This page contains the AQA GCSE Chemistry C4 Chemical Calculations Questions and kerboodle answers for revision and understanding Chemical Calculations.This page also contains the link to the notes and video for the revision of this topic.
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Relative atomic mass is the ratio of the average mass of atoms of an element compared to 1/12 of the mass of 12C6 atom.
Relative formula mass of Magnesium fluoride MgF2= 24 + (19 x 2) = 62 g
Relative formula mass of glucose C6H12O6= (12 x 6) + (1 x 12) + (16 x 6) = 180 g
In 0.02 g of helium
Moles = Mass/Mr
Mr of Helium = 4g
Moles = 0.02/4
= 0.005 moles are present in 0.02g of helium
Moles = Mass/Mr
Mr of Sulphur = 32 g
Moles = 9.6/32
= 0.3 moles of sulphur are present in 9.6 g of sulphur
b(ii) Moles = Mass/Mr
Mr of Sulphur = 32 g
Mass = 16 tonnes = 16 X 106 g
Moles =16 X 106 / 32
= 5 X 105 moles are present in 16 tonnes of sulphur
Mass = Mr X Moles
= Mr of CaCO3 = ( 40+ 12 + 16X3)
= 100 g
Mass = 50 X 100
5000 g is the mass of 50 moles of calcium carbonate
0.05*2 = 0.10 g is the mass of 0.05 moles of hydrogen.
123.9*0.6 = 74.34 g is the mass of 0.6 moles of phosphorus P4.
Atomic masses can be non whole numbers if the element has different isotopes with different masses and different relative abundances.
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1.Answer
2HCl means there are 2 molecules of hydrochloric acid or 2 moles of hydrochloric acid is formed.
According to the balanced chemical equation, with 2 moles of magnesium 1 mole of oxygen reacts. So, 48 g of magnesium will react with 32 g of oxygen. So 6 of magnesium will react with (32/48)*6 = 4 g of oxygen.
Balanced equation for the decomposition of hydrogen peroxide to form hydrogen and oxygen:
2H2O2 (l) ⇌ 2H2O (l) + O2 (g)
From the balanced chemical equation we can say that 1 mole of oxygen require 2 mole of hydrogen peroxide. Converting mass to moles give us the relationship that 32 g of oxygen require 68 g of hydrogen peroxide. So 1.6 g of oxygen will require (68/32)*1.6 = 3.4 g of hydrogen peroxide.
Reaction of calcium with water to form calcium hydroxide and hydrogen
Ca (s) + 2H2O (l) = Ca(OH)2 (aq) + H2 (g)
According to the balanced chemical equation, to produce one mole of calcium hydroxide one mole of calcium is needed. Hence, 74 g of calcium hydroxide requires 40 g of calcium. So, 3.7 g calcium hydroxide will require (40/74)*3.7 = 2 g of calcium.
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1.Answer.
The limiting reagent in a chemical reaction is the substance that is totally consumed when the chemical reaction is complete.
Number of moles of each reactant and product when 6.35 g of copper, 1.60 g of oxygen and 7.95 g of copper oxide react.
Moles of Copper = 6.35/63.5 = 0.1 moles
Moles of Oxygen = 1.6/32 = 0.05 moles
Moles of Copper Oxide = 7.95/79.5 = 0.1 moles
Relationship between the moles reacted and the balanced chemical equation.
Cu : O : CuO = 2:1 :2
0.1/0.05 : 0.05/0.05 : 0.1/0.05
Balanced Chemical Equation,
2Cu + O2 = 2CuO
2:1:2
Balanced chemical equation when aluminium reacts with iron(III) oxide to form aluminium oxide and iron
2Al(s) + Fe2O3 (s) = Al2O3 (s) + 2Fe (l)
When 32 g of iron (III) oxide was reacted with 16.2 g of aluminium then aluminium will be in excess and iron oxide will be the limiting reagent.
moles of aluminium = 16.2/27 = 0.6 moles
moles of iron oxide = 32/159.7 = 0.2 moles
For one mole of iron oxide 2 moles of aluminum will react. So for 0.2 moles of iron oxide, 0.4 moles of aluminium is required. Hence, aluminium is in excess and iron oxide is limiting.
