Practicals

Question 1

Describe a (simplified) method for electrolysis

Answer 1

1. Pour copper (II) sulfate solution into beaker (e.g. 50cm³)
2. Add carbon rods (must not touch each other) + connect to power supply
3. Turn on power supply
4. Hold piece of blue litmus paper (with forceps) in solution next to the positive electrode
5. After 5 minutes, switch off & examine negative electrode

Question 2

Name safety precaution one should take when carrying out electrolysis

Answer 2

Wear goggles

Question 3

When electrolysing copper (II) sulfate, what happens on the negative electrode (cathode)?

Answer 3

Metal (copper) coating forms

Question 4

When electrolysing copper (II) sulfate, how do we know oxygen is produced?

Answer 4

If gas produced at positive electrode doesn’t bleach blue litmus paper

Question 5

When electrolysing copper (II) sulfate, how do we know hydrogen is produced?

Answer 5

If there’s gas produced at negative electrode

Question 6

What do pipettes measure?

Answer 6

Only one volume of a solution

Question 7

What do burettes measure and let you do?

Answer 7

Different volumes + lets you add solution drop by drop

Question 8

What does the scale on burette show?

Answer 8

Volume of acid/alkali used

Question 9

Why don’t you use universal indicator for a titration?

Answer 9

Bc you want to see a sudden colour change, an end-point

Question 10

Name a indicator suitable for titration

Answer 10

• Phenolphthalein
• Litmus
• Methyl orange

Question 11

What colour is phenolphthalein in acids?

Answer 11

Colourless

Question 12

What colour is phenolphthalein in alkalis?

Answer 12

Pink

Question 13

What are titrations used for?

Answer 13

To find out exactly what volume of acid is needed to neutralise a measured volume of alkali (& vice versa)

Question 14

Describe the method for a titration (6 marks)

Answer 14

1. Use pipette + pipette filler to add acid to a conical flask & add indicator
2. Use a funnel to fill burette with some alkai of known
   concentration
3. Record initial volume of alkali in burette
4. Use burette to add alkali to acid a bit at a time, giving conical flask a regular swirl
5. Go slowly when you think end-point (colour change) is about to be reached (when colour lasts longer)
6. Record final volume of alkai in burette (read at eye level) and use it + initial reading to calculate volume of alkai used to neutralise acid

Question 15

Titration: When you’re filling the burette with an acid/alkai, how should you do it and why?

Answer 15

Do it BELOW EYE LEVEL - don’t want to be looking up if some acid spills over

Question 16

What should your 1st titration be and why?

Answer 16

Rough titration to get an approximate idea of where the solution changes colour (the end-point)

Question 17

Why should you repeat titrations and find a mean volume?

Answer 17

To increase the accuracy of your titration and to spot any anomalous results

Question 18

How do you calculate the rate of a reaction?

Answer 18

Amount of reactant used or amount of product formed

Time

Question 19

What colour is sodium thiosulfate and hydrochloric acid

Answer 19

Colourless

Question 20

What is produced when you react sodium thiosulfate and hydrochloric acid together?

Answer 20

Yellow precipitate of sulfur

Question 21

Describe how you can investigate how the concentration of a solution affects the rate of a chemical reaction (i.e. write a method)

Answer 21

1. Add set volume of dilute sodium thiosulfate to conical flask
2. Place flask on piece of paper with black cross drawn on it
3. Add some dilute HCl to flask & start stopwatch
4. Time how long it takes for black cross disappear in the cloudy sulfur
5. Repeat reaction with different concentrations of HCl (e.g. 0.5, 1, 1.5 mol/dm³)

Question 22

What is the effect of increasing the concentration of HCl on the rate of reaction - when added to excess of sodium thiosulfate?

Answer 22

Higher concentration = quicker reaction & ∴ less time it takes for mark to disappear

Question 23

When investigating how the concentration of a solution affects the rate of a chemical reaction - give a hypothesis

Answer 23

As the conc. of acid increases, the solution will go more cloudy

Question 24

Measuring Rates of Reaction: The faster the cross disappears…

Answer 24

the quicker the reaction

Question 25

Measuring Rates of Reaction: If the reactants are coloured and the products are colourless, what could you do to find the rate of the reaction?

Answer 25

Time how long it takes for the solution to lose its colour

Question 26

On a rate of reaction graph, what is normally the x-axis?

Answer 26

Time

Question 27

On a rate of reaction graph, what is normally the y-axis?

Answer 27

Amount of product formed OR amount of reactant used up

Question 28

How do you find a mean rate of a (whole) reaction on a graph?

Answer 28

(Overall) change in y

(Overall) change in x

Question 29

How do you find the rate of reaction at a particular point in time?

Answer 29

You have to find the gradient of the curve at that point: Draw tangent to curve and find the gradient

Question 30

What is the test for alkenes?

Answer 30

Add bromine water to alkene and it will go from orange to colourless

Question 31

Why do alkenes go colourless when added to bromine water?

Answer 31

Bromine is added across double bond

Question 32

What is the test for alkanes?

Answer 32

Add bromine water to alkane and it will remain bright orange

Question 33

Describe a method for paper chromatography

Answer 33

1. Draw line near bottom of filter paper in pencil
2. Add spot of ink to line and place sheet in beaker of solvent
3. Make sure ink isn’t touching solvent
4. Place lid on top of container
5. Solvent will seep up paper, carrying ink with it
6. When solvent has nearly reached top of paper, take paper out of beaker & leave it to dry

Question 34

During paper chromatography, why should you draw the line using pencil?

Answer 34

Pencil marks are insoluble (won’t dissolve in solvent)

Question 35

During paper chromatography, why should you make sure ink isn’t touching the solvent?

Answer 35

Don’t want ink to dissolve into solvent

Question 36

During paper chromatography, why should you place lid on top of container?

Answer 36

To stop solvent from evaporating

Question 37

Why will the dyes in ink separate out in paper chromatography?

Answer 37

Because each different dye in ink moves up paper at different rate

Question 38

What will happen if any dyes in the ink are insoluble (in the solvent used) in paper chromatography?

Answer 38

They’ll remain on the baseline

Question 39

What is the end result (i.e. pattern of spots) called in paper chromatography?

Answer 39

Chromatogram