Physics

Students kit Electricity – Basics including circuit board

Experiments on the flow of electricity and basic electrical circuits

Experiments on the effects of electricity and explorations of selected technical applications

The picture shows an experiment kit with various components, including motors, wires and measuring instruments, all carefully arranged in a red plastic container. The kit is designed for use in schools and promotes hands-on learning in science.
The picture shows an experiment kit with various components, including motors, wires and measuring instruments, all carefully arranged in a red plastic container. The kit is designed for use in schools and promotes hands-on learning in science.
The picture shows a red box containing various experimental materials for educational purposes, including electrical components and a mounting board with numerous connection options. The box is clearly structured to facilitate practical application in experiments.
The image shows various experimental components, including contacts, a light bulb and other technical components used for educational experiments. In the background is a board with several terminals for electrical connections.
The picture shows a schematic diagram for an experiment using a bimetallic strip and tea light. It contains the arrangement of materials, including a contact plate and various connections in the experiment.
The image shows an experimental platform with a multitude of round holes in a grid pattern that can be used for wiring. On the top you can see connectors for plus and minus polarities to create circuits.
The picture shows an experiment board with various connection options that can be used for technical school projects. The layout and the metal connections are ideal for creating electrical circuits and enabling experimental setups.
The picture shows a red storage box with a label for a student set called "Electricity - Basics", which includes a pegboard. It is an experiment kit from Cornelsen aimed at students and teaches basic concepts of electricity.
The picture shows an experiment kit that includes a coil, various electrical components, and several white objects, presumably magnets or switches. The contents are neatly arranged in a foam insert that provides protection and keeps the parts in place.
The picture shows a well-organized experiment set with various components stored in precisely fitting foam inserts. You can see colored cables, connectors and other technical components that are suitable for experimental applications in the educational sector.
The picture shows a flat, gray plate with multiple arrangements of silver vias and white, rectangular conductor tracks. This is probably used for experimental electronic applications in the educational sector.
The image shows a schematic representation of a circuit for demonstrating electrical voltage using two 6-volt sources. The graphic contains various connection points and boxes, probably for experimental educational purposes.
The picture shows a selection of experimental components, including various connectors and a circuit board with connection holes. There are also some light bulbs and colored wires that are typically used for electrical circuits.
The picture shows an experimental circuit on a board with several connection options. You can see a light bulb holder, a switch and colored cables that can be used for practical electrical experiments.
The picture shows an experiment board with various electrical connections, on which some small light bulbs are lit. There are several plastic components and terminals attached that are used for testing and understanding electrical circuits.

item number 23210

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The students build an electrical circuit.


Test to determine the conductivity of different substances.


Students examine the power line of various liquids.


In the experiment, it is observed what differences there are in the voltage when one or more incandescent lamps are switched on.


This experiment shows the effect of resistance on the current and the lamp associated with it.


This experiment shows the effect of resistance on the current and the lamp associated with it.


The experiment shows the relationships between the quantities U=voltage, I=current and R=resistance.


In this experiment, the series connection of resistors is investigated.


The experiment investigates the effect of resistors, in a parallel connection, on the current.


The experiment shows the effect of an adjustable resistance on an incandescent lamp.


In this experiment it is observed what effect it has on a lamp when the voltage changes.


This experiment is for measuring specific resistances of different materials.


This experiment examines the conductivity of a wire when it is cold and when it is heated.


In this experiment, the system of a bridge circuit and its effect on the voltage of an incandescent lamp will be explained to you.


In this experiment, the resistance measurement is examined using an ammeter.


The experiment shows to what extent a parallel connection or a series connection influences the electrical output.


In this experiment, the heat development of a current-carrying heating wire is observed.


This experiment illustrates how electrical energy is converted into thermal energy.


This experiment shows how electrical energy is converted into light, like an incandescent lamp.


The experiment deals with the structure of a circuit, with a bimetallic switch, and its influence on the circuit.


In this experiment, the position of a hooked weight is observed, which is suspended from a current-carrying conductor. From the observations, conclusions are drawn about the change in the position of the hook weight.


In this experiment, the effect of the magnetic field of a conductor is observed.


This experiment shows the effect of an electromagnet and is compared with that of a permanent magnet.


In this experiment, the effect of the relay is observed.


This experiment shows the structure of a self-interrupter, how it works and what processes take place in it.


This experiment illustrates the principle of an electric motor and how it works.


By applying a voltage to the electric motor, you get a rotary movement.
Here, electrical energy is converted into mechanical energy.


It is investigated what difference there is when connecting several incandescent lamps in a row and what effects this has on the current.


In this experiment, the parallel connection of incandescent lamps is investigated and what effect this has on the circuit.


In this experiment, the difference between a power and a resistance wire is examined.


The experiment shows how a fuse works and makes sense in a circuit.


  • 1 × Thermometer student type –3°C to +103°C
  • 1 × Beaker, plastic, 100 ml (graduated)
  • 1 × Copper wire with insulation (20 m)
  • 1 × Heating wire , covered, 0,20 mm Ø (20 m)
  • 1 × Universal 4mm-plug-breadboard
  • 1 × Magnetic needle 75 mm
  • 2 × Plug lead, 25 cm, red
  • 2 × Plug lead, 25 cm, blue
  • 2 × Carbon electrode
  • 1 × Citric acid-1-hydrate 25g
  • 1 × Carton for SEG (large tray)
  • 1 × Plastic box, 140x50x25mm
  • 1 × SEG Lidfoam, grey 10 mm
  • 1 × Foam insert for 23210 390/275/105 mm
  • 1 × Plastic box, smooth 64x64x15 mm
  • 1 × Foam insert with bores, 160/140/20mm
  • 1 ×
  • 2 × Crocodile clip with 4 mm plug
  • 1 × Coil with core on 4mm- plugs
  • 1 × Armature with tungsten contacts and plugs
  • 1 × Pair of contact plates with plugs
  • 2 × Lever switch arm on plug
  • 2 × Knife switch spring contact with plug
  • 1 × Bimetallic strip on plug
  • 2 × Electrode support on plug
  • 1 × Electric motor with plugs
  • 1 × Constantan and nickel- chromium wire 10 m each
  • 1 × Copper and iron wire 10 m each
  • 1 × °Material patterns, set of 14 pcs.
  • 1 × Magnet bar/brass bearing AlNiCo, 72 x 60 x 6 mm
  • 1 × Needle support with plug
  • 2 × Lamp holder MES on 19 mm plug-in element
  • 1 × Bulb, MES, 1,5 V/0,15 A set of 10 pcs.
  • 1 × Bulb, MES, 3.8V/0,07A set of 10 pcs.
  • 1 × Bulb, MES, 6 V/0,3 A set of 10 pcs.
  • 9 × Bridge plug, white 4 mm
  • 1 × Resistor, 47 Ohms 1W plug-in element
  • 2 × Resistor, 100 Ohm, 1 W plug-in element
  • 1 × Storing tray, deep, red
  • 1 × Lid for 75028 + 75038
  • 1 ×
  • 1 ×

Art-No. items items
68533
Power supply unit, clocked, 6 V/1 A
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55222
Power supply unit, 12 V/3 A
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