4: Describing Relationships with Quadratic Functions

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4.1: Transformation of Functions
There are systematic ways to shift, stretch, compress, flip and combine functions to help them become better models for the problems we are trying to solve. We can transform what we already know into what we need, hence the name, “Transformation of functions.” When we have a story problem, formula, graph, or table, we can then transform that function in a variety of ways to form new functions.
- 4.1E: Transformation of Functions
4.2: Quadratic Functions
In this section, we will explore the family of 2nd degree polynomials, the quadratic functions. While they share many characteristics of polynomials in general, the calculations involved in working with quadratics is typically a little simpler, which makes them a good place to start our exploration of short run behavior.
- 4.2E: Quadratic Functions (Exercises)
4.3: Complex Zeros
When finding the zeros of polynomials, at some point you’re faced with the problem x²=−1 . While there are clearly no real numbers that are solutions to this equation, leaving things there has a certain feel of incompleteness. To address that, we will need utilize the imaginary unit, i .
- 4.3E: Complex Zeros (Exercises)

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