation and collisions (Examples 7,8,9)
8.4 Elastic collisions (Examples 10,11,12)

Cours 7 : Energie potentielle et potentiel électrique
23.1 Electric potential energy (Examples 1,2)
23.2 Electric potential (Examples 3,4,5,6,7)
23.3 Calculating electric potential (Examples 8,9,10,11,12)
23.4 Equipotential surfaces
23.5 Potential gradient (Examples 13,14)

Cours 8 : Capacités et diélectriques
24.1 Capacitors and capacitance (Examples 1,2,3,4)
24.2 Capacitors in serie and parallel (Examples 5,6)
24.3 Energy storage in capacitors and electric-field energy (Examples 7,8,9)
24.4 Dielectrics (Examples 10,11)
24.5 Molecular model of induced charge
24.6 Gauss's law in dielectrics

Cours 9 : Mouvements circulaires et mécanique des corps
9.1 Angular velocity and acceleration (Examples 1,2)
9.2 Rotation with constant angular acceleration (Example 3)
9.3 Relating linear and angular kinematics (Examples 4,5)
9.4 Energy in rotational body (Examples 6,7,8)
9.5 Parallel-axis theorem (Example 9)
9.6 Moment-of-inertia calculations (Examples 10,11)
10.1 Torque (Example 10.1)
10.2 Torque and angular acceleration for a rigid body (Examples 2,3)
10.4 Work and power in rotational motion (Example 8)
10.5 Angular momentum (Example 9)
10.6 Conservation of angular momentum (Examples 10,11,12)
11.1 Conditions for equilibrium
11.3 Solving rigid-body equilibrium problems (Example 3)

Cours 10 : Quelques problèmes de mécanique des corps !
8.3 Momentum conservation and collisions (Examples 7,8,9)
11.2 Center of gravity (Example 1)
11.3 Solving rigid-body equilibrium problems (Examples 2,3,4)
11.4 Stress, strain, and elastic moduli (Examples 5,6,7)
11.5 Elasticy and plasticity
10.3 Rigid-body rotation around a moving axis (Examples 4,6,7)
10.7 Gyroscopes and precession (Example 13)

Cours 11 : Courant électrique, résistances et force électromotrice
25.1 Current (Example 1)
25.2 Resistivity
25.3 Resistance (Examples 2,3)
25.4 Electromotive force and circuits (Examples 4,5,6,7)
25.5 Energy and power in electric circuits (Examples 8,9,10)

Cours 12 : Circuits
26.1 Résistances in series and parallel (Examples 1,2)
26.2 Kirchhoff's rules (Exameples 3,4,5,6,7)
26.3 Electrical measuring instruments (Examples 8,9,10,11)
26.4 RC circuits((Examples 12,13)
26.5 Power distribution systems (Example 14)