Value of $\alpha$ for which $x^5+5\lambda x^4-x^3+(\lambda\alpha-4)x^2-(8\lambda+3)x+\lambda\alpha-2=0$ has roots independent of $\lambda$

The question may be phrased incorrectly, as it is not possible to make the set of all roots independent of $\lambda$. The question I will answer is: For what value of $\alpha$ does the equation have some roots which are independent of $\lambda$?

As demonstrated in the question, $\alpha=-\frac{64}{5}$ is one possibility, which gives the root $x=2$, independent of $\lambda$.

But there is one other possibility that we can find by further factoring: $f(x) = (x-2)(x^2+x+1)^2$. Is there a value of $\alpha$ for which $g(x)$ shares a root with $x^2+x+1$? Setting $x=\omega$ with $\omega^3=1$ and $g(\omega)=0$ gives us $\alpha \omega^2 - 3\omega + \alpha = 0$. Reducing further using $\omega^2+\omega+1 = 0$ gives $-a\omega - 3\omega = 0$ or $a=-3$.

Indeed, we can verify that if $a=-3$, the original equation is divisible by $x^2 + x+1$ regardless of the value of $\lambda$.

Tags:

Polynomials

Algebra Precalculus

Roots

Related

Consider $\dot{x}=4x^{2}-16$. Unable to prove an exercise in Continuous functions in Topology Does the alternating composition of sines and cosines converge to a constant? One missing step in proving $\mathbb{Z}\times \mathbb{Z} \cong \langle a,b\,|\, [a,b]=1\rangle$ Embedding of countable linear orders into $\Bbb Q$ as topological spaces Is there a name for a group-like structure under a unary operation? Evaluate $\int_0^1 \ln{\left(\Gamma(x)\right)}\cos^2{(\pi x)} \; {\mathrm{d}x}$ How to show $\int_0^\infty\frac1{(1+x^2)(1+x^p)}$ doesn't depend on $p$? Olympiad question: In the regular pentagon $ABCDE$, the perpendicular at $C$ to $CD$ meets $AB$ at $F$. Prove that $AE + AF = BE$. How to evaluate $\int_{0}^{1} \! \frac{-\ln(1-t)}{t} \, \mathrm{d}t$ without using taylor series expansion? Generalizing Catalan numbers: number of ways where we cross the diagonal $k$ times. Prove $x^4 + x^2 +1$ is always greater than $x^3 + x$

Recent Posts