VCE Math Methods Unit 3 AOS 1

The Language of Functions

Mastery of VCE Mathematical Methods begins with a mastery of its language. This section establishes the non-negotiable vocabulary for relations, functions, domain, and range.

Relations vs. Functions

A relation is any set of ordered pairs $(x, y)$ . A function is a special type of relation where each input $x$ maps to at most one output $y$ .

The Vertical Line Test:

If a vertical line intersects a graph more than once, it is not a function.

Domain and Range

Domain (D): The set of all permissible input ( $x$ ) values.

Range (R): The set of all resulting output ( $y$ ) values.

Formal Function Notation

A function $f$ is formally defined using the notation $f: D \to \mathbb{R}, f(x) = \text{rule}$ . This precisely communicates its name, domain, co-domain, and rule.

f: [-2, 2] \to \mathbb{R}, f(x) = x^2

Core Function Families

Explore the characteristics of core function families. Select a function type to see its graph and key features, and use the sliders to see how parameters affect its shape.

Select a Family

Key Features

Details will appear here.

Interactive Transformations

Manipulate the parameters $a, n, h,$ and $k$ in the equation $y = a \cdot f(n(x-h)) + k$ to see how each one affects the graph of a parent function in real-time. Remember: Dilations & Reflections first, then Translations.

Controls

Parent Function:

Transformed Equation

Combining & Inverting Functions

Functions can be used as building blocks. This section explores composite functions and the conditions required for a function to have an inverse.

Composite Functions: $f(g(x))$

A composite function $f(g(x))$ is formed when the output of an inner function, $g(x)$ , becomes the input for an outer function, $f(x)$ .

Condition for Existence: $ran(g) \subseteq dom(f)$

Inverse Functions: $f^{-1}(x)$

An inverse function $f^{-1}(x)$ reverses the action of the original function $f(x)$ . An inverse exists only if the original function is one-to-one (passes the Horizontal Line Test).

Key Property: $dom(f^{-1}) = ran(f)$

Modelling & Exam Strategy

The ultimate goal is to apply this knowledge to solve problems. This section summarises key strategies for assessment tasks and examinations.

The Mathematical Modelling Process

Understand the Context: Deconstruct the problem to identify key variables and relationships.
Choose a Function: Select an appropriate function family to model the relationship.
Formulate the Model: Determine the specific equation, parameters, and constraints (the domain).
Solve and Interpret: Use the model (and calculus) to answer questions and interpret the results in context.

Exam 1: Tech-Free

Focus on speed and accuracy in algebra.
Practice core skills (differentiation, factorisation).
Set out working logically and clearly.

Exam 2: Tech-Active

Become an expert with your CAS calculator.
Focus on interpreting the question and setting up the model.
Prepare a high-quality, well-organised bound reference.