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22 May, 07:45

Which of the following best describes the relationship between (x-3) and the polynomial x^3 + 4x^2 + 2?

A. (x-3) is not a factor

B. (x-3) is a factor

C. It is impossible to tell whether (x-3) is a factor

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Answers (2)
  1. 22 May, 07:51
    0
    A. (x-3) is not a factor

    Step-by-step explanation:

    You can find if (x-3) is a factor of the polynomial by dividing the polynomial by (x-3) by using long division or synthetic division.

    Long division:

    x^2+x+3

    (x-3) / x^3+4x^2+0x+2

    - (x^3-3x^2)

    x^2+0x

    - (x^2-3x)

    3x+2

    - (3x-9)

    -7

    Here you can see that (x-3) is not a factor of the polynomial because when you divide x^3 + 4x^2 + 2 by (x-3), there is a remainder of - 7

    Synthetic Division (A shortcut version of long division just to see if there is a remainder and if the supposed factor is really a factor):

    3 1 4 0 2

    - 3 21 63

    1 7 21 65

    As seen before (x-3) is not a factor of the polynomial because there is a remainder. If 65 were 0, the (x-3) would be a factor of the polynomial.
  2. 22 May, 08:15
    0
    A) (x-3) is not a factor of x^3+4x^2+2

    Step-by-step explanation:

    (x-3) is a factor of f (x) = x^3+4x^2+2 if f (3) = 0. This is by factor theorem.

    So let's check it.

    f (x) = x^3+4x^2+2

    f (3) = 3^3+4 (3) ^2+2

    f (3) = 27+4 (9) + 2

    f (3) = 27+36+2

    f (3) = 63+2

    f (3) = 65

    Since f (3) doesn't equal 0, then x-3 is not a factor.
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