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Rust Prevention

Rust Prevention and Extraction of metals
Topic 6. Metals 
19 February 2024
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Slide 1: Tekstslide
ChemistrySecondary EducationAge 12,13

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Rust Prevention and Extraction of metals
Topic 6. Metals 
19 February 2024

Slide 1 - Tekstslide

Our Learning Map

Slide 2 - Tekstslide

Our Learning Map
Use a chemical equation to state the conditions required for the rusting of iron and steel to form rust

Slide 3 - Tekstslide

Our Learning Map
Use a chemical equation to state the conditions required for the rusting of iron and steel to form rust
Make a quick slide presentation or a digital poster to state and describe how barrier methods help prevent rust

Slide 4 - Tekstslide

Our Learning Map
State the conditions required for the rusting of iron and steel to form hydrated iron(III) oxide
Weigh the pros and cons of the barrier methods using new insights from the outputs of others.
Describe how barrier methods prevent rusting by excluding oxygen or water

Slide 5 - Tekstslide

Our Learning Map
State the conditions required for the rusting of iron and steel to form hydrated iron(III) oxide
State some common barrier methods, including painting, greasing and coating with plastic
Describe how barrier methods prevent rusting by excluding oxygen or water
- Explain sacrificial protection in terms of the reactivity series and in terms of electron loss
- Describe the use of zinc in galvanising as an example of a barrier method and sacrificial protection

Slide 6 - Tekstslide

Rust Prevention
Topic 6. Metals 
19 February 2024

Slide 7 - Tekstslide

Rewrite the word and symbol equations for rusting.

Slide 8 - Tekstslide

Questions to think about while watching the video.
a. Why do you think metal objects rust?
b. How can we prevent rusting from happening?

Slide 9 - Tekstslide

Slide 10 - Tekstslide

Rust Prevention
Topic 6. Metals 
19 February 2024

Slide 11 - Tekstslide

Rust Prevention
Topic 6. Metals 
19 February 2024

Slide 12 - Tekstslide

Lesson Key Points
  • Rusting is a chemical reaction that occurs when iron or steel comes into contact with oxygen and water.
  • Barrier methods prevent rusting by creating a physical barrier that excludes oxygen and water from the metal surface.
  • Common barrier methods include painting, greasing, and coating with plastic.

Slide 13 - Tekstslide

Correcting Misconception
Rusting is inevitable for all metal objects.

Slide 14 - Tekstslide

Correcting Misconception
Rusting is inevitable for all metal objects.

Slide 15 - Tekstslide

Practical Work 4 
Analysis Test
timer
15:00

Slide 16 - Tekstslide

Rust Prevention
Topic 6. Metals 
19 February 2024

Slide 17 - Tekstslide

Discussion
How can we prevent iron from rusting?

Slide 18 - Tekstslide

Methods of Rust Prevention
  • Barrier methods
  • Sacrificial methods

Slide 19 - Tekstslide

1) Barrier Methods
  • Work by preventing oxygen and water from touching the iron.

Slide 20 - Tekstslide

1) Barrier Methods
  • Work by preventing oxygen and water from touching the iron.

Slide 21 - Tekstslide

1) Barrier Methods
  • Work by preventing oxygen and water from touching the iron.

Slide 22 - Tekstslide

1) Barrier Methods
  • Work by preventing oxygen and water from touching the iron.

Slide 23 - Tekstslide

2) Sacrificial Methods
  • Work by adding a more reactive metal to the iron, like aluminium or zinc.

Slide 24 - Tekstslide

2) Sacrificial Methods
  • Work by adding a more reactive metal to the iron, like aluminium or zinc.

Slide 25 - Tekstslide

3) Barrier + Sacrificial Methods
Galvanising (uses both methods)

Slide 26 - Tekstslide

Rust Prevention
Topic 6. Metals 
19 February 2024

Slide 27 - Tekstslide

Collaborative Work 4C/E - "Save The Metal"
  • Goal - Choose the best barrier method for protecting the metal object in the given scenario and explain the science behind each barrier method.
  • Product/Output - Quick slide presentation/ digital poster (made in 10-15 minutes only)
  • Standards - Marking rubric 
timer
15:00

Slide 28 - Tekstslide

Slide 29 - Tekstslide

Plenary session
  • Barrier methods
  • Sacrificial methods

Slide 30 - Tekstslide

Metal Extraction and Reactivity
Topic 6. Metals 
19 February 2024

Slide 31 - Tekstslide

Our Learning Map

Slide 32 - Tekstslide

Our Learning Map
Sort out metals according to their reactivity

Slide 33 - Tekstslide

Our Learning Map
Sort out metals according to their reactivity
Use the position of metals in the reactivity series to predict a more suited extraction method

Slide 34 - Tekstslide

Our Learning Map
Sort out metals according to their reactivity
Formulate a list of extraction methods according to their costs and ease in obtaining the metals (e.g., most to least expensive method)
Use the position of metals in the reactivity series to predict a more suited extraction method

Slide 35 - Tekstslide

Lesson Key Points
  • The position of metals in the reactivity series affects the ease of obtaining them from their ores.
  • Metals higher in the reactivity series are more reactive and require more energy to extract.
  • Metals lower in the reactivity series are less reactive and can be obtained using simpler extraction methods.

Slide 36 - Tekstslide

Metal Extraction and Reactivity
Topic 6. Metals 
19 February 2024

Slide 37 - Tekstslide

Collaborative Work 5C/E - "Extract Sort"
  • Goal - Classify a list of metals based on their reactivity and predict the extraction methods required for each.
  • Product/Output - List of metals
  • Standards - Correct list.
timer
5:00
  • Sodium
  • Platinum
  • Gold
  • Magnesium
  • Iron
  • Copper
  • Zinc

Slide 38 - Tekstslide

Useful information
  • Metals above carbon = Electrolysis
  • Metals between hydrogen and carbon = Burning with carbon
  • Metals below hydrogen but above silver = Burning directly in the air
  • Metals from silver and below = No extraction needed

Slide 39 - Tekstslide

(Hydrogen)

Slide 40 - Tekstslide

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