When 32 g of iron (III) oxide was reacted with 16.2 g of aluminium then aluminium will be in excess and iron oxide will be the limiting reagent and 22.4 g is the maximum mass of iron that can be obtained.
According to the balanced chemical equation, 2 moles of aluminium gives 2 moles of iron. Hence it is 1:1 ratio. So 0.4 moles of aluminium when reacts give 0.4 moles of iron = 0.4*56= 22.4 g.
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If the industry find ways to make products using high yield reactions and minimize the waste than
It will reduce the waste of reactants and it will also result in lower cost of the manufacturing processes.
2.Answer.
Factors that affect the percentage yield are :
According to the balanced chemical equation, 1 moles of N2 gives 2 moles of ammonia. So, 28 g of nitrogen forms 34 g of ammonia. So 7 g of nitrogen will form (34/28)*7 = 8.5 g of ammonia
So Percentage Yield
=(1.8/8.5)*100 = 21.17%
2 a) Balanced chemical equation for the thermal decomposition of sodium bicarbonate to give sodium carbonate water and carbon dioxide is :
2NaHCO3 = Na2CO3 + H2O + CO2
106/168*16.8 = 10.6 g of sodium carbonate. But the sodium carbonate produced is 9.2g.
So percentage yield = 9.2/10.6 = 86.8%.
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The formula for atom economy is = mass of atoms in product/mass of atoms in reactant x 100
The thermal decomposition of calcium carbonate, with the desired product being calcium oxide and waste product being carbon dioxide is shown like this:
CaCO3 (s) → CaO (s) + CO2 (g)
The total mass of all the reactants = mass of CaCO3 = 100 g
The mass of desired product = mass of CaO = 56 g
So Atom Economy = (56/100)*100 = 56%
Atom Economy of reaction 1 = 100% ((64.5/ 64.5)*100)
Atom Economy of Reaction 2 = 78.18% (64.5/64.5+18)*100.
Reaction 1 is favored as it has no by-product, therefore, has 100% atom economy. All the reactants are used up to make the direct product.
The two major factors that the chemical company should consider are the energy cost and the atom economy. The energy cost should be minimum and the atom economy of a reaction should be highest.
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50 g of sodium chloride when dissolved in 2.5 dm3 of water
50/2.5 = 20 g/dm3
1.8 g of sodium carbonate in 862 cm3 of water = 862 cm3 = 0.862 dm3
1.8/0.862 = 2.08 g/dm3
7 g of potassium hydroxide when added to 100 cm3 of water = 0.1 dm3 of water
7/0.1 = 70 g/dm3
Concentration = Mass/ Volume. So increases in the mass of solute will increase the concentration of a solution. However, increase in volume will make the solution dilute and will decrease its volume. Hence concentration and mass of solutes are directly proportional and the concentration and volume of the solute is inversely proportional to the concentration of the solution.
Concentration = Mass /volume
Mass= Concentration * Volume
= 93.6*0.025 = 2.34 g.
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The curved surface of a liquid in a measuring cylinder is called a meniscus.
The measuring instruments used to measure the volume of liquid in a titration are Burette and volumetric flask.
2 a. To carry out the titration between dilute nitric acid of known concentration and sodium hydroxide of unknown concentration we would require methyl orange or phenolphthalein as a suitable indicator. We will start with pipetting out 25 cm3 of known concentration of acid and will add it to the conical flask. Inside the conical flask we will also add a few drops of the indicator. We will then fill the burette with unknown concentration of sodium hydroxide. We will note the starting volume of the burette. We will then slowly release the tap and allow the sodium hydroxide to be added dropwise to the conical flask and we will add until the indicator changes colour. As soon as indicator changes colour we will stop the tap and note the final reading of the burette. We will repeat all the steps three times and take concordant readings.
Two acid/base indicators are Universal indicator and Ordinary single indicator.
Litmus and phenolphthalein are single indicators used to show whether a solution is acidic or alkaline, while the universal indicator is a mixed indicator that can give an estimate of the pH. A pH curve shows how the pH changes when an acid and alkali are mixed together.
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Moles = Concentration * Volume
Concentration = 0.2 mol/dm3
Volume = 10 cm3 = 10/100 = 0.01 dm3
= 0.2 * 0.01 = 0.002 moles.
