If $\alpha, \beta,\gamma$ be the roots of $2x^3+x^2+x+1=0$, show that..........?

Notice that if we multiplly the polynomial with $x-1$ we get $$x^3(x-1)+(x-1)(x^3+x^2+x+1)=0$$ so $$2x^4-x^3-1=0\implies \boxed{{1\over x^3}= 2x-1}$$

So your expression is $$E=(2\beta + 2\gamma -2\alpha -1)(2\beta -2\gamma +2\alpha -1)(-2\beta + 2\gamma +2\alpha -1)$$

Now notice that $$\beta + \gamma +\alpha =-{1\over 2}$$ so $$E = -8(2\alpha +1)(2\beta +1)(2\gamma +1)=$$

$$=-64 (\alpha +{1\over 2})(\beta +{1\over 2})(\gamma +{1\over 2}) $$ $$=-32\cdot p(-{1\over 2})=-16$$

Tags:

Polynomials

Symmetric Polynomials

Related

Find the remainder when $f(x) = x^{2016}+2x^{2015}-3x+4$ is divided by $g(x)=x^2+3x+2$ Is there a pandigital perfect power $p^k$ for any prime $p$? Show that the complex $\cos$ function has only real roots Evaluating a Triple integral where one bound is a function of two variables Does the sum $\frac{1}{3} + \frac{1}{3^{1+1/2}}+\cdots$ have a closed form? Two rectangles: The $1$st has twice the perimeter of the $2$nd and the $2$nd has twice the area of the $1$st. Simple recurrences converging to $\log 2, \pi, e, \sqrt{2}$ and so on Relation between two rational sequences approximating square root 2 Find $\int_1^a \sqrt[5]{x^5-1}\ dx + \int_0^b \sqrt[5]{x^5+1}\ dx$, where $a^5-b^5 = 1$ which is larger: $\sin(4^\circ)$ or $2\sin(2^\circ)$? On constants attainable by the expression $\int_0^1xf(x)dx$ Using the limit comparison test

Recent Posts