Problem Set 15: Graphs of Polynomial Functions

1. What is the difference between an x-intercept and a zero of a polynomial function f?

2. If a polynomial function of degree n has n distinct zeros, what do you know about the graph of the function?

3. Explain how the Intermediate Value Theorem can assist us in finding a zero of a function.

4. Explain how the factored form of the polynomial helps us in graphing it.

5. If the graph of a polynomial just touches the x-axis and then changes direction, what can we conclude about the factored form of the polynomial?

For the following exercises, find the x– or t-intercepts of the polynomial functions.

6. C(t)=2(t4)(t+1)(t6)

7. C(t)=3(t+2)(t3)(t+5)

8. C(t)=4t(t2)2(t+1)

9. C(t)=2t(t3)(t+1)2

10. C(t)=2t48t3+6t2

11. C(t)=4t4+12t340t2

12. f(x)=x4x2

13. f(x)=x3+x220x

14. f(x)=x3+6x27x

15. f(x)=x3+x24x4

16. f(x)=x3+2x29x18

17. f(x)=2x3x28x+4

18. f(x)=x67x38

19. f(x)=2x4+6x28

20. f(x)=x33x2x+3

21. f(x)=x62x43x2

22. f(x)=x63x44x2

23. f(x)=x55x3+4x

For the following exercises, use the Intermediate Value Theorem to confirm that the given polynomial has at least one zero within the given interval.

24. f(x)=x39x, between x=4 and x=2.

25. f(x)=x39x, between x=2 and x=4.

26. f(x)=x52x, between x=1 and x=2.

27. f(x)=x4+4, between x=1 and x=3.

28. f(x)=2x3x, between x=1 and x=1.

29. f(x)=x3100x+2, between x=0.01 and x=0.1

For the following exercises, find the zeros and give the multiplicity of each.

30. f(x)=(x+2)3(x3)2

31. f(x)=x2(2x+3)5(x4)2

32. f(x)=x3(x1)3(x+2)

33. f(x)=x2(x2+4x+4)

34. f(x)=(2x+1)3(9x26x+1)

35. f(x)=(3x+2)5(x210x+25)

36. f(x)=x(4x212x+9)(x2+8x+16)

37. f(x)=x6x52x4

38. f(x)=3x4+6x3+3x2

39. f(x)=4x512x4+9x3

40. f(x)=2x4(x34x2+4x)

41. f(x)=4x4(9x412x3+4x2)

For the following exercises, graph the polynomial functions. Note x- and y-intercepts, multiplicity, and end behavior.

42. f(x)=(x+3)2(x2)

43. g(x)=(x+4)(x1)2

44. h(x)=(x1)3(x+3)2

45. k(x)=(x3)3(x2)2

46. m(x)=2x(x1)(x+3)

47. n(x)=3x(x+2)(x4)

For the following exercises, use the graphs to write the formula for a polynomial function of least degree.

48.
Graph of a positive odd-degree polynomial with zeros at x=-2, 1, and 3.

49.
Graph of a negative odd-degree polynomial with zeros at x=-3, 1, and 3.
50.
Graph of a negative odd-degree polynomial with zeros at x=-1, and 2.

51.
Graph of a positive odd-degree polynomial with zeros at x=-2, and 3.

52.
Graph of a negative even-degree polynomial with zeros at x=-3, -2, 3, and 4.
For the following exercises, use the graph to identify zeros and multiplicity.

53.
Graph of a negative even-degree polynomial with zeros at x=-4, -2, 1, and 3.
54.
Graph of a positive even-degree polynomial with zeros at x=-4, -2, and 3.

55.
Graph of a positive even-degree polynomial with zeros at x=-2,, and 3.

56.
Graph of a negative odd-degree polynomial with zeros at x=-3, -2, and 1.
For the following exercises, use the given information about the polynomial graph to write the equation.

57. Degree 3. Zeros at = –2, = 1, and = 3. y-intercept at (0,4).

58. Degree 3. Zeros at x=-5, x=2, and x=1. y-intercept at (0,6)

59. Degree 5. Roots of multiplicity 2 at x=3 and x=1, and a root of multiplicity 1 at x=3. y-intercept at (0,9)

60. Degree 4. Root of multiplicity 2 at x=4, and a roots of multiplicity 1 at x=1 and x=2. y-intercept at (0,3).

61. Degree 5. Double zero at x=1, and triple zero at x=3. Passes through the point (2,15).

62. Degree 3. Zeros at x=4, x=3, and x=2. y-intercept at (0,24).

63. Degree 3. Zeros at x=3, x=2 and x=1. y-intercept at (0,12).

64. Degree 5. Roots of multiplicity 2 at x=3 and x=2 and a root of multiplicity 1 at x=2y-intercept at (0,4).

65. Degree 4. Roots of multiplicity 2 at x=12 and roots of multiplicity 1 at x=6 and x=2y-intercept at (0,18).

66. Double zero at x=3 and triple zero at x=0. Passes through the point (1,32).

For the following exercises, use a calculator to approximate local minima and maxima or the global minimum and maximum.

67. f(x)=x3x1

68. f(x)=2x33x1

69. f(x)=x4+x

70. f(x)=x4+3x2

71. f(x)=x4x3+1

For the following exercises, use the graphs to write a polynomial function of least degree.

72.
Graph of a positive odd-degree polynomial with zeros at x=--2/3, and 4/3 and y=8.

73.
Graph of a positive odd-degree polynomial with zeros at x=--200, and 500 and y=50000000.

74.
Graph of a positive odd-degree polynomial with zeros at x=--300, and 100 and y=-90000.

For the following exercises, write the polynomial function that models the given situation.

75. A rectangle has a length of 10 units and a width of 8 units. Squares of x by x units are cut out of each corner, and then the sides are folded up to create an open box. Express the volume of the box as a polynomial function in terms of x.

76. Consider the same rectangle of the preceding problem. Squares of 2x by 2x units are cut out of each corner. Express the volume of the box as a polynomial in terms of x.

77. A square has sides of 12 units. Squares x+1 by x+1 units are cut out of each corner, and then the sides are folded up to create an open box. Express the volume of the box as a function in terms of x.

78. A cylinder has a radius of x+2 units and a height of 3 units greater. Express the volume of the cylinder as a polynomial function.

79. A right circular cone has a radius of 3x+6 and a height 3 units less. Express the volume of the cone as a polynomial function. The volume of a cone is V=13πr2h for radius r and height h.