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Calculations in Chemistry

Calculations in Chemistry. IGCSE Chemistry. Mole concept. Relative atomic mass and Relative molecular mass. Why atomic mass or molecular mass has no unit? Atoms and molecules are too small to weigh. Relative atomic mass and Relative molecular mass are comparative values.

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Calculations in Chemistry

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  1. Calculations in Chemistry IGCSE Chemistry

  2. Mole concept

  3. Relative atomic mass and Relative molecular mass • Why atomic mass or molecular mass has no unit? • Atoms and molecules are too small to weigh. • Relative atomic mass and Relative molecular mass are comparative values. • This shows how many times an atom or a molecule heavier than th of a Carbon atom.

  4. The mole…. • Atomic mass or molecular mass with g after the number is called a mole. • Example: • Atomic mass of Oxygen is 16. • 16g of oxygen(O) is 1 mole of oxygen atoms. • Molecular mass of Oxygen O2 is 32. • 32g of Oxygen (O2) is 1 mole of oxygen molecules. • Molecular mass of water is 18. • 18g of water is called 1 mole of water.

  5. Number of moles = • Mass (g) =Number of moles X Molar mass

  6. Questions • 1. How many moles are there in 4g of Sodium hydroxide? • Number of moles = • = 0.10moles • 2. Find the number of moles present in 1.28g of oxygen molecules. • Number of moles = • = 0.04 moles

  7. 3. What is the mass of 0.01 moles of sodium hydroxide? • Mass = 0.01 X 40g • = 0.40g • 4. How many grams 1.5 moles of sulphuric acid weighs? • Mass = 1.5 X 98g • = 147g

  8. Try the following questions: • 1. What is the mass of 0.02 moles of carbon dioxide gas? • 0.88g • 2. How many moles are present in 1g of calcium carbonate,CaCO3? • 0.01moles • 3. Find the number of moles present in 3g of potassium hydroxide, KOH. • 0.054moles • 4. Calculate the mass of 100 moles of copper oxide, CuO • 8000g • 5. 5. 2g of sodium hydroxide,NaOH or 3g of potassium hydroxide, KOH contains more number of moles? Show your working clearly. • NaOH = 0.13 moles KOH = 0.054 moles. So NaOH

  9. Avogadro constant • One mole of any substance contains 6.02 X 10 atoms or molecules. • 6.02 X 10 is a constant and is called Avogadro constant or Avogadro Number. • In other words, Avogadro Number is the number of atoms or number of molecules present in ONE mole of a substance. • Avogadro constant is used to find number of particles or number of moles.

  10. Number of moles = Number of molecules Avogadro constant Number of molecules = Number of moles X Avogadro constant

  11. Calculations • Remember always change mass or number of molecules into moles.

  12. Examples: • How many molecules of Carbon dioxide are there in 0.44g of the gas? • Answer: • Number of moles = 0.44g/44g • = 0.01moles • Number of molecules = 0.01 X 6.02 X 10 • = 6.02 X 10

  13. Calculate how many oxygen atoms are present in 1.96g of sulphuric acid? • Answer: • Moles of sulphuric acid = 1.96g/98g • = 0.02 moles • Number of molecules of sulphuric acid • = 0.02 X 6.02 X 10 • =1.20 X 10 • Each sulphuric acid contains 4 oxygen atoms. • So number of oxygen atoms 0.02 moles of H2SO4 is • = 4 X 1.20 X 10 = 4.80 X 10

  14. Mole ratio • When chemical reactions take place, the reactants and products are in a simple ratio (mole ratio) • For example, Zinc and hydrochloric acid react according to the following reaction: • Zinc + Hydrochloric acid  Zinc chloride + Hydrogen gas • Zn + 2HCl  ZnCl2 + H2 • It means, zinc, Hydrochloric acid, Zinc chloride and Hydrogen moles are in the ratio 1:2:1:1 • One mole of Zinc reacts with 2 moles of Hydrochloric acid to produce, One mole of Zinc chloride and 1 mole of Hydrogen gas. • The reactants and products are always in a ratio by moles and not by mass.

  15. Find how many grams of copper oxide can be made from 3.2g of copper. • Answer: • 2Cu + O2 2CuO • The balanced equation shows that two moles of copper reacts with 1 mole of oxygen to form 2 moles of copper(II) oxide. • So change 3.2g to moles • Moles of copper = 3.2g/64g =0.05moles • Copper :Copper oxide is 1:1 ratio. • So moles of copper(II) oxide = 0.05moles • Mass (g) = 0.05 X 80g • = 4g

  16. When Posphorus burns in oxygen, Phosporus(V)oxide is produced. In an experiment, 8g of phsphorus(V)oxide is produced. Find the mass of Phosphorus reacted with oxygen. • Answer: • Equation: 4P + 5O2 2P2O5 • Mole ratio is 4:5:2 • Moles of phosphorus(V)oxide= 8g/142g • = 0.056moles • Mole ratio Phosphorus oxide:phosphorus • 2:4 • Moles of phosphorus burnt = 0.056 X 2 • = 0.112 • Mass of phosphorus = 0.112 X 31g • = 3.472g

  17. Limiting reagent and excess • When there is a chemical reaction, the reactant which is used up completely is the limiting reagent. • The chemical which is left some unreacted at the end is called excess. • When the limiting reagent is finished, the reaction stops. • All mole ratios should be done using the limiting reagent.

