Lesson 6 Sorry, We’re Closed Develop Understanding
Learning Focus
Support or challenge claims about the result of adding, subtracting, multiplying, and dividing polynomials.
What are the similarities and differences between the arithmetic of integers, and polynomials?
What does the formal definition of a polynomial mean?
What does it mean for a set of numbers to be closed under an operation?
Open Up the Math: Launch, Explore, Discuss
Now that we have compared operations on polynomials with operations on whole numbers, it’s time to generalize the results.
Before we go too far, we need some definitions. In Math II, you learned about the various sets of numbers that form the number system. A diagram showing their relationship is shown below:
We will also need a technical definition of a polynomial function.
A polynomial function has the form:
1.
The following examples and non-examples will help you to see the important implications of the definition of a polynomial function. For each pair, determine what is different between the example of a polynomial and the non-example.
These are polynomials: | These are not polynomials: |
---|---|
a) | b) |
How are a and b different? | |
c) | d) |
How are c and d different? | |
e) | f) |
How are e and f different? | |
h) | i) |
How are h and i different? | |
j) | k) |
How are j and k different? |
2.
Based on the definition and the examples provided, how can you tell if a function is a polynomial function?
Maybe you have noticed in the past that when you add two even numbers, the answer you get is always an even number. Mathematically, we say that the set of even numbers is closed under addition. Mathematicians are interested in results like this because they help us to understand how numbers or functions of a particular type behave with the various operations.
3.
You can try it yourself: Is the set of odd numbers closed under multiplication? In other words, if you multiply two odd numbers together, will you get an odd number? Explain.
If you find any two odd numbers that have an even product, then you would say that odd numbers are not closed under multiplication. Even if you have several examples that support the claim, if you can find one counterexample that contradicts the claim, then the claim is false.
Do the following for each of the following claims:
Determine if the claim is true or false.
If you decide that the claim is true, make a general argument that explains why it is always true or create at least two examples to support the claim. Your examples can include any representation you choose.
If you decide that the claim is false, find a counterexample to prove the claim is false.
4.
The set of whole numbers is closed under addition.
5.
The sum of a quadratic polynomial function and a linear polynomial function is a cubic polynomial function.
6.
The sum of a linear polynomial function and an exponential function is a polynomial function.
7.
The set of polynomial functions is closed under addition.
8.
The set of whole numbers is closed under subtraction.
9.
The set of integers is closed under subtraction.
10.
A quadratic polynomial function subtracted from a cubic polynomial function is a cubic polynomial function.
11.
A linear polynomial function subtracted from a linear polynomial function is a polynomial function.
12.
A cubic polynomial function subtracted from a cubic polynomial function is a cubic polynomial function.
13.
The set of polynomial functions is closed under subtraction.
14.
The product of two linear polynomial functions is a quadratic function.
15.
The set of integers is closed under multiplication.
16.
The set of polynomial functions is closed under multiplication.
17.
The set of integers is closed under division.
18.
A cubic polynomial function divided by a linear polynomial function is a quadratic polynomial function.
19.
The set of polynomial functions is closed under division.
Ready for More?
Write two claims of your own about polynomial functions, and use examples to demonstrate that they are true.
Claim #1:
Claim #2:
Takeaways
Closure Properties:
Adding Notation, Vocabulary, and Conventions
The definition of a polynomial implies:
Vocabulary
- closure
- polynomial function
- Bold terms are new in this lesson.
Lesson Summary
In this lesson we examined claims about the closure of sets of numbers and classes of functions under the operations of addition, subtraction, multiplication, and division. An example of such a claim is: The set of whole numbers is closed under division. A counterexample that shows this claim to be false is:
1.
Graph
2.
Solve