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Even euler does not seem to have written it down explicitly—and certainly it doesn't appear in any of his publications—though he must surely have realized that it follows immediately from his identity [i.e Euler's formula], eix = cos x + i sin x. So now, the question is, why is the right thing to define what e raised to an imaginary power means Raising a number to an imaginary power makes no sense based on the original definition of exponentiation you learned, where means a multiplied by itself b times. How much money does homer have after an imaginary pi number of years As we've seen when you let m go to infinity the function (1+x/m)^m turns into the exponential function. The radius is e a and the angle is determined by e b i Once to grow it to the right size (a seconds), another time to rotate it to the right angle (b seconds). Euler's formula, named after leonhard euler, is a mathematical formula in complex analysis that establishes the fundamental relationship between the trigonometric functions and the complex exponential function. E and pi are both mathematical constants that are irrational and transcendental numbers While pi represents the ratio of a circle's circumference to its diameter, e represents the base of the natural logarithm. These are called “taylor expansions” of “sine”, “cosine”, and “e to the x” If you were to continue the patterns above forever, then you would find that the equality is exact. Lastly, when we calculate euler's formula for x = π we get Eiπ = cos π + i sin π Eiπ = −1 + i × 0 (because cos π = −1 and sin π = 0) $e^ {i\theta} = \cos \theta + i \sin \theta$ I love how the op said, i put it into the calculator and it works One can also define an operation ln (x) on the positive reals, which is the inverse of the operation of exponentiation by e In other words, exp (ln (x)) = x for all positive x.