Difference between revisions of "Exponential integral Ei"

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The exponential integral $\mathrm{Ei}$ is defined for $x>0$ by
 
The exponential integral $\mathrm{Ei}$ is defined for $x>0$ by
$$\mathrm{Ei}(x) = \int_{-\infty}^x \dfrac{e^t}{t} \mathrm{d}t.$$
+
$$\mathrm{Ei}(x) = \mathrm{PV}\int_{-\infty}^x \dfrac{e^t}{t} \mathrm{d}t,$$
 +
where $\mathrm{PV}$ denotes the [[Cauchy principal value]].
  
  

Revision as of 00:38, 24 March 2018

The exponential integral $\mathrm{Ei}$ is defined for $x>0$ by $$\mathrm{Ei}(x) = \mathrm{PV}\int_{-\infty}^x \dfrac{e^t}{t} \mathrm{d}t,$$ where $\mathrm{PV}$ denotes the Cauchy principal value.


  • Graph of $\mathrm{Ei}$.

  • Domain coloring of $\mathrm{Ei}$.

Properties

Ei(-x)=-Integral from x to infinity of e^(-t)/t dt
Relationship between logarithmic integral and exponential integral
Exponential integral Ei series
Relationship between exponential integral Ei, cosine integral, and sine integral

See Also

Exponential integral E

References

$\ast$-integral functions
Cosintegralthumb.png
Cosine integral
Coshintegralthumb.png
Cosh integral
Expintegralethumb.png
Exp integral $E_n$
Eithumb.png
Exp integral $\mathrm{Ei}$
Fresnelcthumb.png
Fresnel $C$
Fresnelsthumb.png
Fresnel $S$
Gudermannianthumb.png
Gudermannian
Inversegudermannianthumb.png
Inverse $\mathrm{gd}$
Sinintegralthumb.png
Sine integral
Lithumb.png
Log integral
Sinhintegralthumb.png
Sinh integral
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