5
$\begingroup$

Question: Show that the polynomial $f(x)=(x+1)^{2n} +(x+2)^n - 1$ is divisible by $g(x) = x^2+3x+2$, where $n$ is an integer.

I have tried to use mathematical induction. The basis case wasn't that difficult, but when it comes to the inductive step itself, I got a bit confused.

Is it possible to prove this by mathematical induction, and is binominal expansion required at that step?

  • 1
    Artem, For some basic information about writing math at this site see e.g. [here](http://meta.math.stackexchange.com/questions/5020/), [here](http://meta.stackexchange.com/a/70559/155238), [here](http://meta.math.stackexchange.com/questions/1773/) and [here](http://math.stackexchange.com/editing-help#latex).2012-11-03

4 Answers 4

9

Putting the zeros of $x^2+3x+2=0$ i.e., $-1,-2$ one by one, in $f(x)=(x+1)^{2n}+(x+2)^n-1$

we get, $f(-1)=(-1+1)^{2n}+(-1+2)^n-1=0$

and $f(-2)=(-2+1)^{2n}+(-2+2)^n-1=0$

(i)So, using Remainder Theorem,

$(x+1)\mid f(x)$ and $(x+2)\mid f(x)\implies lcm(x+1,x+2)\mid f(x)$

(ii) Alternatively,

$\frac{(x+1)^{2n}+(x+2)^n-1}{x+1}=(x+1)^{2n-1}+\frac{(x+2)^n-1}{x+1}$

Now $x+1(=x+2-1)\mid \{(x+2)^{2n-1}-1\} $ as $(a-b)\mid (a^n-b^n)--->(1)$

So, $(x+1)\mid f(x).$

$\frac{(x+1)^{2n}+(x+2)^n-1}{x+2}=\frac{\{(x+1)^2\}^n-1}{x+2}+(x+2)^{n-1}$

Using $(1),\{(x+1)^2\}^n-1$ is divisible by $(x+1)^2-1=x^2+2x=x(x+2)$

So, $(x+2)\mid f(x).$

$lcm(x+1,x+2)=(x+1)(x+2)=x^2+3x+2$ (prove this)

  • 0
    @Artem, my pleasure.2012-11-04
4

Hint $\rm\: mod\ g\!:\,\ e_i^2\! = e_i\Rightarrow\: e_1^n + e_2^n =\, e_1\! + e_2.\ $ Google (orthogonal) idempotents to learn more.

2

Warning: Non-Induction Proof Put $z = x+1$ and use $z$ rather than $x$ but everything else is the same. So let's define $f_n(z)=z^{2n} + (z+1)^n - 1.$ Obviously $z|f_n(z)$ and $z$ is coprime to $z+1$ so we just need to show that $z+1|f_n(z)$ but that is equivalent to $-1$ being a root of the polynomial, which we verify it is by evaluation.

1

I don't have an answer for you because I didn't exercise this stuff a long time but I did find a reference that might assist you.

Please try : http://www.enotes.com/math/q-and-a/determine-m-polynomial-p-divisible-by-x-3-p-x-3-mx-188671/

Using the remainder theorem "http://en.wikipedia.org/wiki/Polynomial_remainder_theorem"

Hope It helps a little bit,

Guy