Integraal van $$$e^{- \frac{141 p t}{800} + \frac{1673}{500}}$$$ met betrekking tot $$$t$$$

Bepaal $$$\int e^{- \frac{141 p t}{800} + \frac{1673}{500}}\, dt$$$.

Zij $$$u=- \frac{141 p t}{800} + \frac{1673}{500}$$$.

Dan $$$du=\left(- \frac{141 p t}{800} + \frac{1673}{500}\right)^{\prime }dt = - \frac{141 p}{800} dt$$$ (de stappen zijn te zien »), en dan geldt dat $$$dt = - \frac{800 du}{141 p}$$$.

De integraal kan worden herschreven als

$${\color{red}{\int{e^{- \frac{141 p t}{800} + \frac{1673}{500}} d t}}} = {\color{red}{\int{\left(- \frac{800 e^{u}}{141 p}\right)d u}}}$$

Pas de constante-veelvoudregel $$$\int c f{\left(u \right)}\, du = c \int f{\left(u \right)}\, du$$$ toe met $$$c=- \frac{800}{141 p}$$$ en $$$f{\left(u \right)} = e^{u}$$$:

$${\color{red}{\int{\left(- \frac{800 e^{u}}{141 p}\right)d u}}} = {\color{red}{\left(- \frac{800 \int{e^{u} d u}}{141 p}\right)}}$$

De integraal van de exponentiële functie is $$$\int{e^{u} d u} = e^{u}$$$:

$$- \frac{800 {\color{red}{\int{e^{u} d u}}}}{141 p} = - \frac{800 {\color{red}{e^{u}}}}{141 p}$$

We herinneren eraan dat $$$u=- \frac{141 p t}{800} + \frac{1673}{500}$$$:

$$- \frac{800 e^{{\color{red}{u}}}}{141 p} = - \frac{800 e^{{\color{red}{\left(- \frac{141 p t}{800} + \frac{1673}{500}\right)}}}}{141 p}$$

Dus,

$$\int{e^{- \frac{141 p t}{800} + \frac{1673}{500}} d t} = - \frac{800 e^{- \frac{141 p t}{800} + \frac{1673}{500}}}{141 p}$$

Voeg de integratieconstante toe:

$$\int{e^{- \frac{141 p t}{800} + \frac{1673}{500}} d t} = - \frac{800 e^{- \frac{141 p t}{800} + \frac{1673}{500}}}{141 p}+C$$

$$$\int e^{- \frac{141 p t}{800} + \frac{1673}{500}}\, dt = - \frac{800 e^{- \frac{141 p t}{800} + \frac{1673}{500}}}{141 p} + C$$$A