Group 7

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    Created by
    Shannon Obeng

    Cards (33)

    • This is a video for revision purposes on the topic of group 7 halogens for the AQA specification
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    • Halogens
      Group 7 nonmetal elements on the right side of the periodic table
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    • Halogens
      • Electron configuration 1s^2 2s^2 2p^5
      • Fluorine is a pale green gas, chlorine is a pale green gas, bromine is a reddish-brown liquid, iodine is a grey solid
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    • As we go down group 7

      The boiling point of the halogens increases
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    • As we go down group 7
      The electronegativity of the halogens decreases
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    • Halogen displacement reactions
      1. More reactive halogen displaces less reactive halide ion
      2. Electron is gained, forming new halide ion and less reactive halogen
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    • Bleach
      Sodium hypochlorite solution, formed by the disproportionation reaction of chlorine and sodium hydroxide
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    • Disproportionation reaction to form bleach
      Cl2 + 2 NaOH → NaCl + NaClO + H2O
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    • Uses of bleach
      • Water sterilization, paper/fabric bleaching, cleaning
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    • Water sterilization with chlorine
      1. Cl2 + H2O → H+ + Cl- + HClO (hypochlorous acid)
      2. HClO kills bacteria
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    • Sunlight decomposing chlorinated water
      • 4 Cl2 + 2 H2O → 4 H+ + 4 Cl- + O2
      • Reduces active chlorine (HClO) for water sterilization
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    • Advantages of chlorinating drinking water
      • Destroys microorganisms, long-lasting, reduces algae growth
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    • Disadvantages of chlorinating drinking water
      • Chlorine is toxic, can irritate respiratory system, potential to form carcinogenic byproducts
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    • Halide ions

      Ions of the halogen elements, have an extra electron compared to neutral halogens
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    • As we go down group 7
      Halide ion size increases, making them better reducing agents
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    • Halide ion reactions with concentrated sulfuric acid
      1. Cl-Cl2 (gas)
      2. Br-Br2 (gas)
      3. I-I2 (solid)
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    • The oxidation state of sulfur changes in these reactions
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    • Reduction products of sulfuric acid
      • Sodium hydrogen sulfate
      • Sulfur dioxide
      • Sulfur
      • Hydrogen sulfide
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    • Oxidation states of sulfur
      • +6
      • +4
      • 0
      • -2
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    • Reaction of chloride ion with concentrated sulfuric acid
      Sodium hydrogen sulfate formation
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    • Reaction of bromide ion with concentrated sulfuric acid
      1. Bromine oxidation
      2. Sulfur dioxide formation
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    • Reaction of iodide ion with concentrated sulfuric acid
      1. Iodine oxidation
      2. Sulfur formation
      3. Hydrogen sulfide formation
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    • Sodium hydrogen sulfate is not a redox reaction, just a standard chemical reaction between a salt and an acid
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    • Bromide and iodide can further reduce sulfur in sulfuric acid
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    • Balancing half-equations
      • Crucial for understanding redox reactions
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    • Testing for halide ions with silver nitrate
      1. Add dilute nitric acid first
      2. White precipitate for chloride
      3. Cream precipitate for bromide
      4. Yellow precipitate for iodide
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    • Further testing with ammonia
      1. Chloride precipitate dissolves in dilute ammonia
      2. Bromide precipitate dissolves in concentrated ammonia
      3. Iodide precipitate insoluble in concentrated ammonia
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    • Flame tests for group 2 ions
      • Calcium - dark red
      • Strontium - red
      • Barium - green
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    • Testing for ammonium compounds
      Add sodium hydroxide, heat, observe ammonia gas production (turns red litmus blue)
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    • Testing for hydroxides
      Add to litmus paper, turns red litmus blue
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    • Testing for carbonates
      1. Add hydrochloric acid, observe carbon dioxide gas
      2. Bubble gas through limewater, turns cloudy
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    • Testing for sulfates
      Add hydrochloric acid, then barium chloride, white precipitate of barium sulfate forms
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    • Test for carbonates first, then sulfates, then halides to avoid false positives
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