 |
 |
 |
 |
 |
 |
 |
 |
 |
 |
 |
 |
 |
Table of contents Mechanics
|
P1 Mechanics |
|
|
P1.1 Measuring methods |
P1.6 Wave mechanics |
|
P 1.1.1 Measuring length |
P 1.6.1 Transversal and longitudinal waves |
|
P 1.1.2 Measuring volume and density |
P 1.6.2 Wave machine |
|
P 1.1.3 Determining the gravitational constant |
P 1.6.3 Circularly polarized waves |
|
P1.2 Forces |
P1.6.4 Propagation of water waves |
|
P 1.6.5 Interference with water waves |
|
|
P 1.2.1 Static effects of forces |
P1.7 Acoustics |
|
P 1.2.2 Force as vector |
P 1.7.1 Sound waves |
|
P 1.2.3 Lever |
P 1.7.2 Oscillations of a string |
|
P 1.2.4 Block and tackle |
P 1.7.3 Wavelength and velocity of sound |
|
P 1.2.5 Inclined plane |
P 1.7.4 Reflection of ultrasonic waves |
|
P 1.2.6 Friction |
P 1.7.5 Interference of ultrasonic waves |
|
P1.3 Translational motions of a mass point |
P 1.7.6 Acoustic Doppler effect |
|
P 1.3.1 One-dimensional motions |
P 1.7.7 Fourier analysis |
|
P 1.3.2 One-dimensional motions on Fletcher's trolley |
P18 Aerodynamics |
|
P 1.3.3 One-dimensional motions on the linear air track |
P 1.8.1
Barometry
|
|
P 1.3.4 Conservation of linear momentum |
P 1.8.3
Viscosity
|
|
P 1.3.5 Free fall |
P 1.8.4
Surface tension
|
|
P 1.3.6 Angled projection |
P 1.8.5
Introductory experiments in aerodynamics |
|
P1.4 Rotational motions of a
rigid body |
P 1.8.6
Measuring air resistance |
|
P 1.4.1 Rotational motions |
|
|
P 1.4.2 Conservation of angular momentum |
|
|
P1.4.3 Centrifugal force |
|
|
P 1.4.4 Motions of a gyroscope |
|
|
P 1.4.5 Moment of inertia |
|
|
P1.5 Oscillations |
|
|
P 1.5.1 Mathematical and physical pendulum |
|
|
P 1.5.2 Harmonic oscillations |
|
|
P 1.5.3 Torsion pendulum |
|
|
P 1.5.4 Coupling of oscillations |
|
|
|
|
|
|
|
