Määrättyjen ja epäoleellisten integraalien laskin

Your input: calculate $$$\int_{0}^{2}\left( \sqrt{19} \sqrt{x^{4}} \right)dx=\int_{0}^{2}\left( \sqrt{19} x^{2} \right)dx$$$

First, calculate the corresponding indefinite integral: $$$\int{\sqrt{19} x^{2} d x}=\frac{\sqrt{19} x^{3}}{3}$$$ (for steps, see indefinite integral calculator)

According to the Fundamental Theorem of Calculus, $$$\int_a^b F(x) dx=f(b)-f(a)$$$, so just evaluate the integral at the endpoints, and that's the answer.

$$$\left(\frac{\sqrt{19} x^{3}}{3}\right)|_{\left(x=2\right)}=\frac{8 \sqrt{19}}{3}$$$

$$$\left(\frac{\sqrt{19} x^{3}}{3}\right)|_{\left(x=0\right)}=0$$$

$$$\int_{0}^{2}\left( \sqrt{19} x^{2} \right)dx=\left(\frac{\sqrt{19} x^{3}}{3}\right)|_{\left(x=2\right)}-\left(\frac{\sqrt{19} x^{3}}{3}\right)|_{\left(x=0\right)}=\frac{8 \sqrt{19}}{3}$$$

Answer: $$$\int_{0}^{2}\left( \sqrt{19} \sqrt{x^{4}} \right)dx=\frac{8 \sqrt{19}}{3}\approx 11.6237305161085$$$