Data handling: Use experiments, simulation and probability distribution to set and explore probability models

Subject outcome

Subject outcome 4.3: Use experiments, simulation and probability distribution to set and explore probability models

Learning outcomes

  • Explain and distinguish between the following terminology/events:
    • Probability
    • Dependent events
    • Independent events
    • Mutually exclusive
    • Mutually inclusive
    • Complementary events.
  • Make predictions based on validated experimental or theoretical probabilities taking the following into account:
    • [latex]\scriptsize \displaystyle P\left( \text{S} \right)=1[/latex] (where [latex]\scriptsize \displaystyle \text{S}[/latex] is the sample space)
    • Disjoint (mutually exclusive) events, and is therefore able to calculate the probability of either of the events occurring by applying the addition rule for disjoint events: [latex]\scriptsize \displaystyle P\left( {\text{A or B}} \right)=P\left( \text{A} \right)+P\left( \text{B} \right)[/latex]
    • Complementary events and is therefore able to calculate the probability of an event not occurring
    • [latex]\scriptsize \displaystyle P\left( {\text{A or B}} \right)=P\left( \text{A} \right)+P\left( B \right)-P\left( {\text{A and B}} \right)[/latex] (where [latex]\scriptsize \displaystyle \text{A}[/latex]and [latex]\scriptsize \displaystyle \text{B}[/latex]are events within a sample space)
    • Correctly identify dependent and independent events
      (e.g. from two-way contingency tables or Venn diagrams) and therefore appreciate when it is appropriate to calculate the probability of two independent events occurring by applying the product rule for independent events: [latex]\scriptsize \displaystyle P\left( {\text{A and B}} \right)=P\left( \text{A} \right)\cdot P\left( \text{B} \right)[/latex].)
  • Draw tree diagrams, Venn diagrams and complete contingency two-way tables to solve probability problems (where events are not necessarily independent).
    Range:

    • Venn diagrams to be limited to two subsets.
    • Tree diagrams where the sample space is manageable (not more than 15 possible outcomes).
  • Interpret and clearly communicate results of the experiments correctly in terms of real context.

Unit 1 outcomes

By the end of this unit you will be able to:

  • Understand the difference between independent and dependent events.
  • Understand the difference between mutually inclusive and mutually exclusive events.
  • Understand complementary events.
  • Identify independent and dependent events using [latex]\scriptsize P~\left( {\text{A }\!\!~\!\!\text{ and }\!\!~\!\!\text{ B}} \right)~=~P~\left( \text{A} \right).P~\left( \text{B} \right)[/latex].
  • Use the addition rule for mutually exclusive events [latex]\scriptsize P\left( {\text{A }\!\!~\!\!\text{ or }\!\!~\!\!\text{ B}} \right)=~P\left( \text{A} \right)+~P\left( \text{B} \right)[/latex].
  • Use [latex]\scriptsize P(\text{A or B)}=P\text{(A)}+P\text{(B)}-P\text{(A and B)}[/latex] when [latex]\scriptsize P\left( {\text{A}\cap \text{B}} \right)\ne 0[/latex].

Unit 2 outcomes

By the end of this unit you will be able to:

  • Understand when to use Venn diagrams.
  • Draw Venn diagrams.
  • Interpret Venn diagrams.

Unit 3 outcomes

By the end of this unit you will be able to:

  • Draw tree diagrams when appropriate.
  • Use tree diagrams to solve probability problems.

Unit 4 outcomes

By the end of this unit you will be able to:

  • Draw and complete contingency tables.
  • Use contingency tables to solve probability problems.

License

Icon for the Creative Commons Attribution 4.0 International License

National Curriculum (Vocational) Mathematics Level 4 by Department of Higher Education and Training is licensed under a Creative Commons Attribution 4.0 International License, except where otherwise noted.

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