IGCSEScienceEdexcelScience (Double Award) (Modular)Chemistry Unit 1Revision Notes1. Principles of Chemistry: Part 1Chemical formulae, equations, calculationsPractical: Determine The Formula of a Metal Oxide

Practical: Determine The Formula of a Metal Oxide (Edexcel IGCSE Science (Double Award) (Modular)): Revision Note

Exam code: 4XSD1

Stewart Hird

Written by: Stewart Hird

Reviewed by: Philippa Platt

Updated on

Edexcel Science (Double Award) (Modular): Chemistry Unit 1Edexcel Chemistry (Modular): Unit 1Edexcel Science (Double Award): ChemistryEdexcel Chemistry

Practical: Determine the formula of magnesium oxide

Aim:

To determine the empirical formula of magnesium oxide by combustion of magnesium

Diagram:

Diagram of apparatus needed to find the formula of magnesium oxide

Method:

  1. Measure the mass of the crucible with the lid

  2. Add a sample of magnesium into the crucible and measure the mass with the lid (calculate the mass of the metal by subtracting the mass of the empty crucible)

  3. Strongly heat the crucible over a Bunsen burner for several minutes

  4. Lift the lid frequently to allow sufficient air into the crucible for the magnesium to fully oxidise without letting magnesium oxide smoke escape

  5. Continue heating until the mass of the crucible remains constant (maximum mass), indicating that the reaction is complete

  6. Measure the mass of the crucible and its contents (calculate the mass of metal oxide by subtracting the mass of the empty crucible)

Results

  • Mass of metal:

    • Subtract the mass of the crucible from magnesium and the mass of the empty crucible

  • Mass of oxygen:

    • Subtract the mass of the magnesium used from the mass of magnesium oxid

    • Step 1 – Divide each of the two masses by the relative atomic masses of the element

    • Step 2 – Simplify the ratio

 

magnesium

oxygen

mass

a

b

moles

a / Ar

a / Ar

 

x

y

          Ratio = x : y

  • Step 3 – Represent the ratio in the form ‘MxOy‘ E.g, MgO

Practical: Determine the formula of copper(II) oxide

Aim:

To determine the formula of copper(II)oxide by reduction with methane

Diagram:

Diagram to show the apparatus needed to determine the formula of copper(II) oxide

Method:

  1. Measure mass of the empty boiling tube

  2. Place metal oxide into a horizontal boiling tube and measure the mass again

  3. Support the tube in a horizontal position held by a clamp

  4. A steady stream of natural gas(methane) is passed over the copper(II)oxide and the excess gas is burned off

  5. The copper(II)oxide is heated strongly using a Bunsen burner

  6. Heat until metal oxide completely changes colour, meaning that all the oxygen has been removed

  7. Measure mass of the tube remaining metal powder and subtract the mass of the tube

Results:

Working out empirical formula:

Mass of Metal:

  • Measure mass of the remaining metal powder

    • Mass of Oxygen:

      • Subtract mass of the remaining metal powder from the mass of metal oxide

      • Step 1 – Divide each of the two masses by the relative atomic masses of elements

      • Step 2 – Simplify the ratio:                     

 

metal

oxygen

mass

a

b

moles

a / Mr

b / Mr

Ratio

x

y

  • Step 3 – Represent the ratio in the form ‘MxOy‘ E.g, CuO

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Author
Reviewer
Stewart Hird

Author: Stewart Hird

Expertise: Chemistry Content Creator

Stewart has been an enthusiastic GCSE, IGCSE, A Level and IB teacher for more than 30 years in the UK as well as overseas, and has also been an examiner for IB and A Level. As a long-standing Head of Science, Stewart brings a wealth of experience to creating Topic Questions and revision materials for Save My Exams. Stewart specialises in Chemistry, but has also taught Physics and Environmental Systems and Societies.

Philippa Platt

Reviewer: Philippa Platt

Expertise: Chemistry Content Creator

Philippa has worked as a GCSE and A level chemistry teacher and tutor for over thirteen years. She studied chemistry and sport science at Loughborough University graduating in 2007 having also completed her PGCE in science. Throughout her time as a teacher she was incharge of a boarding house for five years and coached many teams in a variety of sports. When not producing resources with the chemistry team, Philippa enjoys being active outside with her young family and is a very keen gardener