Photo AI
When 3.17 g of mercury thiocyanate [Hg(SCN)2] is heated in a well-ventilated fume cupboard it decomposes completely according to the following balanced equation - Leaving Cert Chemistry - Question c - 2019
Question c
![When-3.17-g-of-mercury-thiocyanate-[Hg(SCN)2]-is-heated-in-a-well-ventilated-fume-cupboard-it-decomposes-completely-according-to-the-following-balanced-equation-Leaving Cert Chemistry-Question c-2019.png](https://cdn.simplestudy.io/assets/backend/uploads/question/20220519162800.jpg)
When 3.17 g of mercury thiocyanate [Hg(SCN)2] is heated in a well-ventilated fume cupboard it decomposes completely according to the following balanced equation. $$... show full transcript
Worked Solution & Example Answer:When 3.17 g of mercury thiocyanate [Hg(SCN)2] is heated in a well-ventilated fume cupboard it decomposes completely according to the following balanced equation - Leaving Cert Chemistry - Question c - 2019
Step 1
What mass of C₂N₄ is produced in this reaction?
Answer
To find the mass of C₂N₄ produced, we start by determining the number of moles of Hg(SCN)₂ in 3.17 g:
-
Molar Mass Calculation:
- The molar mass of Hg(SCN)₂ can be calculated as follows:
- Hg: 200.59 g/mol
- S: 32.07 g/mol
- C: 12.01 g/mol
- N: 14.01 g/mol
- Molar Mass of Hg(SCN)₂ = 200.59 + 2(32.07 + 12.01 + 14.01) = 317.03 g/mol
- The molar mass of Hg(SCN)₂ can be calculated as follows:
-
Calculate Moles of Hg(SCN)₂:
- Moles = Mass / Molar Mass = 3.17 g / 317.03 g/mol = 0.0100 moles
-
Use Stoichiometry to Find Moles of C₂N₄:
- From the balanced equation: 2 moles of Hg(SCN)₂ produce 1 mole of C₂N₄.
- Therefore, moles of C₂N₄ = (0.0100 moles Hg(SCN)₂) × (1 mole C₂N₄ / 2 moles Hg(SCN)₂) = 0.00500 moles C₂N₄
-
Convert Moles of C₂N₄ to Mass:
- Molar Mass of C₂N₄ = 92.02 g/mol
- Mass = Moles × Molar Mass = 0.00500 moles × 92.02 g/mol = 0.460 g
Step 2
how many litres of oxygen gas, measured at s.t.p., are required for the complete combustion of the CS₂?
Answer
-
Balanced Reaction for CS₂ Combustion:
-
Moles of CS₂ Produced:
- From the decomposition reaction, 1 mole of CS₂ is produced from 0.0100 moles of Hg(SCN)₂, hence 0.00500 moles of CS₂ is produced.
-
Calculate Required Moles of O₂:
- For every 1 mole of CS₂, 3 moles of O₂ are required (from the balanced equation): 0.00500 moles CS₂ requires:
- O₂ required = 0.00500 moles × 3 = 0.0150 moles O₂
-
Convert Moles of O₂ to Litres at STP:
- At STP, 1 mole of gas occupies 22.4 litres.
- Therefore, O₂ required in litres = 0.0150 moles × 22.4 L/mol = 0.336 litres.
Step 3
what is the number of mercury atoms produced?
Answer
-
Moles of Hg Produced from Reaction:
- From the balanced equation, for every 2 moles of Hg(SCN)₂, 2 moles of Hg are produced. Since we have 0.0100 moles of Hg(SCN)₂:
- Moles of Hg produced = 0.0100 moles.
-
Calculate Number of Atoms of Hg:
- Number of atoms = Moles × Avogadro's number (6.022 × 10²³ atoms/mol):
- Number of Hg atoms = 0.0100 moles × 6.022 × 10²³ atoms/mol = 6.02 × 10²¹ atoms.
Step 4
what is the total number of moles of gas formed?
Answer
-
Identify All Gaseous Products:
- From the previous equations:
- 0.0100 moles HgO forms gaseous products when decomposed to form 0.0100 moles SO₂, which does not contribute to the gas count.
- 0.00500 moles CS₂ requires 0.0150 moles O₂ for combustion, and produces gaseous products:
- CO₂ (1 mole) and SO₂ (2 moles): 3 moles from combustion of CS₂.
- 0.010 moles of CN (in the decomposition reaction) forms 0.00500 moles N₂.
- From the previous equations:
-
Calculate Total Moles of Gases:
- Total moles of gaseous products = 0.010 moles SO₂ + 0.0150 moles O₂ + 0.00500 moles N₂ = 0.035 moles.