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Student number Name [SURNAME(S), Givenname(s)] MATH 100, Section 110 (CSP) Weeks 9 and 10: Marked Homework Assignment Due: Thu 2010 Nov 18 14:00 HOMEWORK SUBMITTED LATE WILL NOT BE MARKED 1. Prove that 1 + 2x + x3 + 4x5 has exactly one real root. 2. Suppose f (x) is continuous for 1 ≤ x ≤ 2 and f 0 (x) exists for 1 < x < 2. (a) If f (1) < f (2), prove that f 0 must be positive at some point. (b) If f (1) = 5 and |f 0 (x)| ≤ 4 for all 1 < x < 2, prove that f (2) is between 1 and 9. Is it possible for f (2) to actually equal 1 or 9? Justify your answer. 3. Let L be the tangent line to the curve y = 1 + ex at a point P (a, b), where the point of tangency P is chosen so that the tangent line L passes through the origin O(0, 0). (a) Find an equation that is satisfied by a, the x-coordinate of the point of tangency P. (b) Prove that the equation in part (a) has exactly one real solution. 4. Consider the set of all functions f (x) defined on the closed interval [0, 1] that satisfy the following three properties: i) f is continuous in [0, 1]; ii) f is differentiable in (0, 1); iii) f (0) = 0 and f (1) = 1. Find a specific function f0 defined on [0, 1] that has these three properties, and in addition the maximum of |f00 (x)| on (0, 1) is as small as possible. Justify your answer. 5. For each of the following functions, determine i) all critical numbers, ii) intervals where the function is increasing or decreasing, iii) local extrema, iv) intervals where the graph is concave upward or downward, v) the location of any inflection points, and vi) the behaviour at infinity (if applicable). Then sketch the graph of the function, showing all the information i)–vi) determined above, and also detail near any critical numbers: (a) f (x) = 8x5 − 5x4 − 20x3 (b) g(x) = x1/3 − x2/3 (c) h(t) = t2/3 (t − 2)2