(New page: I really like Euler's Formula, which states e^(''i''x) = cos(x) + ''i''sin(x). I especially like it for x=pi because it becomes e^(''i''*pi) = -1 + 0, which has all kinds of cool elements...)
 
 
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[[Category:MA453Spring2009Walther]]
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[[Category:Euler's formula]]
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[[Category:complex numbers]]
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[[Category:MA453]]
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= Jonathan Cromer's Favorite Theorem=
 
I really like Euler's Formula, which states e^(''i''x) = cos(x) + ''i''sin(x).  I especially like it for x=pi because it becomes e^(''i''*pi) = -1 + 0, which has all kinds of cool elements including, 1, 0, pi, e, ''i'', and both positive and negative numbers.
 
I really like Euler's Formula, which states e^(''i''x) = cos(x) + ''i''sin(x).  I especially like it for x=pi because it becomes e^(''i''*pi) = -1 + 0, which has all kinds of cool elements including, 1, 0, pi, e, ''i'', and both positive and negative numbers.
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Back to favorite theorems page: [[MA_453_Spring_2009_Walther_Week_1|ok]]

Latest revision as of 05:07, 23 September 2011

Jonathan Cromer's Favorite Theorem

I really like Euler's Formula, which states e^(ix) = cos(x) + isin(x). I especially like it for x=pi because it becomes e^(i*pi) = -1 + 0, which has all kinds of cool elements including, 1, 0, pi, e, i, and both positive and negative numbers.


Back to favorite theorems page: ok

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Ph.D. 2007, working on developing cool imaging technologies for digital cameras, camera phones, and video surveillance cameras.

Buyue Zhang