Group 7

Question 1

Name the halogens, give their Color and physical state

Answer 1

• Fluorine= pale yellow= Gas
• Chlorine= Green= Gas
• Bromine= Red-brown= Liquid
• Iodine= Grey= Solid

Question 2

Describe the trend in boiling points down Group 7

Answer 2

• Boiling points increase down the group
• Due to increase in strength of vander waals forces as size and relative mass of the of the molecule increases

Question 3

Explain the trend in electronegativity down group 7

Answer 3

• Electronegativity decreases
• Larger atoms attract electrons less than smaller ones. This is because electrons are further from the nucleus and are shielded by more electrons

Question 4

What happens when halogens react

Answer 4

They gain an electron

Question 5

What is disproportionation?

Answer 5

A type of redox reaction in which there is mutual oxidation and reduction of the same element

Question 6

What do halogens displace?

Answer 6

Less reactive halide ions from a solution

Question 7

What type of halide does a halogen displace

Answer 7

A halide ion that is below it in the periodic table

Question 8

What is the trend in oxidizing power as we go down group 7

Answer 8

Oxidizing power reduces

Question 9

What happens when you mix chlorine gas with cold, dilute, aqueous sodium hydroxide

Answer 9

You get sodium chloride (I) solution. NaClO which is a common household bleach that kills bacteria

Question 10

Give the uses of sodium chlorate (l) solution (bleach)

Answer 10

• Water treatment
• To bleach paper and textiles
• Clean toilets

Question 11

Give the formula for chlorine and sodium hydroxide to make bleach

Answer 11

2NaOH(aq) + Cl2 (g) -> NaClO(aq) + NaCl(aq) + H2O(l)

Question 12

What happens when you mix water with chlorine?

Answer 12

Chlorine undergoes disproportionation, you form chloride ions and chlorate(l) ions

Question 13

What can chlorine do during sunlight

Answer 13

Chlorine can decompose to form chloride ions and oxygen

Question 14

What are the benefits of treating water with chlorine?

Answer 14

•It kills disease causing micro organisms
•Some chlorine persists in the water and prevents reinfection further down the supply
•It prevents the growth of algae eliminating bad tastes and smells and removes discoloration caused by organic compounds

Question 15

What are the risks of using chlorine to treat water?

Answer 15

• Chlorine gas is very harmful if breathed in because it irritates the respiratory system
• Liquid chlorine on the eyes or skin causes sever burns
• Chlorine reacts with organic compounds in water to form chlorinated hydrocarbons and many of these are carcinogenic (cancer-causing)

Question 16

Describe the trend of reducing power down group 7

Answer 16

The reducing power of halides increases down the group

Question 17

Explain the reason for the trend of reducing power down group 7

Answer 17

• Ions get bigger so the electrons are further away from the positive nucleus
• There are extra inner electron shells so there’s a greater shielding effect
• So further down the group the halide ion is, the easier it is to lose electrons and the greater the reducing power

Question 18

What do all halides produce when they react with sulfuric acid

Answer 18

Hydrogen halide

Question 19

Give the reaction of sodium fluoride and sodium chloride with sulfuric acid

Answer 19

• NaF(s) + H2SO4(l) -> NaHSO4(s) + HF(g)
• NaCl(s) + H2SO4(l) -> NaHSO4(s) + HCl(g)

Question 20

Give the reaction of sodium bromide with sulfuric

Answer 20

• NaBr(s) + H2SO4(l) -> NaHSO4(s) + HBr(g)

• 2HBr(g) + H2SO4(l) -> Br2(g) + SO2(g) + 2H2O(l)

Question 21

What is the difference between the results seen in hydrogen fluoride/hydrogen chloride and hydrogen bromide

Answer 21

• You’ll see misty fumes as the gas comes in contact with moisture in the air but HF/HCl aren’t strong enough reducing agents to reduce sulfuric acid so the reaction stops there

• HBr is a stronger reducing agent so it reacts with sulfuric acid in a redox reaction. (Musty fumes of hydrogen bromide) this reaction produces chocking fumes of SO2 and orange fumes of Br2

Question 22

Give the equation of the reaction of NaI with sulfuric acid

Answer 22

• NaI(s) + H2SO4(l) -> NaHSO4(s) + HI(g)

• 2HI(g) + H2SO4(l) -> I2(s) + SO2(g) + 2H2O(l)

• 6HI(g) + SO2(g) -> H2S(g) + 3I2(s) + 2H2O(l)

Question 23

What is used to test for haildes

Answer 23

Silver nitrate

Question 24

Describe the process in which silver nitrate is used to test for halides

Answer 24

• Fist you add dilute nitric acid to remove ions which might interfere with the test

• Add a few drops of silver nitrate solution

• A precipitate is formed of the silver halide

E.g Ag+(aq) + X- -> AgX(s)

Question 25

Give the results of each silver nitrate test for ions

Answer 25

• Fluoride F- : No precipitate
• Chloride Cl-: White precipitate
• Bromide Br-: Cream precipitate
• Iodide I-: Yellow precipitate

