In Exercises 15–18, use the Leading Coefficient Test to determine the end behavior of the graph of the given polynomial function. Then use this end behavior to match the polynomial function with its graph. [The graphs are labeled (a) through (d).] <IMAGE> f(x)=−x^4+x^2
4. Polynomial Functions
Graphing Polynomial Functions
- Textbook Question390views
- Textbook Question
In Exercises 15–18, use the Leading Coefficient Test to determine the end behavior of the graph of the given polynomial function. Then use this end behavior to match the polynomial function with its graph. [The graphs are labeled (a) through (d).] <IMAGE> f(x)=(x−3)^2
382views - Textbook Question
In Exercises 1–10, determine which functions are polynomial functions. For those that are, identify the degree. g(x)=6x^7+πx^5+2/3 x
383views - Textbook Question
In Exercises 1–10, determine which functions are polynomial functions. For those that are, identify the degree. f(x)=x^1/3 −4x^2+7
361views - Textbook Question
In Exercises 33–40, use the Intermediate Value Theorem to show that each polynomial has a real zero between the given integers.f(x)=2x^4−4x^2+1; between -1 and 0
373views - Textbook Question
In Exercises 33–40, use the Intermediate Value Theorem to show that each polynomial has a real zero between the given integers. f(x)=x^5−x^3−1; between 1 and 2
400views - Textbook Question
In Exercises 33–40, use the Intermediate Value Theorem to show that each polynomial has a real zero between the given integers. f(x)=3x^3−10x+9; between -3 and -2
443views