verify that you meant
x^3 + 8x^2 + 6 = 0
According to the rational root theorem, which is not a possible rational root of x3 + 8x2 x 6 = 0?
5 answers
x3 + 8x2-x-6 = 0?
x^3 + 8x^2 - x - 6 = 0
Let f(x) = x^3 + 8x^2 - x - 6
f(1) = 1+8-1-6 ≠ 0
f(-1) = -1 + 8 + 1 - 6 ≠ 0
f(2) = 8 + 32 - 2 - 6 ≠ 0
f(-2) = -8 + 32 + 2 - 6 ≠ 0
f(3) = 27 + .... ≠ 0
f(-3) = -27 + 72 ... ≠ 0
numbers which are NOT possible rational roots are
±1 , ±2 , ± 3
Is that what you wanted?
Let f(x) = x^3 + 8x^2 - x - 6
f(1) = 1+8-1-6 ≠ 0
f(-1) = -1 + 8 + 1 - 6 ≠ 0
f(2) = 8 + 32 - 2 - 6 ≠ 0
f(-2) = -8 + 32 + 2 - 6 ≠ 0
f(3) = 27 + .... ≠ 0
f(-3) = -27 + 72 ... ≠ 0
numbers which are NOT possible rational roots are
±1 , ±2 , ± 3
Is that what you wanted?
yeh but my homework has +-2 and +-1 as answers abd i can only choose one
I used the 1 , 2, and 3 since they were factors of the 6 at the end.
There are an infinite number of choices of rational numbers which are NOT possible roots.
This is a poorly worded question.
go with the ±1 and ±2
There are an infinite number of choices of rational numbers which are NOT possible roots.
This is a poorly worded question.
go with the ±1 and ±2
18 answers