The Extreme Value Theorem What Does It Take to Be Sure a Function Has an Absolute Minimum and an Absolute Maximum on a Given Domain?

The Extreme Value Theorem What Does It Take to Be Sure a Function Has an Absolute Minimum and an Absolute Maximum on a Given Domain?

The Extreme Value Theorem What does it take to be sure a function has an absolute minimum and an absolute maximum on a given domain? I. Samples { Study these sample functions and their descriptions and fill in the blanks. a) 3 b) 3 c) 3 d) 3 2 2 2 2 1 1 1 1 −2 −1 1 2 −2 −1 1 2 −2 −1 1 2 −2 −1 1 2 −1 −1 −1 −1 A continuous function A continuous function A discontinuous function An unbounded with an absolute with no absolute with an absolute discontinuous function maximum of3 at maximum and no maximum of3 at with no absolute x = −2 and an absolute minimum. x =1 and no absolute maximum and no absolute minimum of Domain:( −2; 2) minimum. absolute minimum. −1 at x =1 . Domain:[ −2; 2] Domain: Domain:[ −2; 2] [−2; 0) [ (0; 2] In sample c), there is no absolute minimum because: as x ! 1+ there is an open circle, so the lower bound of y = −1 is approached but not attained . In sample d), there is no absolute maximum because: f(x) has no upper bound on the domain, and the values of the function approach infinity . II. Examples { if possible, create graphs of functions satisfying each description 3 3 3 3 2 2 2 2 1 1 Not1 Possible 1 −2 −1 1 2 −2 −1 1 2 −2 −1 1 2 −2 −1 1 2 −1 −1 −1 −1 A continuous function A continuous unbounded A continuous unbounded A bounded continuous with an absolute function with no absolute function with no absolute function with an absolute maximum of 3 and no maximum and no maximum and no maximum of 3 and no absolute minimum. absolute minimum. absolute minimum. absolute minimum. Domain: [−2; 2) Domain: (−2; 2) Domain: [−2; 2] Domain: (−∞; 1) 3 3 3 3 2 2 2 2 1 1 1 Not1 Possible −2 −1 1 2 −2 −1 1 2 −2 −1 1 2 −2 −1 1 2 −1 −1 −1 −1 A continuous function A function with an A function with no A continuous function with an absolute absolute maximum of 3 absolute maximum and with no absolute maximum of 3 and an and no absolute no absolute minimum. maximum and no absolute minimum of -1. minimum. Domain: [−2; 2] absolute minimum. Domain: (−2; 2) Domain: [−2; 2] Domain: [−2; 2] III. Theorem: (Extreme Value Theorem) If f is continuous on a closed interval [a; b], then f must attain an absolute maximum value f(c) and an absolute minimum value f(d) at some numbers c and d in the interval [a; b]. IV. Draw a continuous function with domain [−2; 2]. 3 2 1 −2 −1 1 2 −1 Does it have an absolute maximum and absolute minimum? Yes Check the functions drawn by your classmates. Do all their examples also have absolute maxima and absolute minima? Explain! Yes. By the Extreme Value Theorem, since they all are continuous on a closed interval, they all must have an absolute maximum and an absolute minimum. Why does sample b) on the top of the previous page not contradict the Extreme Value Theorem? It is not defined on a closed interval, so the Extreme Value Theorem does not apply. Why does sample c) on the top of the previous page not contradict the Extreme Value Theorem? It is not continuous on the domain, so the Extreme Value Theorem does not apply. Does the function f(x) = 5 + 54x − 2x3 have an absolute maximum and an absolute minimum on the interval [0; 4]? Why or why not? If so, how would you go about finding the absolute maximum and absolute minimum? It must have both an absolute maximum and an absolute minimum because it is a continuous function (since it is a polynomial) on a closed interval. The absolute minimum and maximum must lie either at the endpoints or where the derivative is 0. So take the derivative and find the critical numbers. Plug the endpoints and the ctitical numbers into the f(x) and choose the largest and smallest values..

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