Reaction of potassium hydroxide with nitric acid
KOH(aq) + HNO3 (aq) —–> KNO3 (aq) + H2O (l)
Moles = Concentration * Volume
= 0.4 * 0.01 = 0.004 moles.
There is 1:1 ratio of moles of KOH and HNO3 so moles of nitric acid is also 0.004 moles.
Moles/Volume = 0.004/0.0125 = 0.32 mol/dm3.
0.32*63 = 20.16 g/dm3.
Molar volume of gas, Vm, is defined as the volume of 1 mole of the gas at a specified temperature and pressure.
1 moles of each gas at r.tp occupies 24 dm3.
Moles in 36 dm3 of carbon dioxide will be 36/24 = 1.5 moles.
10,000 dm3 of hydrogen will occupy
10,000/24 = 416.67 moles
1 moles of each gas at r.tp occupies 24 dm3.
36 g of helium will be Moles of Helium = 36/4 = 9 moles
Volume of Helium = 9*24 = 216 dm^3.
Moles of NO2= 13.8/46 = 0.3 moles
Volume of NO2 = 0.3 * 24 = 7.2 dm^3.
24 000 cm3 of each gas = 1 moles
48 cm3 of each gas = 0.002 moles
Mass of O2 = Moles *Mr = 0.002*32 g = 0.064 g.
Moles of Methane = 150/24 = 6.25 moles
1 moles of methane requires 2 moles of oxygen. So 6.25 moles of methane will require 12.5 moles of oxygen which is equal to 12.5*32 g of Oxygen = 400 g
0.80 of Calcium = 0.8/40 = 0.02 moles
1 moles of calcium forms one mole of hydrogen. 0.02 moles of calcium will produce 0.02 moles of hydrogen = 0.02*24 dm3 = 0.48 dm3.
1 a. Mass of H2S= 2(Mass of H)+ Mass of S
=2+32
34 g
= 32+32
64 g
= 2X12 + 4X1
=24+4
=28 g
= 23 +16 +1
= 40 g
= 2X23 + 12 + 3X16
=46 + 12 + 48
=106 g
= 27*2 + 3*32 + 12*16
=54 + 96 + 192
=342 g
=23 + 27+ 4*16 + 4*1
=118 g
2 a Moles = MAss /Mr
27 g of silver will have 27/108 = 0.25 moles
According to the balanced chemical equations, 1 moles of calcium carbonate will give 1 moles of Calcium oxide
= 100 g of CaCO3 or 100 tonnes of CaCO3 will give 56 g or 56 tonnes of CaO
= 1500 tonnes of calcium carbonate will give
= (56/100)* = 840 tonnes of Calcium oxide
But the yield is only 804 tonnes
So percentage yield = (804/840)*100
= 95.7%
4.a. Answer.
C2H4(g) + H2O(g) ↔ C2H5OH(g)
So 28 g of ethene gives 46 g of ethanol
1 g of ethene gives 46/28 of ethanol
So 14 g of ethene gives = (46/28)*14
= 23 g of ethanol
But the yield of ethanol is 17.25 g
So percentage yield = 75%
d.The yield is less than 100% due to the following reasons
Balanced chemical equation of potassium hydroxide and hydrochloric Acid.
KOH(aq) + HCl(aq) → KCl(aq) + H2O(l)
= 20*0.50/1000
0.01 moles
(ii) 0.01 moles of hydrochloric acid will react with 0.01 moles of potassium hydroxide
Volume of potassium hydroxide = 12.5 cm3 = 0.0125 dm3
Concentration of potassium hydroxide = 0.01/0.0125
= 0.8 mol/dm3
0.8 mol of KOH = 0.8 * 56 = 44.8 g/dm3
7.Answer. Equation for thermal decomposition of magnesium carbonate :-
MgCO3 (s) = MgO (s) + CO2 (g)
1.Answer.
1.1 g of carbon dioxide = 1.1/44 g = 0.025 moles
1 mole of each gas occupies 24 dm3 of volume at room temperature and pressure
So 0.025 moles of gas will occupy = 0.6 dm3
According to the balanced chemical equation,
If 1 mole of carbon dioxide is formed than 1 moles of magnesium carbonate decomposed.
