Sketching Polynomial Graphs
In exams you’ll commonly be asked to sketch the graphs of different polynomial functions with and without the use of your GDC.
What’s the relationship between a polynomial’s degree and its zeros?
- If a real polynomial P(x) has degree n, it will have n zeros which can be written in the form a + bi, where a, b ∈ ℝ
- For example:
- A quadratic will have 2 zeros
- A cubic function will have 3 zeros
- A quartic will have 4 zeros
- Some of the zeros may be repeated
- For example:
- Every real polynomial of odd degree has at least one real zero
How do I sketch the graph of a polynomial function without a GDC?
- Suppose is a real polynomial with degree n
- To sketch the graph of a polynomial you need to know three things:
- The y-intercept
- Find this by substituting x = 0 to get y = a0
- The roots
- You can find these by factorising or solving y = 0
- The shape
- This is determined by the degree (n) and the sign of the leading coefficient (an)
How does the multiplicity of a real root affect the graph of the polynomial?
- The multiplicity of a root is the number of times it is repeated when the polynomial is factorised
- If is a root with multiplicity m then is a factor of the polynomial
- The graph either crosses the x-axis or touches the x-axis at a root x = k where k is a real number
- If x = k has multiplicity 1 then the graph crosses the x-axis at (k, 0)
- If x = k has multiplicity 2 then the graph has a turning point at (k, 0) so touches the x-axis
- If x = k has odd multiplicity m ≥ 3 then the graph has a stationary point of inflection at (k, 0) so crosses the x-axis
- If x = k has even multiplicity m ≥ 4 then the graph has a turning point at (k, 0) so touches the x-axis
How do I determine the shape of the graph of the polynomial?
- Consider what happens as x tends to ± ∞
- If an is positive and n is even then the graph approaches from the top left and tends to the top right
- If an is negative and n is even then the graph approaches from the bottom left and tends to the bottom right
- If an is positive and n is odd then the graph approaches from the bottom left and tends to the top right
- and
- If an is negative and n is odd then the graph approaches from the top left and tends to the bottom right
- and
- If an is positive and n is even then the graph approaches from the top left and tends to the top right
- Once you know the shape, the real roots and the y-intercept then you simply connect the points using a smooth curve
- There will be at least one turning point in-between each pair of roots
- If the degree is n then there is at most n – 1 stationary points (some will be turning points)
- Every real polynomial of even degree has at least one turning point
- Every real polynomial of odd degree bigger than 1 has at least one point of inflection
- If it is a calculator paper then you can use your GDC to find the coordinates of the turning points
- You won’t need to find their location without a GDC unless the question asks you to
- If the degree is n then there is at most n – 1 stationary points (some will be turning points)
Exam Tip
- If it is a calculator paper then you can use your GDC to find the coordinates of any turning points
- If it is the non-calculator paper then you will not be required to find the turning points when sketching unless specifically asked to