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CIE Jun 2016 v3 Paper 5 Q1
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![PMT Lithium is a soft alkali metal which may be cut with a knife. It is usually stored under oil because it reacts rapidly with moisture and oxygen in the air. Lithium is corrosive and may cause burns. Lithium is highly flammable and in large amounts reacts violently with water. 2Li(s) + 2H2O(l)2LiOH(aq) + H2(g) This reaction can be used to determine the relative atomic mass of lithium by measuring the volume of hydrogen produced from a small amount of lithium. (a) Draw the apparatus you could use to measure the volume of hydrogen produced, using standard laboratory equipment. Label the chemicals in your diagram and show how the reactants can be kept apart until the reaction is started. [3]UCLES 2016 9701/53/M/J/16<br />
PMT (b) To successfully carry out this experiment a correct procedure must be followed. The lithium you will use is stored as large pieces under oil. (i) Beginning with a large piece of lithium being removed from the oil, state how you would prepare a small piece of lithium for use in this experiment.[1] (ii) By only observing the gas collecting apparatus, state how you would know the reaction had stopped.[1] (iii) Other than eye protection, state two precautions you would take to make sure that the experiment proceeds safely. 1.2.[2] (iv) The relative atomic mass of lithium is known to be approximately 7. What approximate volume of hydrogen gas would a 0.1 g mass of lithium produce? (1 mol of gas occupies 24.0 dm3 at room temperature and pressure.) (v) What would be the capacity (volume) of the gas collecting apparatus you would use for the volume of hydrogen produced in (iv)? volume of H2(g) produced[1] volume of gas collecting apparatus[1]UCLES 2016 9701/53/M/J/16 [Turn over<br />
PMT (c) Another method that can be used to determine the relative atomic mass of lithium is by titration of the lithium hydroxide produced during its reaction with water. The following experimental procedure may be used. 1. 2. 3. 4. Add 100.0 cm3 of distilled water to a clean beaker. Add a known mass of lithium to the distilled water. After the reaction is complete, transfer 25.0 cm3 of the solution of lithium hydroxide from the beaker to a clean conical flask. Titrate this with an acid of known concentration. (i) State how you would accurately measure the total volume of distilled water in step 1.[1] (ii) State how you would know that the reaction between lithium and distilled water was complete.[1] (iii) State how you would transfer 25.0 cm3 of the solution of lithium hydroxide into a clean conical flask in step 3.[1] (iv) State how you would ensure that your titration result was reliable.[1] (d) To make sure that the beaker and the conical flask used in the experimental procedure in (c) are clean, a student decides to wash them out with some distilled water before starting the experiment. Some water remains in the beaker. State the effect, if any, this would have on the calculated relative atomic mass of lithium. Explain your reasoning.Some water remains in the conical flask. State the effect, if any, this would have on the calculated relative atomic mass of lithium. Explain your reasoning.[2] [Total: 15]UCLES 2016 9701/53/M/J/16<br />](https://learnah.org/wp-content/uploads/2018/08/June_2016_v3_QP_-_Paper_5_CIE_Chemistry_A-level_1-0.jpg)
![Question (a) Page 2 Cambridge International AS/A LevelMay/June 2016 9701 53 Mark Scheme Syllabus Paper Expected Answer Mark lithium and water being labelled in an arrangement that shows them coming into contact at some time gas syringe OR collection over water, both using a leak-proof connection to the reaction vessel that would collect gas after the reagents have been mixed a valid separation of the two reagents (b) (i) cut (a small piece) AND remove oil (ii) no change / increase in volume OR bubbles (in collector) cease (over water) OR no more gas / hydrogen collected (iii) (iv) (v) safety precautionsin a Li / LiOH / H2 context Any two from (cid:127) avoid skin contact / wear gloves / lab coat / use tongs in context of prevention of burns or corrosive contact only keep piece of lithium / storage vessel / apparatus away from water ensure unused lithium is all returned to storage vessel or stored under oil keep away from naked flames / burner / sources of ignition (cid:127) (cid:127) (cid:127) (0.1 / 71 / 224 000) = 171 cm3 correct unit MUST be present use 200 cm3 OR 250 cm3 OR 500 cm3 - the size must be reasonable and consistent with the volume in b(iv). correct unit MUST be present (c) (i) use a burette twice or 50 cm3 pipette twice (ii) lithium / solid has all reacted / disappears / dissolvesCambridge International Examinations 2016 [1] [1] [1] [1] [1] [2] [1] [1] [1] [1]<br />
Page 3 Cambridge International AS/A LevelMay/June 2016 9701 53 Mark Scheme Syllabus Paper Question Expected Answer (iii) pipette / burette / syringe / graduated pipette (iv) repeat the titration until results are within 0.1 cm3 (d) beaker : Effect: (Ar) (appears) more / larger AND Reason: (LiOH) solution more dilute (than expected) Flask: Effect: (Ar) None AND Reason: moles of (LiOH) (put in conical flask) remains the same / volume (i.e. moles) of LiOH not altered Mark [1] [1] [1] [1] [15]Cambridge International Examinations 2016<br />](https://learnah.org/wp-content/uploads/2018/08/June_2016_v3_MS_-_Paper_5_CIE_Chemistry_A-level_1-0.jpg)
