Difference between revisions of "Exponential integral E"
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The exponential integral functions $E_n$ are defined by | The exponential integral functions $E_n$ are defined by | ||
$$E_1(z) = \displaystyle\int_1^{\infty} \dfrac{e^{-t}}{t} \mathrm{d}t, \quad \left|\mathrm{arg \hspace{2pt}}z\right|<\pi,$$ | $$E_1(z) = \displaystyle\int_1^{\infty} \dfrac{e^{-t}}{t} \mathrm{d}t, \quad \left|\mathrm{arg \hspace{2pt}}z\right|<\pi,$$ | ||
Revision as of 08:04, 8 June 2016
The exponential integral functions $E_n$ are defined by $$E_1(z) = \displaystyle\int_1^{\infty} \dfrac{e^{-t}}{t} \mathrm{d}t, \quad \left|\mathrm{arg \hspace{2pt}}z\right|<\pi,$$ and $$E_n(z)=\displaystyle\int_1^{\infty} \dfrac{e^{-zt}}{t^n} \mathrm{d}t.$$
Graph of $\mathrm{E}_1$.
Graph of $\mathrm{E}_2$.
Graph of $\mathrm{E}_3$.
Domain coloring of $\mathrm{E}_1$.
Domain coloring of $\mathrm{E}_2$.
Properties
Relationship between the exponential integral and upper incomplete gamma function
Videos
Laplace transform of exponential integral
References
Exponential Integral and Related Functions
