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Aluminium
In 10 interaktiven Modulen und in interaktiven Videos wird Wissen zum Thema Aluminium vermittelt und abgefragt.
Das Medium bietet H5P-Aufgaben an, die ohne zusätzliche Software verwendbar sind.
Durch interaktive Aufgabentypen wird das audiovisuelle und interaktive Lernen einfach.
Lernen macht jetzt Spaß!
Included Tasks
- I Steckbrief Aluminium - Interaktive Aufgaben
- II Bauxit - Lückentext
- III Aluminiumherstellung - Bildzuordnung
- IV Vom Bauxit zum Aluminiumoxid - Interaktive Aufgabe
- V Bindungsarten von Aluminium - Interaktives Video
- VI Elektrolyse - Interaktive Aufgabe
- VII Warum rostet Aluminium nicht? - Interaktives Video
- VIII Eloxieren - Bildzuordnung
- IX Vor- und Nachteile von Aluminium - Interaktive Aufgaben
- X Aluminiumrecycling - Interaktive Aufgabe
Curriculum-centred and oriented towards educational standards
Matching
Aluminium I
In the modern world, we encounter aluminium at every turn. This is due to the particular properties of the metal. Increasingly, aluminium is about to edge iron and steel out of engineering, as aluminium allows energy-saving lightweight construction of aircraft and vehicles of all kind. Aluminium is weather-resistant, does not rust and is therefore well suited as building material for house facades, window frames or simply for all parts that are exposed to wind and weather. At the same time, aluminium has a noble-looking surface recommending it as material for interior design.
Solutions, Emulsions and Mixtures of Substances
Be it milk in a cereal bowl, tea in a glass or the air around us. We constantly come across mixtures of substances in our everyday lives. As the name suggests, they are mixtures – mixtures of several so-called pure substances.
Aluminium II
The metal aluminium is growing in importance because of its specific properties and manifold application possibilities. This DVD deals with the industrial production of aluminium as a raw material, its processing and the manufacturing of alloys for the finished product. Starting with the raw material aluminium oxide the functioning of an electrolytic cell is demonstrated and explained. Alumina, white and powdery, is melted with great expenditure of energy, and by means of electrolysis converted into aluminium with a degree of purity of 99.9%. As aluminium oxide would not melt before a temperature of over 2,000°C is reached, the mineral cryolite is used as a solvent. The various alloys change the properties of aluminium and are produced according to precise formulations. The alloy is cast into blocks and bars that serve as primary material for processing plants. The responsible handling of resources underscores the importance of recycling. Aluminium is resilient and versatile.