Question 26

Describe the solubility of halides in ammonia

Answer 26

• Chloride Cl-: White precipitate, dissolves in dilute NH3(aq)

• Bromide Br-: Cream precipitate, dissolves in conc NH3(aq)

• Iodide I-: yellow precipitate, insoluble in con NH3(aq)

Question 27

What is another name for positive ions

Answer 27

Cations

Question 28

Describe the sodium hydroxide test for positive ions

Answer 28

• You can use dilute sodium hydroxide solution (NaOH) to help you identify group 2 ions

• Add NaOH dropwise to a test tube containing the metal ion solution and observe the precipitate that forms

• Keep adding the NaOH until it is in excess. Record any changes that you see

Question 29

State the results from the dilute sodium hydroxide test

Answer 29

• Magnesium, Mg2+, with OH- forms slight white precipitate but with excess OH- forms white precipitate

• Calcium, Ca2+ with OH- forms slight white precipitate but with excess OH- forms slight white precipitate

• Strontium, Sr2+ with OH- forms slight white precipitate but with excess OH- forms slight white precipitate

• Barium, Ba2+ with OH- there is no change but with excess OH- there is still no change

Question 30

Describe how to use Red litmus paper and NaOH to test for ammonium ions and ammonia gas

Answer 30

• Ammonia gas is alkaline so you can test for it using damp piece of red litmus paper

• Litmus paper must be damp so ammonia gas can dissolve

• If ammonia is present, litmus paper will turn blue

• If hydroxide ions in a solution containing ammonium ions it will react to produce ammonia gas and water

• This can be used to test for ammonium ions

• NH4+(aq) + OH-(aq) -> NH3(g) + H2O(l)

Question 31

Give examples of negative ions (anions)

Answer 31

Halide ions, hydroxide ions, sulfate ions and carbonate ions

Question 32

Describe the flame test for group 2 ions

Answer 32

• Dip a niche one wire loop in concentrated hydrochloride acid

• Then dip the wire loop in concentrated hydrochloride acid

• Hold the loop in the unknown compound

• Hold the loop in the clear blue part of the Bunsen burner flame

• Observe the color change in the flame

• Calcium= brick red, Strontium= red, Barium= pale green

Question 33

Describe the test for sulfates with HCL and barium chloride

Answer 33

Add a little hydrochloride acid followed by barium chloride solution. If a white precipitate of barium sulfate forms, the original compound contained a sulfate

Question 34

Describe the pH indicator test for hydroxides

Answer 34

• Dip a piece of red litmus paper into the solution

• If hydroxide ions are present, the paper will turn blue

Question 35

Describe how hydrochloric acid can help Detect Carbonates

Answer 35

• When you Add hydrochloride acid a solution containing carbonate ions will fizz

• This is because the carbonate ions react with the hydrogen ions in the acid to give carbon dioxide

• You can test for carbon dioxide using limewater

• Carbon dioxide turns limewater cloudy just bubble the gas through a test tube of lime water

• If the limewater turns cloudy, your solution contains carbonate ions

Question 36

WhaT type of agents are halogens and halide ions

Answer 36

Halide ions are reducing agents and halogens are oxidizing agents

Question 37

Why is fluorine the strongest oxidizing agent?

Answer 37

It is the smallest halogen atom as it has the fewest electron shells so outermost electrons are closer to the nucleus. This means greater shielding effect and the outermost electron have a stronger attraction to the positive nucleus making it easier to gain an electron

Question 38

What is the rule of halide ions and halogen molecules?

Answer 38

Halogen molecules have an oxidation state of zero and can be reduced to halide ions. Halide ions have an oxidation state of -1 and can be oxidized to halogens

Question 39

Suggest why excess is used

Answer 39

To ensure all the halide ions are removed from the solution

Question 40

what are the major products formed when chlorine reacts with cold dilute, aqueous sodium hydroxide

Answer 40

NaCl and NaClO

Question 41

Which property increases down group 7

Answer 41

boiling point

Question 42

Chlorine has a low boiling point because the forces between its molecules are weak, explain how these forces arise between molecules

Answer 42

• Random movement of electrons create a dipole
• Induces a dipole in the neighboring molecule
• These temporary dipoles attract

Question 43

What type of reaction is the reaction with chlorine and water

Answer 43

equilibrium reaction

Question 44

Why is chlorine still used in water despite its toxicity

Answer 44

Health benefits outweigh the risks, only used in small/ low concentrations

Question 45

Give the formula for the reaction of sodium bromide with sulfuric acid

Answer 45

2NaBr + 2H2SO4 = Na2SO4 + Br2 + SO2 + 2H2O

Question 46

Explain the uses of the reagents involved in the testing of halides with silver nitrate

Answer 46

• Nitric acid removes ions that may give other precipitates with silver nitrate
• Silver nitrate produces precipitates with halides
• Ag+ (aq) + Cl- (aq) -> AgCl(s)
• NH3 dissolves AgCl
• AgCl(s) + 2NH3(aq) -> Ag(NH3)2+(aq) + Cl-(aq)