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Determining End Behavior and Zeros of Polynomial Functions, Lecture notes of Calculus

CVPH Medical Center School of Radiologic TechnologyCalculus

How to analyze the end behavior and zeros of polynomial functions. It discusses the role of the leading term in determining the graph's behavior as x approaches positive and negative infinity. The document also covers the multiplicity of roots and their impact on the graph's intersection with the x-axis.

Typology: Lecture notes

2021/2022

Uploaded on 09/12/2022

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Graphing a Polynomial Function
End Behavior of a Graph.
The end behavior is what happens to the graph as x approaches positive and negative
infinity. In other words, as x takes on very large values, what happens to the graph? And as x
takes on very small values, what happens to the graph.
In a polynomial function, the leading term will determine the end behavior of the graph.
We will substitute very large values for x into the leading term and see if the answer is positive
or negative. If the answer is positive, the graph will go up on the right hand side. If the answer
is negative, the graph will go down on the right hand side. We will then substitute very small
(negative) values for x into the leading term and see if the answer is positive or negative. If the
answer is positive, the graph will go up on the left hand side. If the answer is negative, the
graph will go down on the left hand side.
Zeros or Roots of the Graph:
These are the x-intercepts of the graph. The way the graph crosses the x-axis is
determined by the multiplicity of the roots.
Multiplicity of One: The graph will just pass through the x-axis.
Even Multiplicity: The graph will “bounce off” the axis. Like a parabola.
Odd Multiplicity: The graph will pass through the axis, but will look like the cubic
function. I call this a “squiggle”
Procedure of Graphing a Polynomial Function:
1. Determine the end behavior of the graph.
2. Determine all zeros and their multiplicity. Sometimes you will have to factor to get these. If
not factorable, then we will use the rational root theorem.
3. Find the y-intercept.
4. Plot all these points and play “connect the dots.”
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Graphing a Polynomial Function

End Behavior of a Graph. The end behavior is what happens to the graph as x approaches positive and negative infinity. In other words, as x takes on very large values, what happens to the graph? And as x takes on very small values, what happens to the graph. In a polynomial function, the leading term will determine the end behavior of the graph. We will substitute very large values for x into the leading term and see if the answer is positive or negative. If the answer is positive, the graph will go up on the right hand side. If the answer is negative, the graph will go down on the right hand side. We will then substitute very small (negative) values for x into the leading term and see if the answer is positive or negative. If the answer is positive, the graph will go up on the left hand side. If the answer is negative, the graph will go down on the left hand side.

Zeros or Roots of the Graph: These are the x-intercepts of the graph. The way the graph crosses the x-axis is determined by the multiplicity of the roots. Multiplicity of One: The graph will just pass through the x-axis.

Even Multiplicity: The graph will “bounce off” the axis. Like a parabola.

Odd Multiplicity: The graph will pass through the axis, but will look like the cubic function. I call this a “squiggle”

Procedure of Graphing a Polynomial Function:

  1. Determine the end behavior of the graph.
  2. Determine all zeros and their multiplicity. Sometimes you will have to factor to get these. If not factorable, then we will use the rational root theorem.
  3. Find the y-intercept.
  4. Plot all these points and play “connect the dots.”