<p>Will discuss Euler's number "e" raised to a power or even an imaginary power. Will be using a really cool definition of exponential growth to further understand e raised to some power. Raising to a power results in exponential growth. Raising to an imaginary power results in complex rotation. And finally "e" raised to the pi times "i" equals -1. Yeah, we'll go there!</p>

Will discuss Euler's number "e" raised to a power or even an imaginary power. Will be using a really cool definition of exponential growth to further understand e raised to some power. Raising to a power results in exponential growth. Raising to an imaginary power results in complex rotation. And finally "e" raised to the pi times "i" equals -1. Yeah, we'll go there!

Euler's Number Raised To a Power

I'll be talking through math problems without visuals! It will be quite the challenge and interesting.

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Euler's Number Raised To a Power

Euler's Number Raised To a Power