Instructions for 26 experiments on magnetic fields.
| Title |
Product |
| Direction of the Lorentz force |
P1219200 |
| Dependence of the Lorentz force on the current intensity, conductor length and field direction |
P1219300 |
| Definition of the magnetic flux density |
P1219400 |
| The magnetic flux density as a function of the currentintensity |
P1219500 |
| Deflection of an electron beam in a homogeneous magneticfield |
P1219600 |
| Proving the Hall voltage with the aid of the Hall effect |
P1219700 |
| The Hall voltage as a function of the current intensity and magnetic flux density |
P1219800 |
| Temperature dependence of the Hall effect |
P1219900 |
| Field line patterns |
P1220000 |
| Law of direction for the magnetic flux components |
P1220100 |
| Superposition of magnetic fields |
P1220200 |
| Direction of the earth's magnetic field |
P1220300 |
| Measurements of the horizontal components of the earth'smagnetic field |
P1220400 |
| Field distribution and field strength in the area around a straight conductor |
P1220500 |
| Connection between the number of turns of a coil and themagnetic flux density |
P1220600 |
| Field distribution in the turn area and along the axis of acircular conductor |
P1220701 |
| Magnetic field in the Helmholtz arrangement |
P1220800 |
| Magnetic field of a solenoid |
P1220900 |
| The flux density as a function of the geometry of current-carrying solenoids |
P1221000 |
| The law of magnetic flux - Maxwell's first equation |
P1221100 |
| Biot-Savart's law |
P1221200 |
| Ferromagnetism, paramagnetism and diamagnetism |
P1221300 |
| Determination of the permeability of iron |
P1221400 |
| Hysteresis curves of different iron cores |
P1221500 |
| The induced voltage in a field with dB/dt = const. |
P1221600 |
| The law of induction for sinusoidal alternating fields |
P1221700 |
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