Question 1: What is the derivative u0(x) of the function u(x) = a0, where a0 is a real number?

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We already know that - (kr") = n kr"-1 dr for n a positive natural number. What about n 0? This is a special case, because the value of 0° is not defined, so we cannot simply write a° and calculate its slope. Instead, we can be sure that rº = 1 for r > 0 so we usually work with the constant function that has the value 1 for all x. Question 1: What is the derivative u'(x) of the function u(x) = a0, where ao is a real number? When working directly with limits, we often faced the complication that limits do not always exist, so it was difficult to establish general rules. However, if we limit ourselves to functions which can be analysed (these are called analytic functions) then we can be sure that certain limits we need do exist. One class of functions which are particularly useful in practical problems (in engineering, economics and science, for example) are the polynomials. These can be written in the general form P(r) = do + a1 r + az x² + az r* +...+ a, a",