  18. Example 1 • 3Mg + Al2O3 3MgO + 2Al • If 2 moles of Magnesium is used with 1 moles of aluminium oxide, which is the limiting agent? Which chemical is in excess? How many moles in excess? • Mole ratio of Mg and Al2O3 is 3:1 • It means for 2 moles of Mg, 0.67 moles of Al2O3 is enough. But we have 1 mole of Al2O3. So Al2O3 is excess and Mg is the limiting reagent. • Moles of Al2O3 (excess) left after reaction is 1.00-0.67 = 0.33moles.

  19. If mass is given, change all masses into moles first. Example 2 2Cu + O2 2CuO In a reaction, 1.92g of copper is oxidised with 0.64g of oxygen. • Find which chemical is the limiting agent • How many g of the other chemical (excess) remaining at the end? • What mass of Copper (II)oxide produced? Answer Change mass in to moles Number of moles of copper = 1.92g/64g = 0.03 moles Number of moles of oxygen = 0.64g/32g = 0.02 moles Cu : O2 mole ratio is 2:1 It means, for 0.03 moles of copper only 0.015 moles of oxygen is enough. But we have 0.02 moles. Copper is the limiting reagent and oxygen is excess.

  20. Excess oxygen = 0.020 – 0.015 = 0.005 moles • Mass of excess oxygen = 0.005 X 32g = 0.16g • Moles of copper oxide (make mole ratio with limiting reagent) 2:2 That is 0.03moles • Mass of copper oxide = 0.03 X 80g = 2.40g • Now try out the following: • 2Na + S  Na2S • If 0.46g of sodium and 0.30g of sulphur reacted, • (a) find the limiting reagent and excess reagent. • Sulphur • (b) find the mass of excess reagent left. • 0.0012 moles Na which is 0.028g • (c) find what mass of sodium sulfide formed. • Moles of Na2S is 0.0094 means 0.73g

  21. Molar volume • Gases have volume. Volume of a gas depends on two factors : • Temperature and Pressure • Volume decreases when pressure is increased. • Volume increases when the temperature is increased.

  22. Molar Volume • One mole of any gas at Room Temperature and Pressure has a volume of 24dm^3 (24000 cm^3) • Room temperature is considered as 20 degree C and atmospheric pressure is 1 atmosphere (760 mm of mercury) • It means 1 mole of oxygen gas is 24000 cm3 • 3 moles of oxygen gas is 3X24000 cm3 at RTP. • 24dm3(1mole) is called molar volume of gases

  23. Moles X molar volume = volume of a gas • Moles = volume of a gas/molar volume Remember to convert volume or mass to moles first. Example 1 What is the volume of 1.1g of carbon dioxide gas at RTP? First convert mass in to moles Moles of CO2 = 1.1g/44g = 0.025moles Volume = moles X molar volume = 0.025 X 24000 cm3 = 600cm3

  24. Example 2 • Find out the mass of 8000 cm3 of sulphur dioxide gas, SO2 at RTP. • First change the volume into moles. • Moles = Volume/molar volume • 8000 cm3/24000 cm3 • = 0.33 moles • Now change the moles in to mass • Mass = moles X molar mass • 0.33 X 64g = 21.12g

  25. % Yield • We can calculate and predict how much of a product is formed during a reaction using the mole ratio. • How're in a real experiment, the predicted (calculated)amount may be different that what we get in actual experiment. • This can be due to: • 1. Some reactants may be left unreacted. • 2. Change of substances in to other forms such as gases • 3.Some reactants may be lost to surrounding by overflowing, splashing etc • 4. Experimental errors and low quality measuring devices.

  26. %yield = Actual yield X 100 Theoretical yield • Example 1: • In an experiment, 20g of Calcium carbonate when heated gave 10g of calcium oxide is formed. Find the percentage yield of calcium oxide. • CaCO3  CaO + CO2 • %yield = Actual yield X 100 Theoretical yield • To work out the above problem, we need the actual yield and theoretical yield(Calculated yield). • Actual yield is given as 10g of Calcium oxide. • Theoretical yield should be calculated by using mole ratio method.

  27. CaCO3  CaO + CO2 • We can find the mass of calcium oxide formed from the mass of calcium carbonate given. • But first convert mass in to moles. • Moles of CaCO3 = 20g/100g • = 0.20moles • Mole ratio CaCO3:CaO is 1:1 • So, moles of CaO is also 0.20 • Mass of CaO = 0.20 X 56g • = 11.20g • Now insert the values • % yield = Actual yield X 100% Theoretical yield That is 10g X 100% = 89.28% 11.20g

  28. Example 2 • 2Na + 2H2O  2NaOH + H2 • 115g of sodium was reacted with water which produced 4.2g of hydrogen gas. What is the % yield of hydrogen gas? Answer • Moles of sodium = 5.00 moles • Moles of H2 = 2.50 moles (2:1) • Mass of H2 = 5.00g • % yield = 84%

  29. End of part 1

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