0.9 Quantitative aspects of chemical change (Page 4/10)

<< Chapter < Page

Chemistry grade 10 [caps]

Page 4 / 10

Chapter >> Page >

Calculate the number of atoms there are in a sample of aluminium that weighs $80, 94 g$ .

Calculate the number of moles of aluminium in the sample
$n = \frac{m}{M} = \frac{80, 94}{26, 98} = 3 moles$
Use Avogadro's number to calculate the number of atoms in the sample
Number of atoms in 3 mol aluminium $= 3 \times 6, 022 \times 10^{23}$

There are $18, 069 \times 10^{23}$ aluminium atoms in a sample of $80, 94 g$ .

Some simple calculations

Calculate the number of moles in each of the following samples:
1. $5, 6 g$ of calcium
2. $0, 02 g$ of manganese
3. $40 g$ of aluminium
A lead sinker has a mass of 5 g .
1. Calculate the number of moles of lead the sinker contains.
2. How many lead atoms are in the sinker?
Calculate the mass of each of the following samples:
1. $2,5 mol$ magnesium
2. $12 mol$ lithium
3. $4, 5 \times 10^{25}$ atoms of silicon

Molecules and compounds

So far, we have only discussed moles, mass and molar mass in relation to elements . But what happens if we are dealing with a molecule or some other chemical compound? Do the same concepts and rules apply? The answer is 'yes'. However, you need to remember that all your calculations will apply to the whole molecule . So, when you calculate the molar mass of a molecule, you will need to add the molar mass of each atom in that compound. Also, the number of moles will also apply to the whole molecule. For example, if you have one mole of nitric acid ( $HNO_{3}$ ), it means you have $6, 022 \times 10^{23}$ molecules of nitric acid in the sample. This also means that there are $6, 022 \times 10^{23}$ atoms of hydrogen, $6, 022 \times 10^{23}$ atoms of nitrogen and ( $3 \times 6, 022 \times 10^{23}$ ) atoms of oxygen in the sample.

In a balanced chemical equation, the number that is written in front of the element or compound, shows the mole ratio in which the reactants combine to form a product. If there are no numbers in front of the element symbol, this means the number is '1'.

e.g. $N_{2} + 3 H_{2} \to 2 N H_{3}$

In this reaction, 1 mole of nitrogen reacts with 3 moles of hydrogen to produce 2 moles of ammonia.

Calculate the molar mass of $H_{2} SO_{4}$ .

Use the periodic table to find the molar mass for each element in the molecule
Hydrogen $= 1,008 g \cdot mol^{- 1}$ ; Sulphur = $= 32,07 g \cdot mol^{- 1}$ ; Oxygen $= 16 g \cdot mol^{- 1}$
Add the molar masses of each atom in the molecule
$M_{(H_{2} S O_{4})} = (2 \times 1, 008) + (32, 07) + (4 \times 16) = 98, 09 g \cdot {mol}^{- 1}$

Calculate the number of moles there are in $1 kg$ of $MgCl_{2}$ .

Write the equation for calculating the number of moles in the sample
$n = \frac{m}{M}$
Calculate the values that you will need, to substitute into the equation
1. Convert mass into grams
  $m = 1 kg \times 1 000 = 1 000 g$
2. Calculate the molar mass of $MgCl_{2}$ .
  $M_{({MgCl}_{2})} = 24, 31 + (2 \times 35, 45) = 95, 21 g \cdot {mol}^{- 1}$
Substitute values into the equation
$n = \frac{1000}{95, 21} = 10, 5 mol$

There are $10, 5 moles$ of magnesium chloride in a $1 kg$ sample.

Barium chloride and sulphuric acid react according to the following equation to produce barium sulphate and hydrochloric acid.

${BaCl}_{2} + H_{2} {SO}_{4} \to {BaSO}_{4} + 2 HCl$

If you have $2 g$ of $BaCl_{2}$ ...

What quantity (in g) of $H_{2} SO_{4}$ will you need for the reaction so that all the barium chloride is used up?
What mass of $HCl$ is produced during the reaction?

Calculate the number of moles of $BaCl_{2}$ that react.
$n = \frac{m}{M} = \frac{2}{208, 24} = 0, 0096 mol$
Determine how many moles of $H_{2} SO_{4}$ are needed for the reaction
According to the balanced equation, 1 mole of $BaCl_{2}$ will react with 1 mole of $H_{2} SO_{4}$ . Therefore, if $0, 0096 mol$ of $BaCl_{2}$ react, then there must be the same number of moles of $H_{2} SO_{4}$ that react because their mole ratio is 1:1.
Calculate the mass of $H_{2} SO_{4}$ that is needed.
$m = n \times M = 0, 0096 \times 98, 086 = 0, 94 g$

(answer to 1)
Determine the number of moles of $HCl$ produced.
According to the balanced equation, 2 moles of $HCl$ are produced for every 1 mole of the two reactants. Therefore the number of moles of $HCl$ produced is ( $2 \times 0, 0096$ ), which equals $0, 0096 moles$ .
Calculate the mass of $HCl$ .
$m = n \times M = 0, 0192 \times 35, 73 = 0, 69 g$

(answer to 2)

<< Chapter < Page Page > Chapter >>

Read also:

Get Jobilize Job Search Mobile App in your pocket Now!

100% Free Mobile Applications
Receive real-time job alerts and never miss the right job again

Source: OpenStax, Chemistry grade 10 [caps]. OpenStax CNX. Jun 13, 2011 Download for free at http://cnx.org/content/col11303/1.4

Google Play and the Google Play logo are trademarks of Google Inc.

Notification Switch

Would you like to follow the 'Chemistry grade 10 [caps]' conversation and receive update notifications?

Ask

	Spanish Lesson 4 By Anonymous User Start Quiz
	3 Arts Society: Theater 3 By Jonathan Long Start Quiz
	Business fundamentals By OpenStax Read Online Course
	2011 Dynamics CRM By Danielrosenberger Start Quiz
©flickr: brett	Celine Dion Quiz By JavaChamp Team Start Quiz
	3 CDL Quiz - General Knowledge Part 1 By Jazzycazz Jackson Start Quiz
	20 AP 20 Blood Vessels Circulation Essay By OpenStax Start Flashcards
	5 Biology 05 Plasma Membranes Structure Function By OpenStax Start Quiz
	10 AP Key Terms 10 Muscle Tissue Key Terms By OpenStax Start Key Terms
	14 Sociology 14 Marriage and Family MCQ By OpenStax Start Quiz