Difference between revisions of "Exponential"

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[[Exponential]] $\exp$ is solution of equation
+
[[Exponential]] \(\exp\) is solution of equation
   
$\exp'(x)=\exp(x)$,
+
\(\exp'(x)=\exp(x)\),
   
$\exp(0)=1$
+
\(\exp(0)=1\)
   
 
Where "prime" demotes the derivative.
 
Where "prime" demotes the derivative.
   
Notation $\exp(x)=e^x$
+
Notation \(\exp(x)=e^x\)
   
 
is also used; constant
 
is also used; constant
   
  +
\(
$
 
 
\displaystyle
 
\displaystyle
 
\mathrm e=\sum_{n=0}^\infty \frac{1}{n!}
 
\mathrm e=\sum_{n=0}^\infty \frac{1}{n!}
 
\approx
 
\approx
 
2.71828182846
 
2.71828182846
$
+
\)
   
The same function is called also "natural exponent" or "exponential to base $\mathrm e$,
+
The same function is called also "natural exponent" or "exponential to base \(\mathrm e\),
in order to distinguish it from exponential to other base $b$, denoted as
+
in order to distinguish it from exponential to other base \(b\), denoted as
   
$\exp_b(z)=b^z=\exp\big(\ln(b) z\big)$
+
\(\exp_b(z)=b^z=\exp\big(\ln(b) z\big)\)
   
where $\ln$ denotes the natural [[logarithm]],
+
where \(\ln\) denotes the natural [[logarithm]],
   
$\ln=\exp^{-1}$
+
\(\ln=\exp^{-1}\)
   
 
where the superscript at the name of function indicates its iterate; logarithm is minus first iterate of the exponent, id set, the increase function.
 
where the superscript at the name of function indicates its iterate; logarithm is minus first iterate of the exponent, id set, the increase function.
In wide range of values of $z$, the identity holds,
+
In wide range of values of \(z\), the identity holds,
   
$\exp\big(\ln(z)\big)=z$
+
\(\exp\big(\ln(z)\big)=z\)
   
 
==References==
 
==References==

Latest revision as of 18:45, 30 July 2019

Exponential \(\exp\) is solution of equation

\(\exp'(x)=\exp(x)\),

\(\exp(0)=1\)

Where "prime" demotes the derivative.

Notation \(\exp(x)=e^x\)

is also used; constant

\( \displaystyle \mathrm e=\sum_{n=0}^\infty \frac{1}{n!} \approx 2.71828182846 \)

The same function is called also "natural exponent" or "exponential to base \(\mathrm e\), in order to distinguish it from exponential to other base \(b\), denoted as

\(\exp_b(z)=b^z=\exp\big(\ln(b) z\big)\)

where \(\ln\) denotes the natural logarithm,

\(\ln=\exp^{-1}\)

where the superscript at the name of function indicates its iterate; logarithm is minus first iterate of the exponent, id set, the increase function. In wide range of values of \(z\), the identity holds,

\(\exp\big(\ln(z)\big)=z\)

References