Limit of $\left(x^{3} - 1\right)\left(x^{2} - 1\right)^{1/3} \over 5\ln\left(x\right)$ when $x\to1^{+}$

With $x >1$

$$\tag{1}\frac{(x^3-1)(x^2-1)^{1/3}}{5 \ln x} = \frac{(x-1)^{4/3}}{\ln x}\frac{(x^2+x+1)(x+1)^{1/3}}{5}$$

Using the well-known inequality

$$\frac{x-1}{x} < \ln x < x-1,$$

we see that

$$(x-1)^{1/3} < \frac{(x-1)^{4/3}}{\ln x} < x(x-1)^{1/3}.$$

By the squeeze principle,

$$\lim_{x \to +1}\frac{(x-1)^{4/3}}{\ln x} = 0.$$

Hence, the limit of the LHS of (1) is $0$ since the second factor on the RHS converges to a finite limit.


Note $x^3-1=(x-1)(x^2 + x + 1).$ Also, because $\ln '(1) = 1,$ $\lim_{x\to 1} (\ln x)/(x-1) = 1.$ So we have, as $x\to 1,$

$$\frac{x-1}{\ln x}\cdot\frac{(x^2+x+1)(x-1)^{1/3}}{5} \to 1\cdot \frac{3\cdot 0^{1/3}}{5} = 0.$$

Tags:

Limits

Calculus

Asymptotics

Limits Without Lhopital

Related

Find the maximum value of the $f(x) = \sqrt {8x - x^2} - \sqrt {14x - x^2 - 48}$. Find the value of $\lim\limits_{n \to \infty}n\left(\left(\int_0^1\frac{1}{1+x^n}\,\mathrm{d}x\right)^n-\frac{1}{2}\right)$ If $(1+\sqrt{2})^n=a_{n}+b_{n}\sqrt{2}\;,(\forall n\in \mathbb{N}).$Then $\lim_{n\rightarrow \infty}\frac{a_{n}}{b_{n}} = $ Is $\mathbb{R^2} \subset \mathbb{C}$? Show that the Lie algebra generated by x, y with relations $ad(x)^2(y) = ad(y)^5(x) = 0$ is infinite dimensional and construct a basis Suppose that $f'(x)g(x)=f(x)g'(x)$ and $g(x)\ne 0$ on (a,b). How are $f$ and $g$ related? What is the explanation for this visual proof of the sum of squares? How to replace 8-sided dice with other dice why is the definition of the determinant so weird? Continuous image of separable space If $a_{ij}=\max(i,j)$, calculate the determinant of $A$ Counting the number of maximal chains in a poset

Recent Posts