| Title |
Product |
| Hydrogen chloride I |
P1144000 |
| Hydrogen chloride II |
P1144100 |
| Obtaining hydrogen chloride from hydrochloric acid |
P1144200 |
| Electrolysis of hydrochloric acid |
P1144300 |
| Chemical properties of hydrochloric acid |
P1144400 |
| Neutralisation of hydrochloric acid with caustic soda solu-tion |
P1144500 |
| Detection of acidic reaction with various indicators |
P1144600 |
| Electrical conductivity of acids |
P1144700 |
| Reaction velocity of strong and weak acids |
P1144800 |
| Conductivity of crystalline acids |
P1144900 |
| Formation of salts by reaction of metals with acids |
P1145000 |
| Formation of salts by reaction of metals sulphides and oxi-des with acids |
P1145100 |
| Formation of salts by reaction of lyes and acids |
P1145200 |
| Neutralisation - neutralisation enthalpy |
P1145300 |
| Formation of difficultly soluble salts by precipitation |
P1145400 |
| Complex salts |
P1145500 |
| Acidic, neutral and alkaline reactions of solutions of salts |
P1145600 |
| Electrical conductivity of solutions of salts |
P1145700 |
| Electrical conductivity of aqueous solutions |
P1145800 |
| Determination of the boiling point elevation of sodium chlo-ride solutions |
P1145900 |
| Ionic migration |
P1146000 |
| The importance of water in the formation of freely mobileions |
P1146100 |
| Heat of solution - enthalpy of solution |
P1146200 |
| Water molecules - dipoles |
P1146300 |
| Acid-base theory according to Brönsted I: reactions withhydrogen chloride |
P1146400 |
| Acid-base theory according to Brönsted II: water as anampholyte |
P1146500 |
| Electric charging by friction |
P1146600 |
| Electric charges can be transported and transferred |
P1146700 |
| Cathode and canal rays |
P1146900 |
| Electrolysis of aqueous solutions of chlorides |
P1147100 |
| Electrolysis of aqueous solutions of bromides and iodides |
P1147200 |
| Electrolysis of aqueous solutions of sulphates and nitrates |
P1147300 |
| Electrolysis of acids |
P1147400 |
| Electrolytic deposition and quantity of electricity (Fara-day's first law) |
P1147500 |
| Molecular ratio of electrolytically deposited substanceswith identical quantities of electricity (Faraday's second law) |
P1147600 |
| Preparation of caustic soda solution: diaphragm cellelectrolysis process |
P1147700 |
| Nickel and copper plating of metallic objects |
P1147800 |
| Zink and tin plating of metallic objects |
P1147900 |
| Electrolytic passivation of aluminium |
P1148000 |
| Molten-salt electrolysis of lead chloride |
P1148100 |
| Discharging ions of noble metals with base metals |
P1148200 |
| Potential differences between various metals |
P1148300 |
| Hydrogen in the redox series: normal hydrogen electrode |
P1148400 |
| Galvanic cells (primary cells: Daniell and Leclanché cell) |
P1148600 |
| Secondary cells - the lead accumulator |
P1148700 |
| Fuel cells |
P1148800 |
| Concentration cells (Nernst equation) |
P1148900 |
| Corrosion of iron - protection against corrosion |
P1149000 |
| Dependence of the reaction velocity on the type of substanceI |
P1149100 |
| Dependence of the reaction velocity on the type of substanceII |
P1149200 |
| Dependence of the reaction velocity on the concentration(Landolt reaction) |
P1149300 |
| Dependence of the reaction velocity on the temperature I(acetic acid - magnesium) |
P1149400 |
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