Summary
Metals are extracted from ores found in the Earth's crust, with the method of extraction depending on the metal's reactivity. Less reactive metals than carbon are extracted by heating with carbon, while more reactive metals require electrolysis.
- Ore — a naturally occurring solid material from which a metal or valuable mineral can be extracted. Example: Bauxite is an ore used to extract aluminum.
- Blast Furnace — a structure used for extracting iron from its ore using high temperatures and reducing agents. Example: Iron is extracted from hematite in a blast furnace.
- Electrolysis — a method of extracting metals using electricity to cause a chemical change. Example: Aluminum is extracted from bauxite using electrolysis.
- Reactivity Series — a series of metals ranked by their reactivity. Example: Gold is low in the reactivity series and is found in its native state.
Exam Tips
Key Definitions to Remember
- Ore: A naturally occurring solid material from which a metal or valuable mineral can be extracted.
- Electrolysis: A method of extracting metals using electricity to cause a chemical change.
- Blast Furnace: A structure used for extracting iron from its ore using high temperatures and reducing agents.
Common Confusions
- Confusing the process of electrolysis with reduction by carbon.
- Misunderstanding the reactivity series and its impact on extraction methods.
Typical Exam Questions
- How is iron extracted from hematite in a blast furnace? Iron is extracted by reducing iron oxide with carbon monoxide in a blast furnace.
- What is the role of cryolite in the extraction of aluminum? Cryolite lowers the melting point of aluminum oxide, reducing energy costs.
- Why is recycling metals important? Recycling saves energy and resources, as metal ores are finite.
What Examiners Usually Test
- Understanding of the reactivity series and its application to metal extraction.
- The chemical reactions involved in the extraction of iron and aluminum.
- Advantages and disadvantages of recycling metals.