Instructions for 96 experiments using magnetic components on a demonstration board.
| Title |
Product |
| The simple circuit |
P1380100 |
| Voltage measurement |
P1380200 |
| Current measurement |
P1380300 |
| Conductors and non-conductors |
P1380400 |
| Changeover switches and alternating switches |
P1380500 |
| Series and parallel connection of sources of voltage |
P1380600 |
| The safety fuse |
P1380700 |
| The bimetallic switch |
P1380800 |
| And- and Or circuit |
P1380900 |
| Ohm's law |
P1381000 |
| The resistance of wires - dependence on the length andcross-section |
P1381100 |
| The resistance of wires- dependence on the material and tem-perature |
P1381200 |
| The resistivity of wires |
P1381300 |
| Current and resistance in a parallel connection |
P1381400 |
| Current and resistance in a series connection |
P1381500 |
| Voltage in a series connection |
P1381600 |
| The potentiometer |
P1381700 |
| The internal resistance of a voltage source |
P1381800 |
| The power and work of the electric current |
P1381900 |
| Capacitors in direct current circuits |
P1382000 |
| Charging and discharging a capacitor |
P1382100 |
| Capacitors in alternating current circuits |
P1382200 |
| Diodes as electrical valves |
P1382300 |
| Diodes as rectifiers |
P1382400 |
| Characteristics of a silicon diode |
P1382500 |
| Properties of solar cells - dependence on the illuminance |
P1382600 |
| The current-voltage characteristic of a solar cell |
P1382700 |
| Series and parallel connection of solar cells - open-circuit voltage and short-circuit current |
P1382800 |
| Series and parallel connection of solar cells - current-vol-tage characteristics and power ET 5.7 |
P1382900 |
| Characteristic curve of a germanium diode |
P1383000 |
| The NPN transistor |
P1383100 |
| The transistor as a direct current amplifier |
P1383200 |
| The current-voltage characteristic of a transistor |
P1383300 |
| The transistor as a switch |
P1383400 |
| The transistor time-delay switch |
P1383500 |
| The PNP transistor |
P1383600 |
| Conversion of electrical energy into thermal energy |
P1396700 |
| Conversion of electrical energy into mechanical energy andvice versa |
P1396800 |
| Conductivity of aqueous solutions of electrolytes |
P1396900 |
| The connection between current and voltage in conductiveprocesses in liquids |
P1397000 |
| Electrolysis |
P1397100 |
| Galvanisation |
P1397200 |
| Galvanic cells |
P1397300 |
| The lead accumulator |
P1397400 |
| PEM electrolyser and PEM fuel cell |
P1397500 |
| The PEM solar hydrogen model |
P1397600 |
| The magnetic effect of a current-carrying conductor |
P1397700 |
| The Lorentz force: current-carrying conductors in a magneticfield |
P1397800 |
| The electric bell |
P1397900 |
| The electromagnetic relay |
P1398000 |
| Controlling with a relay |
P1398100 |
| The light-sensitive switch |
P1398200 |
| The galvanometer |
P1398300 |
| The reed switch |
P1398400 |
| The permanent magnet motor |
P1398500 |
| The series motor |
P1398600 |
| The shunt motor |
P1398700 |
| The synchronous motor |
P1398800 |
| Generation of induced voltages with a permanent magnet |
P1398900 |
| Generation of induced voltages with an electromagnet |
P1399000 |
| The alternating current generator |
P1399100 |
| The direct current generator |
P1399200 |
| Lenz's law |
P1399300 |
| The behaviour of a direct current generator under load |
P1399400 |
| Voltage transformation |
P1399500 |
| Current transformation |
P1399600 |
| The forces between the primary and secondary coils of atransformer |
P1399700 |
| The high-current transformer |
P1399800 |
| Self-induction when switching a circuit on |
P1399900 |
| Self-induction when switching a circuit off |
P1400000 |
| The coil in the alternating current circuit |
P1400100 |
| Behaviour of a coil when a circuit is switched on - currentand voltage over time |
P1400200 |
| Earthing of the power supply line |
P1400300 |
| The protective conductor system |
P1400400 |
| The protective isolation transformer |
P1400500 |
| The NTC resistor |
P1400600 |
| The PTC resistor |
P1400700 |
| The light dependent resistor |
P1400800 |
| Characteristic curve of a Zener diode |
P1400900 |
| The Zener diode as voltage stabiliser |
P1401000 |
| Light-emitting diodes |
P1401100 |
| Photo diodes |
P1401200 |
| Bridge rectifiers |
P1401300 |
| Filter networks |
P1401400 |
| Alternating voltage amplification with a transistor |
P1401500 |
| Stabilisation of the operating point of a transistor ampli-fier stage |
P1401600 |
| Controlling a transistor with light |
P1401700 |
| Temperature control of a transistor |
P1401800 |
| Undamped electromagnetic oscillations |
P1401900 |
| The Darlington circuit |
P1402000 |
| The two-stage transistor amplifier |
P1402100 |
| The mode of operation of phototransistors |
P1402200 |
| Optical fibre communication |
P1402300 |
| Basic circuits of an operational amplifier |
P1402400 |
| The operational amplifier as a direct voltage amplifier |
P1402500 |
| Generation of square pulse voltage with an operationalamplifier |
P1402600 |
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