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Section 4.1 Maximum and Minimum Values Applications of Differentiation
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Maxima and Minima Applications of Maxima and Minima
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Absolute Extrema Absolute Minimum Let f be a function defined on a domain D Absolute Maximum
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The number f (c) is called the absolute maximum value of f in D A function f has an absolute (global) maximum at x = c if f (x) f (c) for all x in the domain D of f. Absolute Maximum Absolute Extrema
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Absolute Minimum Absolute Extrema A function f has an absolute (global) minimum at x = c if f (c) f (x) for all x in the domain D of f. The number f (c) is called the absolute minimum value of f in D
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Generic Example
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Relative Extrema A function f has a relative (local) maximum at x c if there exists an open interval (r, s) containing c such that f (x) f (c) for all r x s. Relative Maxima
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Relative Extrema A function f has a relative (local) minimum at x c if there exists an open interval (r, s) containing c such that f (c) f (x) for all r x s. Relative Minima
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Fermat’s Theorem If a function f has a local maximum or minimum at c, and if exists, then Proof: Assume f has a maximum
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The Absolute Value of x.
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Generic Example The corresponding values of x are called Critical Points of f
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Critical Points of f A critical number of a function f is a number c in the domain of f such that (stationary point) (singular point)
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Candidates for Relative Extrema 1.Stationary points: any x such that x is in the domain of f and f ' (x) 0. 2.Singular points: any x such that x is in the domain of f and f ' (x) undefined 3.Remark: notice that not every critical number correspond to a local maximum or local minimum. We use “local extrema” to refer to either a max or a min.
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Fermat’s Theorem If a function f has a local maximum or minimum at c, then c is a critical number of f Notice that the theorem does not say that at every critical number the function has a local maximum or local minimum
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Generic Example Two critical points of f that do not correspond to local extrema
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Example Find all the critical numbers of Stationary points: Singular points:
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Graph of Local max.Local min.
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Extreme Value Theorem If a function f is continuous on a closed interval [a, b], then f attains an absolute maximum and absolute minimum on [a, b]. Each extremum occurs at a critical number or at an endpoint. a b Attains max. and min. Attains min. but not max. No min. and no max. Open IntervalNot continuous
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Finding absolute extrema on [a, b] 1.Find all critical numbers for f (x) in (a, b). 2.Evaluate f (x) for all critical numbers in (a, b). 3.Evaluate f (x) for the endpoints a and b of the interval [a, b]. 4.The largest value found in steps 2 and 3 is the absolute maximum for f on the interval [a, b], and the smallest value found is the absolute minimum for f on [a, b].
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Example Find the absolute extrema of Critical values of f inside the interval (-1/2,3) are x = 0, 2 Absolute Max.Absolute Min. Evaluate Absolute Max.
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Example Find the absolute extrema of Critical values of f inside the interval (-1/2,3) are x = 0, 2 Absolute Min. Absolute Max.
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Example Find the absolute extrema of Critical values of f inside the interval (-1/2,1) is x = 0 only Absolute Min. Absolute Max. Evaluate
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Example Find the absolute extrema of Critical values of f inside the interval (-1/2,1) is x = 0 only Absolute Min. Absolute Max.
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