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Wednesday_18: Lesson 14 Covalent compounds

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CHEMISTRY 10
12 - Formulae of Ionic Compounds
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Slide 1: Tekstslide
ChemistrySecondary Education

In deze les zitten 44 slides, met interactieve quizzen en tekstslides.

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Pres_Template
CHEMISTRY 10
12 - Formulae of Ionic Compounds

Slide 1 - Tekstslide

  • 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 - Tekstslide

Slide 3 - Tekstslide

Write the chemical formulae of the following ionic compounds.

Slide 4 - Tekstslide

Valency (Combining Power)

Slide 5 - Tekstslide

Valency (Combining Power)

Slide 6 - Tekstslide

Ion 1
Ion 2
Formula
Ratio
zinc (II)
chloride
magnesium
carbonate
ammonium
sulfate

Slide 7 - Tekstslide

Writing Chemical Formulae of Binary ionic compounds
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 8 - Tekstslide

  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
Writing Chemical Formulae involving Compound ions

Slide 9 - Tekstslide

  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
Writing Chemical Formulae involving Compound ions

Slide 10 - Tekstslide

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
Writing Chemical Formulae involving Compound ions

Slide 11 - Tekstslide

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

  • SAMPLE: (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
+1
-1

Slide 12 - Tekstslide

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CHEMISTRY 10
14 - Formulae of Covalent Compounds

Slide 13 - Tekstslide

  • I can deduce the formula of a simple compound from the relative numbers of atoms present in a model or a diagrammatic representation.
  • *I can name chemical compounds based on IUPAC rules.

Slide 14 - Tekstslide

Name the following covalent compounds.

Slide 15 - Tekstslide


How many atoms of different elements are there in the formulae of the following compounds?
CO2 (g)

Slide 16 - Open vraag


How many atoms of different elements are there in the formulae of the following compounds?
NH3 (g)

Slide 17 - Open vraag


How many atoms of different elements are there in the formulae of the following compounds?
C6H12O6 (s)

Slide 18 - Open vraag


How many atoms of different elements are there in the formulae of the following compounds?
HCl (g)

Slide 19 - Open vraag


How many atoms of different elements are there in the formulae of the following compounds?
NO2

Slide 20 - Open vraag

Slide 21 - Tekstslide

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

Slide 22 - Tekstslide

Lewis Structure

Slide 23 - Tekstslide

Structural diagram

Slide 24 - Tekstslide

Ball-and-Stick Model

Slide 25 - Tekstslide

Space-filling model

Slide 26 - Tekstslide

Slide 27 - Tekstslide

Name the following compounds.

Slide 28 - Tekstslide


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

Slide 29 - Open vraag


How many atoms of different elements are there in the formulae of the following compounds?
BeCl2

Slide 30 - Open vraag


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

Slide 31 - Open vraag


How many atoms of different elements are there in the formulae of the following compounds?
Al2O3

Slide 32 - Open vraag


How many atoms of different elements are there in the formulae of the following compounds?
ZnCl2

Slide 33 - Open vraag


How many atoms of different elements are there in the formulae of the following compounds?
ZnCl2

Slide 34 - Open vraag

  • BEFORE: no rules for naming compounds
  • NOW: International Union of Pure and Applied Chemistry (IUPAC) rules
Naming chemical compounds

Slide 35 - Tekstslide

Common chemical compounds

Slide 36 - Tekstslide

Naming Metals in Chemical Compounds: The Stock System
Group I (+1)
  • Lithium
  • Sodium
  • Potassium
  • Rubidium
  • Caesium

Group II (+2)
  • Beryllium
  • Magnesium
  • Calcium
  • Barium
  • Radium

Group III (+3)
  • Aluminium
  • Gallium
  • Indium
  • Thallium

Transition metals
  • ?

Slide 37 - Tekstslide

Naming Metals in Chemical Compounds: The Stock System
Transition metals
  • Scandium (III)
  • Titanium (III)
  • Vanadium (II)
  • Vanadium (III)
  • Vanadium (IV)
  • Vanadium (V)
  • Chromium (II)
  • Chromium (III)
  • Chromium (VI)
Transition metals
  • Manganese (II)
  • Manganese (VII)
  • Iron (II)
  • Iron (III)
  • Cobalt (II)
  • Cobalt (III)
  • Nickel (II)
  • Copper (I)
  • Copper (II)
  • Zinc (II)

Slide 38 - Tekstslide

Naming Non-Metals in Chemical Compounds
Group IV (4)
  • Carbon → carbide
Group V (- 3)
  • Nitrogen → nitride
  • Phosphorus → phosphide
Group VI (- 2)
  • Oxygen → oxide
  • Sulfur → sulfide
  • Selenium → selenide
Group VII (- 1)
  • Fluorine → fluoride
  • Chlorine → chloride
  • Bromine → bromide
  • Iodine → iodide
  • Astatine → astatide

Slide 39 - Tekstslide

Putting it together!
Write the IUPAC name for each compound.

  • (a) Al2O
  • (b) CaBr
  • (c) Na3P
  • (d) Cu2
  • (e) Mg3N2
  • (f) HgI2

Slide 40 - Tekstslide

Try these ones!
Write the IUPAC name for each compound.

  • (a) (NH4)SO4 
  • (b) Al(NO3)3 
  • (c) LiCO3
  • (d) Ni (OH)2 
  • (e) Ag3PO4

Slide 41 - Tekstslide

Naming Binary Compounds That Contain Two Non-Metals
Write the IUPAC name for each compound.

  • (a) SF6 
  • (b) N2O5
  • (c) PCl
  • (d) CF4
  • (e) P2O5
  • (f)  PBr3

Slide 42 - Tekstslide

Write the IUPAC name for each compound.

  • (a) CsF
  • (b) NaSO4
  • (c) NiCl2
  • (d) NF3

Slide 43 - Tekstslide

Slide 44 - Tekstslide

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