Euler's Identity
Euler's Identity
Euler's identity, +1=0, has been called the most beautiful equation in mathematics. It unites the most basic numbers of mathematics: (the base of the natural logarithm), (the imaginary unit = ), (the ratio of the circumference of a circle to its diameter), 1 (the multiplicative identity), and 0 (the additive identity) with the basic arithmetic operations: addition, multiplication and exponentiation—using each once and only once! The identity is a particular example of the more general Euler formula: =cos(θ)+isin(θ). The series expansion of is with partial sums =.
π
e
i
-1
π
θ
e
z
e
∞
∑
n=0
n
z
n!
S
m
m
∑
n=0
n
z
n!
This Demonstration starts with Euler's identity but lets you experiment with the more general formula for various values of . You can see how quickly the series expansion of converges by varying the number of terms in its partial sums with . The green polygonal line joins the points , , …, where . You can zoom in with the scale, which is logarithmic. When you zoom in sufficiently close, the center of the picture switches from the origin to the point being approximated.
θ
iθ
e
m
S
0
S
1
S
m
z=
iθ
e
Details
Details
Euler recognized that the Taylor series expansion of when applied to an imaginary number also converged and, in fact, converged to . The terms of the series for a pure imaginary number alternate between real and imaginary numbers. This provides a very interesting visualization of the convergence of the series. There are many sources for Euler's work with this formula, but[1] is the one that motivated me to create this Demonstration.
x
e
iθ
cos(θ)+isin(θ)
iθ
References
References
[1] R. P. Crease, The Great Equations, New York: W. W. Norton & Company, 2008 pp. 91–106.
External Links
External Links
Permanent Citation
Permanent Citation
Jim Kaiser
"Euler's Identity"
http://demonstrations.wolfram.com/EulersIdentity/
Wolfram Demonstrations Project
Published: March 11, 2011