Chemistry experiments for the upper secondary level:

• The greenhouse effect
• Electrolysis of water
• The Avogadro constant
• Characteristic line of an electrolyser
• Faraday-effectiveness of an electrolyser
• Characteristic line of a PEM fuel cell
• Effectiveness of a PEM fuel cell
• The first Faraday law
• Reaction speed at electrodes
• Characteristic line of a methanol fuel cell (see no. 76357)
• Power of a methanol fuel cell depending on the methanol concentration (see no. 76357)
• The fuel cell to be taken apart: influence of the catalyst connection (see no. 76353)
• Influence of the gas supply
• Comparison of a hydrogen fuel cell with a methanol fuel cell
• Theoretic fundamental principles

 
Experiments for the lower secondary level:

• Investigation into solar cells: brightness, set up angle, power, diode
• Investigation into the water electrolysis
• Examination of an electrolyser
• Investigations into a PEM fuel cell: voltage – power, hydrogen consumption – power
• Examination of a methanol fuel cell (see no. 76357)
• The greenhouse effect
• Investigations into the effectiveness
• Hydrogen as energy carrier

 
Physics experiments for the upper secondary level:

• Examination of a solar module
• Characteristic line of an electrolyser
• Photo current of a solar cell
• Series- and parallel circuits of a fuel cell
• Series- and parallel circuits of solar cells
• The fuel cell to be taken apart (see no. 76353)
• Characteristic line of a methanol fuel cell (see no. 76357)
• Series- and parallel circuits of methanol fuel cells (see no. 76357)

 
Additional components to be used with the students kit no. 76350, which are described with experiments in the course program books and which can also be stored in the tray of the kit:
Methanol fuel cell (76353)
Fuel cell to be taken apart (76357)

Technical specifications

Materials for 1 workgroup
Size: 312x427x75 mm