A group of students prepared 500 cm³ of a 0.05 M standard solution of sodium carbonate, using anhydrous sodium carbonate (Na₂CO₃), which is a primary standard. The required mass of the carbonate was weighed accurately on a clock glass. It was then dissolved in deionised water in beaker A. The solution was transferred to flask B and made up accurately to the 500 cm³ mark with deionised water. (a) Explain the underlined term. (b) Give one property of anhydrous sodium carbonate that allows it to be used as a primary standard. (c) Name the type of flask labelled B in the diagram. (d) How would you have ensured that all of the solution in the beaker was transferred to flask B? (e) Outline the procedure for bringing the solution in B accurately to the 500 cm³ mark. What further step should be taken before the solution is ready for use? (f) It was found by titration that exactly 17.85 cm³ of a hydrochloric acid (HCl) solution neutralized 25.0 cm³ of this 0.05 M sodium carbonate solution. For the titration reaction: Na₂CO₃ + 2HCl → 2NaCl + H₂O + CO₂ i. Find, correct to two decimal places, the concentration of the hydrochloric acid solution (ii) in moles per litre. (iii) in grams per litre.

Leaving Cert Chemistry Acids, Bases & PH: A group of students prepared 500

A group of students prepared 500 cm³ of a 0.05 M standard solution of sodium carbonate, using anhydrous sodium carbonate (Na₂CO₃), which is a primary standard - Leaving Cert Chemistry - Question 2 - 2013

Question 2

A group of students prepared 500 cm³ of a 0.05 M standard solution of sodium carbonate, using anhydrous sodium carbonate (Na₂CO₃), which is a primary standard. The r... show full transcript

Worked Solution & Example Answer:A group of students prepared 500 cm³ of a 0.05 M standard solution of sodium carbonate, using anhydrous sodium carbonate (Na₂CO₃), which is a primary standard - Leaving Cert Chemistry - Question 2 - 2013

Step 1

Explain the underlined term.

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Answer

The term 'standard solution' refers to a solution of known concentration that is used as a reference in titration experiments. In this case, the sodium carbonate solution has a precise concentration of 0.05 M, allowing for accurate calculations and comparisons during titrations.

Step 2

Give one property of anhydrous sodium carbonate that allows it to be used as a primary standard.

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Answer

Anhydrous sodium carbonate is pure, non-deliquescent, and does not absorb moisture from the air, which ensures that its mass remains constant and reliable when preparing standard solutions.

Step 3

Name the type of flask labelled B in the diagram.

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Answer

The flask labelled B is a volumetric flask.

Step 4

How would you have ensured that all of the solution in the beaker was transferred to flask B?

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Answer

To ensure that all of the solution from the beaker A was transferred to flask B, I would rinse the beaker with deionised water. This would involve adding a small amount of water to the beaker and swirling it around to wash down any residual solution, then pouring this rinse water into the volumetric flask.

Step 5

Outline the procedure for bringing the solution in B accurately to the 500 cm³ mark. What further step should be taken before the solution is ready for use?

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Answer

To bring the solution in flask B accurately to the 500 cm³ mark, first ensure the flask is on a level surface and mark the meniscus at eye level. Next, add deionised water dropwise using a dropper until the bottom of the meniscus is level with the 500 cm³ mark. Finally, to ensure homogeneity, invert the flask several times to achieve thorough mixing, ensuring a uniform concentration.

Step 6

Find, correct to two decimal places, the concentration of the hydrochloric acid solution

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Answer

Using the titration reaction, we have:

ightarrow 2 ext{NaCl} + ext{H}_2 ext{O} + ext{CO}_2$$ From the titration: - Volume of Na₂CO₃ solution = 25.0 cm³ = 0.025 L with a concentration of 0.05 M. - Moles of Na₂CO₃ = concentration × volume = 0.05 imes 0.025 = 0.00125 ext{ moles}. - Since 1 mole of Na₂CO₃ reacts with 2 moles of HCl, moles of HCl = 2 × 0.00125 = 0.0025 moles. - Volume of HCl used = 17.85 cm³ = 0.01785 L. Now calculating the concentration of HCl: $$M = rac{ ext{moles}}{ ext{volume}} = rac{0.0025}{0.01785} \\ = 0.14 ext{ M}$$

Step 7

in moles per litre.

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Answer

The concentration of hydrochloric acid in moles per litre is 0.14 mol/L.

Step 8

in grams per litre.

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Answer

To find the concentration in grams per litre, we first calculate:

$ext{Molar mass of HCl} = 36.5 ext{ g/mol}$

Then, we find the grams per litre using the concentration:

$ext{grams/L} = 0.14 imes 36.5 = 5.11 ext{ grams/L}$

A group of students prepared 500 cm³ of a 0.05 M standard solution of sodium carbonate, using anhydrous sodium carbonate (Na₂CO₃), which is a primary standard - Leaving Cert Chemistry - Question 2 - 2013

Worked Solution & Example Answer:A group of students prepared 500 cm³ of a 0.05 M standard solution of sodium carbonate, using anhydrous sodium carbonate (Na₂CO₃), which is a primary standard - Leaving Cert Chemistry - Question 2 - 2013

Explain the underlined term.

Give one property of anhydrous sodium carbonate that allows it to be used as a primary standard.

Name the type of flask labelled B in the diagram.

How would you have ensured that all of the solution in the beaker was transferred to flask B?

Outline the procedure for bringing the solution in B accurately to the 500 cm³ mark. What further step should be taken before the solution is ready for use?

Find, correct to two decimal places, the concentration of the hydrochloric acid solution

in moles per litre.

in grams per litre.

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