If 0.025 moles of carbon dioxide is formed than 0.025 moles of magnesium carbonate decomposed
0.025 moles = 0.025*84
= 2.1 g of magnesium carbonate decomposed
MgCO3 (s) + 2HCl (aq) → MgCl2 (aq) + H2O (l) + CO2 (g)
Since the reaction has the gaseous products so the best way to tell that the reaction is completed is to see the bubbled of the gas. When the bubbles of the gas stops the reaction is completed.
Moles of hydrochloric Acid = Concentration * Volume
= 0.2*25/1000
= 0.005 mole
Moles of magnesium carbonate = 8.4/84
=0.1 mole
0.1 mol of magnesium carbonate will require 0.2 moles of hydrochloric acid but the moles of acid is 0.05 moles so acid is limiting and magnesium chloride is in excess.
iii. Answer.
Since acid is limiting it will be completely used up in the reaction.
According to the balanced chemical equation,
The acid and carbon dioxide ratio is 1:2
For 0.005 moles of acid carbon dioxide produced will be 0.0025 moles
And each moles of a gas at r.t.p occupes 24 dm3 of gas
So 0.0025 moles of gas will occupy = 0.0025*24
= 0.06 dm3 (or 60 cm3)
8.a. Answer.
Ar of Br = (50 ×79) + (50×81) = 80
100
80Br
Arof Fe = (5.8 × 54) + (91.8 × 56) + (2.1 × 57) + (0.3 × 58)
100
= 5591.1
100
= 55.9
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01.1.Balanced chemical equation of the reaction between magnesium and oxygen is :-
2Mg(s) + O2(g) → 2MgO(s)
01.2 Answer.
At the start crucible has only magnesium. During the reaction, oxygen from the air reacts with magnesium and magnesium oxide is formed which increased the mass of the crucible.
01.3. Answer.
To make sure that the reaction is complete, the student can Reweigh the crucible. If the two masses are the same, the reaction is complete.
01.4. Answer.
Since the reaction involves gaseous products, the mass will decrease because carbon dioxide is produced in this reaction which will escape to the surroundings.
02.1. Answer.
1.76 g of carbon dioxide = 0.04 moles of carbon dioxide
0.90 g of water = 0.05 moles of water
So balancing ratio will be 4CO2 and 5H2O
02.2 Answer.
In the balancing number carbon atoms are 4 and hydrogen atoms are 10 in 4CO2 and 5H2O so the formula of the hydrocarbon will be :-
C4H10
02.3. Answer.
0.22 g of carbon dioxide = 0.22/44 = 0.005 moles
Volume = 400 cm3 = 0.4 dm3
Concentration = 0.005/0.4
0.0125 mol / dm3
03.1. Answer.
Ammonia has a lower boiling point due to weak intermolecular forces between the molecule of ammonia.
03.2. Answer.
Moles of nitrogen = 84 tonnes = 84000000/28
=3,000,000 moles of nitrogen
Moles of hydrogen = 30 tonnes = 30000000/2
=15,000,000
According to the balanced chemical equation the ratio of Nitrogen to hydrogen is 1:3. So for 3,000,000 moles of nitrogen we require 9,000,000 moles of hydrogen and we have 15,000,000 moles so nitrogen is limiting and hydrogen is in excess.
03.3. Answer.
Ratio of nitrogen to ammonia is 1:2
So for 3,000,000 moles of nitrogen we will get 6,000,000 moles of ammonia
=6,000,000*17
= 102 tonnes
03.4. Answer.
If 18 tonnes of ammonia is formed then percentage yield is :
(18/102)*100
17.6%.
03.5. Answer.
Since only one product is formed which is the desired product so the percentage atom economy will be 100% as all the reactants are used up to make only one single desired product.
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This page contains the detailed and easy notes for AQA GCSE Chemistry Quantitative Chemistry for revision and understanding Quantitative Chemistry.
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It is the sum of relative atomic mass of all the atoms present in a compound.
The ratio of the average mass of one atom compared to 1/12th of the mass of C-12
Eg – CO2 = Mass of C + 2(mass of O)
= 12+ (2× 16)
= 44g
CaCO3 = Mass of Ca + Mass of C + 3(mass of O)
= 40+12+ (3× 16)
= 100g
Ca(PO4)3 = Mass of C + 3 × mass of P+ 12(mass of O)
= 310g
MOLES – Amount of substance.
