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Kalkylator för bestämda och oegentliga integraler
Beräkna bestämda och oegentliga integraler steg för steg
Kalkylatorn försöker beräkna bestämda integraler (dvs. med integrationsgränser), inklusive oegentliga, och visar stegen.
Solution
Your input: calculate $$$\int_{\frac{1}{3}}^{\frac{1}{2}}\left( -6 + \frac{1}{t^{3}} \right)dt$$$
First, calculate the corresponding indefinite integral: $$$\int{\left(-6 + \frac{1}{t^{3}}\right)d t}=- 6 t - \frac{1}{2 t^{2}}$$$ (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.
$$$\left(- 6 t - \frac{1}{2 t^{2}}\right)|_{\left(t=\frac{1}{2}\right)}=-5$$$
$$$\left(- 6 t - \frac{1}{2 t^{2}}\right)|_{\left(t=\frac{1}{3}\right)}=- \frac{13}{2}$$$
$$$\int_{\frac{1}{3}}^{\frac{1}{2}}\left( -6 + \frac{1}{t^{3}} \right)dt=\left(- 6 t - \frac{1}{2 t^{2}}\right)|_{\left(t=\frac{1}{2}\right)}-\left(- 6 t - \frac{1}{2 t^{2}}\right)|_{\left(t=\frac{1}{3}\right)}=\frac{3}{2}$$$
Answer: $$$\int_{\frac{1}{3}}^{\frac{1}{2}}\left( -6 + \frac{1}{t^{3}} \right)dt=\frac{3}{2}=1.5$$$