ok, this might be a bit torturous, but if anyone is patient enough and help me with my working, i'd REALLY APPRECIATE IT!!!!

Question:
The cubic polynomial f(x) is such that the coefficient of x^3 is 1 and the roots of f(x)=0 are 1, k, and k^2. IT is given that f(x) has a remainder of 7 when divided by x-2.
Show that k^3 - 2k^2 - 2k - 3 = 0 __________________________________________________________________________

this is what i did, it might be a stupid or completely wrong way of doing..... please pardon my stupidity

x^3 + ax^2 + bx^2 + c = (x-1)(x-k)(x-k^2)
f(2)=7
8+4a+2b+c=7
4a+2b+c=-1

(x-1)(x-k)(x-k^2)= x^3 + (-k-1-k^2)x^2 + (-k^3+k^2+k)x -k^3

so... (-k-1-k^2)= a
(-k^3 + k^2 + k)=b
-k^3 =c
4(-k^2-k-1)+2(-k^3+k^2+k)-k^3= -1
-3k^3-2k^2-2k-3= 0

!!??? which is different from what i;m supposed to show!?!?!?
I honestly don't know what im doing.........

3 answers

ok... i know how to do this question already! :D
For the previous part, this was how i got the answer:
f(x) = (x-1)(x-k)(x-k^2)
= Q(x)(2-x)+7
Let x=2, so (2-k)(2-k^2)=7, and i get the answer,

But there is another part to this question which i don't understand...
please help:D
it says: Hence, find a value of k and show that there are no other real values of k which satisfy this equation.

How do i do this??
k^3 - 2k^2 - 2k - 3 = 0
after a few quick trial & error guesses
I found k=3 to work
so by division I got
k^3 - 2k^2 - 2k - 3 = 0
(k-3)(k^2 + k + 1) = 0

so any other solutions for k must come from
k^2 + k + 1=0
Using the formula it can be quickly shown that there is no "real" solution to this
Similar Questions
  1. What is an example of a patient in crisis?A. A patient who is happily married B. A patient who recently earned a promotion at
    1. answers icon 2 answers
    1. answers icon 1 answer
    1. answers icon 1 answer
  2. What is an example of biographic data?Patient being prone to fainting around needles. Patient has previously tested positive for
    1. answers icon 1 answer
more similar questions