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Monday_16: Lesson 12 Ionic compounds

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CHEMISTRY 10
12 - Formulae of Ionic Compounds
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ChemistrySecondary Education

This lesson contains 25 slides, with interactive quizzes and text slides.

time-iconLesson duration is: 50 min

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Pres_Template
CHEMISTRY 10
12 - Formulae of Ionic Compounds

Slide 1 - Slide

  • I can deduce the formula of an ionic compound from the relative numbers of the ions present in a model or a diagrammatic representation or from the charges on the ions.

Slide 2 - Slide

Slide 3 - Slide

Use the compounds’ properties to decide whether they are ionic or covalent.

Slide 4 - Slide

ionic
covalent
covalent
covalent
ionic
covalent
ethanol
carbon tetrachloride
glucose
table salt
water
potassium permanganate

Slide 5 - Drag question

How many atoms of different elements are there in the formulae of the following compounds?

Slide 6 - Slide


How many atoms of different elements are there in the formulae of the following compounds?
Nitric acid, HNO3

Slide 7 - Open question


How many atoms of different elements are there in the formulae of the following compounds?
Copper nitrate, Cu(NO3)2

Slide 8 - Open question


How many atoms of different elements are there in the formulae of the following compounds?
Ammonium sulfate, (NH4)2SO4

Slide 9 - Open question


How many atoms of different elements are there in the formulae of the following compounds?
Potassium manganate (VII), KMnO4

Slide 10 - Open question

Slide 11 - Slide

The dot-and-cross diagram helps keep track of electron transfers in bonding and ensures that the octet rule is obeyed.

Slide 12 - Slide

The dot-and-cross diagram helps keep track of electron transfers in bonding and ensures that the octet rule is obeyed.
ratio of the ions in a compound

Slide 13 - Slide

Chemists use a special kind of shorthand called a chemical formula to communicate this ratio. 

A chemical formula provides the:
  • elements that make up the compound and
  • number of atoms of each element that is present in a compound.

Slide 14 - Slide

  • Complete the figure below by adding the valencies (combining power) of the atoms shown.
  • Which atoms in the figure below lose electrons when they form ions?
  • Which atoms in the figure below gain electrons when they form ions?
  • Name two atoms in the figure below that share electrons when they form compounds.

Slide 15 - Slide

Valency (Combining Power)

Slide 16 - Slide

Writing the chemical formulae of ionic compounds
  1.  Write the unbalanced formula. Remember that the metal is first and the non-metal is second.
  2.  Place the valence of each element on top of the appropriate symbol.
  3.  Using arrows, bring the numbers (without the signs) down to the subscript positions by crossing over.
  4.  Check the subscripts. Any subscript of “1” can be removed.

Slide 17 - Slide

Valency (Combining Power)

Slide 18 - Slide

Write the chemical formulae of the following.
Write a balanced formula for a compound that contains sulfur and each of the following elements. Use a valence of −2 for sulfur.

  • (a) sodium 
  • (b) calcium 
  • (c) barium
  • (d) aluminium 
  • (e) rubidium 
  • (f) hydrogen

Slide 19 - Slide

Write the chemical formulae of the following.
Write a balanced formula for a compound that contains calcium and each of the following elements.

  • (a) oxygen 
  • (b) sulfur 
  • (c) chlorine
  • (d) bromine
  • (e) phosphorus
  • (f)  fluorine

Slide 20 - Slide

Valency (Combining Power)

Slide 21 - Slide

Writing the chemical formulae of ionic compounds
  1.  Write the unbalanced formula. Place brackets around any polyatomic ions that are present.
  2.  Write the valence of each ion above it. 
  3.  Cross over, and write the subscripts.
  4.  Tidy up the formula. Remember that you omit the subscript if only one particle exists in the ionic compound or molecule. Here, the brackets are no longer needed so that they can be removed.
lithium +
  • nitrate
  • hydroxide
  • carbonate
  • sulfate
  • phosphate
magnesium +
  • nitrate
  • hydroxide
  • carbonate
  • sulfate
  • phosphate

Slide 22 - Slide

Write the chemical formulae of the following.
Write a chemical formula for a compound that contains sodium and each of the following polyatomic ions:

(a) nitrate 
(b) sulfate 
(c) hydroxide
(d) phosphate 
(e) carbonate

Slide 23 - Slide

A. Write the valences for the elements in each compound. If the compound is ionic, indicate the charge associated with each valence.

  • (1) AgC
  • (2) TiO2 
  • (3) CaO
  • (4) Mn3P
  • (5) FeS
B. Write the chemical formula of each compound.

  • (6) tin (II) fluoride
  • (7) barium sulfate
  • (8) hydrogen chloride
  • (9) caesium bromide
  • (10) ammonium nitrate

Slide 24 - Slide

Slide 25 - Slide

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