Q1 Calculate the moles of following
Q2 Calculate the mass of :-
Q3 Calculate the concentration of the following
C = 0.5/0.05 moldm-3 = 10moldm-3
V= 50/1000 = 0.05dm3
1 mole = 6.02 x 1023 atoms
Q1 Calculate the number of molecules in the following :
Mr of H2SO4 = 98g
=98/49 =0.5 moles
= 0.5 x 6.02 x 1023 atoms
= 3.01 x 1023 atoms
Mr of O2 = 32g
=8/32 =0.25 moles
= 0.25 x 6.02 x 1023 atoms
= 1.50 x 1023 atoms
Mr of N2 =48/24 = 2 moles
= 2 x 6.02 x 1023 atoms
= 1.20 x 1024 atoms
Moles = C x V = 0.1 x 50/1000 = 5 x 10-3 moles
=5 x 10-3 x 6.02 x 1023 atoms
= 3.01 x 1021 atoms
C + O2 CO2
One mole of carbon is reacting with one mole of oxygen to form one mole of carbon dioxide.
2Al + 3O2 2Al2O3
2 moles aluminium reacts with 3 moles of oxygen to form 2 moles of aluminium oxide.
Mg + 2HCl MgCl2 + H2
One mole of magnesium is reacting with 2 moles of hydrochloric acid to form one moles of magnesium chloride and one mole of hydrogen gas.
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Calculate the mass of Magnesium oxide produced from 6 g of Magnesium when burned complete y in air ?
STEP 1: Write the balanced chemical equation.
2Mg + O2 2MgO
STEP2: Write known to the left and unknown to the right
Mg = MgO
STEP3: Write the moles relationship from the balanced chemical equation
2moles = 2 moles
STEP4: Convert moles into mass
48g = 80g
STEP5: Do the Maths.
48/48 = 1g 80/48 = 1.66g
1g× 6 = 6g 1.66g × 6 = 10g
Calculate the mass of alumium needs to produce 306 g of Aluminium Oxide ?
STEP 1: Write the balanced chemical equation.
4Al + 3O2 2Al2O3
STEP2: Write known to the left and unknown to the right
2Al2O3 Al
STEP3: Write the moles relationship from the balanced chemical equation
2moles = 4 moles
STEP4: Convert moles into mass
204g = 108
STEP5: Do the Maths.
306g 108/204 x 306 = 162g
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To work out the limiting reagent work out moles of all the reagents and then work from the balanced chemical equation which reagent is in excess and which is in limiting
The reactant that get all used up completely is the limiting reagent. The other reagent which is present in greater quantity than required is in excess.
13.5 gm Aluminium reacts which 32 g of Oxygen
4Al + 3O2 2Al2O3
Moles of O2 = 32/32 = 1 moles
1 moles of alumnum = ¾ O2
0.5 mol of aluminium = ¾ x 0.5 = 0.375
So 0.375 moles oxygen is required hence oxygen is in excess and alumunium is limiting
4 moles = 2 moles
0.5 – 2/4 x 0.5
=0.25 x 102
=25.5g
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% yield = observed mass/expected mass x 100
= Actual yield/Theoretical yield x 100
When 28 g of nitrogen combined with hydrogen 30 g of ammonia is made ? Calculate the percentage yield ?
N2 + 3H2 2NH3
N2 = NH3
1mole = 2moles of ammonia
28g = 32g of ammonia
Expected = 32g
Observed = 30g
% yield = 30/32 x 100 = 93.75%
When 80 g of iron oxide reacts with carbon, 20 g of iron is produced. Calculate the % yield ?
2Fe2O3 + 3C Fe + 3CO2
Fe2O3 = Fe
2 moles = 4 moles
320g = 224 g
1g =224/320
80g = 224/320 x 80 = 56g
20/56 x 100 = 35.71%
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The percentage yield can never by greater than 100%. It is very difficult to get 100% percentage yield but scientist always look for that route that gives maximum percentage yield.
