c Math 151 WIR, Spring 2010, Benjamin Aurispa Math 151 Exam 2 Review 1. Use differentials to approximate the value of √ 4 16.2. 2. Find the linear approximation to f (x) = (x − 2)3 at x = 4 and use it to approximate the value of 2.053 . 1 c Math 151 WIR, Spring 2010, Benjamin Aurispa 3. Find the quadratic approximation to f (x) = cos x at x = π3 . 4. Calculate the following limits. x−8 (a) lim x→6+ 1 2 x−6 e5x − e−2x x→∞ e6x − e−4x (b) lim 2 c Math 151 WIR, Spring 2010, Benjamin Aurispa 5. Find an equation of the tangent line to the graph of f (x) = xex 6. Consider the function f (x) = x3 − 4 . x3 − 9 (a) Show that f (x) is one-to-one. (b) Find the inverse of f (x). 3 5 +x at x = 1. c Math 151 WIR, Spring 2010, Benjamin Aurispa 7. Given f (x) = e3x+3 − 4x3 − 2, find g 0 (3) where g is the inverse of f . 8. A 5-meter drawbridge is raised so that the angle of elevation changes at a rate of 0.1 rad/s. At what rate is the height of the drawbridge changing when it is 2 m off the ground? 9. A dog sees a squirrel at the base of a tree 10 ft away. The dog takes off running toward the tree with a speed of 3 ft/s. The squirrel takes off up the tree at the same time with a speed of 5 ft/s. At what rate is the distance between them changing 2 seconds later? 4 c Math 151 WIR, Spring 2010, Benjamin Aurispa 10. A 25-ft long trough has ends which are isosceles triangles with height 5 ft and a length of 4 ft across the top. Water is poured in at a rate of 15 ft3 /min, but water is also leaking out of the trough at a rate of 3 ft3 /min. At what rate is the water level changing when the width of the water across the trough is 2 ft? 11. Calculate the following limits. cos x + tan 9x − 1 x→0 sin x (a) lim x cos 7x sin 4x x→0 3 sin2 10x (b) lim 5 c Math 151 WIR, Spring 2010, Benjamin Aurispa 12. Find the values of x, 0 ≤ x ≤ 2π where the tangent line to f (x) = sin2 x + cos x is horizontal. 3 13. Find y 0 for the equation sin(3x − y) + xy 2 = ex y . 14. Find the slope of the tangent line to the graph of 5x2 y − y 3 = −12 at the point (1, 3). 6 c Math 151 WIR, Spring 2010, Benjamin Aurispa 15. For what value(s) of a are the curves x2 y 2 5 + = and y 2 − 4x2 = 5 orthogonal at the point (1, 3)? 2 a 9 4 16. Find a tangent vector to the curve r(t) =< cos3 3t, 2 sin 5t + cos 4t > at the point where t = π4 . 7 c Math 151 WIR, Spring 2010, Benjamin Aurispa 17. The position of an object is given by the function r(t) =< (a) What is the speed of the particle at time t = 1? (b) What is the acceleration at time t = 1? 18. Find f (29) (x) where f (x) = e−4x + cos 3x. 8 √ t2 + 8t, t >. 3t − 2 c Math 151 WIR, Spring 2010, Benjamin Aurispa 19. Consider the curve x = t2 + 6t, y = 2t3 − 9t2 . (a) Find the slope of the tangent line at the point (−5, −11). (b) Find the points on the curve where the tangent line is horizontal or vertical. 20. Find an equation of the tangent line to the curve x = tan 2t + at the point where t = 0. 9 4 , y = (t2 + 3t + 2)4 − (t + 1)5/2 (t + 1)2 c Math 151 WIR, Spring 2010, Benjamin Aurispa 21. Suppose F (x) = x f f0 g g0 0 2 5 2 −4 1 1 6 1 24 g(7x + 1) + f (5x + g(cos x)) + g(f (3x)). Use the table of values below to find F 0 (0). p 3 2 7 3 −3 −1 22. Show that the function f (x) = e2x cos x satisfies the differential equation y 00 − 4y 0 + 5y = 0. 10 c Math 151 WIR, Spring 2010, Benjamin Aurispa 23. Differentiate the following. √ (a) f (x) = tan2 5x + sec( 3x2 − x3 ) (b) g(t) = 3t2 + 5t 4t3 − t2 (c) h(x) = ( x62 − √ 4 !8 x 8x6 − x)5 (cot 9x + ee ) 11