Atom economy = Mr of desired product/Total Mr of all the Products x 100
Calcium Oxide is produced using the following reaction
CaCO3 CaO + CO2
Calculate the atom economy
Desired Product = CaO =56g
Mass of reactants = CaCO3 = 100g
Atom Economy = 56/100 x 100 = 56%
Iron oxide is reduced by carbon to form iron and carbon monoxide
Fe203 + 3C 2Fe +3CO
Calculate the atom economy
Desired Product = 2Fe =56 x 2 = 112g
Mass of reactants = Mass of Fe2CO3 + 3(Mass of C) = 196g
% Yield = 112/196 x 100 = 57%
It is the technique used to determine the exact volume of acid and base to carry out a neutralization reaction.
10 cm3 of 0.5 mol dm3 of sulphuric acid is titrated with sodium hydroxide. The results are given in the table.
2NaOH + H2SO4 Na2SO4 + H20
Calculate the concentration of sodium hydroxide required to completely neutralize the acid ?
Steps
2NaOH + H2SO4 2NaOH + H20
Moles = 5 x 10-3 x 2 = 10-2 moles
V = 10cm3
= 0.01dm3
C = 0.5 mol dm-3
Moles = C x V
0.01 x 0.5=5 x 10-3 moles
Mean Titre = 25.24+25.34+ 25.29/3
= 25.29cm3
Q1 In a Titration 50 cm3 of 0.1 mol dm3 of potasisum hydroxide is neutralized by 20 cm3 of sulphuric Acid.
Calculate the concentration of sulphuric acid.
2KOH + H2SO4 K2SO4 + 2H2O
V = 0.05dm3 V = 0.02 dm3
C = 0.1 mol dm-3
= 0.005 moles
m = 0.0025 mole
C = 0.125 mol dm-3
Key Terms
Concentration = Mass of Solute(g)/Volume of Solution(dm3)
Titration — It is the technique used to determine the exact volume of acids and alkali required to carry out complete neutralization.
Neutralization Reaction Reaction in which acid and base react to form salt and water.
Acids—Substance that has pH less than T
Alkali — Soluble bases that has pH greater than 7
Pipette – It is a glass tube with a bulge in the middle that is used to take out the exact volume of known concentration solutiom
Burette— It is a long tube with the.tap at the bottom that is used to measure the titre
Concordant – Values which are in the range of difference 0.1 to 0.2 cm3
Q1 Calculate the number of moles in the following
Mr = CaCO3 = 100g = 10/100 = 0.1 moles
Mr = H2SO4 =98/98 = 1 mole
C6H1206
Mr = 180
18/180 = 0.1 moles
Firstly convert 90cm3 in to dm3
90/1000 = 0.09 dm3
0.09/24 = 0.00375 moles
0.2 x 10/1000 = 0.002 moles
Q2 What is the mass of magnesium required to form 160 g of magnesium oxide ?
MgO = Mg
Mg + O2 2MgO
MgO = Mg
Moles 1 1
Mass 4Og 24g
160g 96g
= 96g
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Q3 Hydrogen react with chlorine to form hydrogen chloride gas. When 71 g of chlorine reacts 70 g of hydrogen chloride is obtained. Calculate the percentage yield.
H2 + Cl2 2HCl
Cl2 HCl
Cl2 = HCl
Moles 1 2
Mass 71g 73g
160g 96g
% yield = 70/73 x 100 = 95.8%
Q4 Calculate the atom economy of both of these reactions:-
N2 + 3H2 2NH3
34/28+6 x 100 = 100%
CaCO3 CaO + CO2
40+16/100 x100 = 56%
Q5 50 cm3 of 0.2 mol dm3 of HCI reacts with 10 cm3 of NaOH. Determine the concentration of NaOH ?
NaOH + HCl NaCl + H2O
V = 50/1000 = 0.05dm3
C = 0.2
Moles = 0.1
NaOH V = 10/1000 = 0.01dm3
Moles = 0.1 moles
C = 10 moldm-3
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Disclaimer:
I have tried my level best to cover the maximum of your specification. But this is not the alternative to the textbook. You should cover the specification or the textbook thoroughly. This is the quick revision to help you cover the gist of everything. In case you spot any errors then do let us know and we will rectify it.
References:
BBC Bitesize
Wikipedia
Wikimedia Commons
Image Source:
Wikipedia
Wikimedia
Commons
Flickr
Pixabay
Make sure you have watched the above videos and are familiar with the key definations before trying these questions. It is also good to time yourself while doing these questions so that you can work on the speed as well.