Use the equation given below to find f '' (pi/4).
f (x) = sec(x)

The gas law for an ideal gas at absolute temperature T (inkelvins), pressure P (in atmospheres), and volume V (in liters) isPV = nRT, where n is the number of moles of the gas and R = 0.0821is the gas constant. Suppose that, at a certain instant, P = 9.0atm and is increasing at a rate of 0.13 atm/min and V = 14 L and isdecreasing at a rate of 0.16 L/min. Find the rate of change of Twith respect to time at that instant if n = 10 mol. (Round youranswer to four decimal places.)

dT= K/min
dt

Differentiate the following function.
y =
4 + sin x
4x + cos x

2. a. Find the critical numbers for fx)x3-3x2-1. your result from a.) 2 and 8, then finda when Find the absolute maximum value and the absolute minimum value of f(x) = x3-3x2-1 on 1 = [1,4]. (Use b. c. Find the critical number(s) for g (x) = 4x3 3. a. Suppose x, y and s are differentiable functions that are related by the equation s2 - x2 -2y dx ds 10 and y 18. dt dt b. A spherical balloon filled with gas has a slow leak that that causes the gas to leak out of the balloon at the constant rate of 2 m3/min. Find the rate of change of the radius r when r = 5 m. Is the radius increasing or decreasing? (The volume of a sphere of radius r is V = 4. a. Let fx)3+3x2 +1. Find the critical numbers of f and then determine where f is increasing and where f is decreasing. b. Do the same for the function gx) -InGx)-2x. (What is the domain of g? 5. Let f(x) =-x3-3x2 + 5. a. Find the critical numbers of f. b. Determine where f is increasing and where f is decreasing. c. Determine the type of local extremum at each critical number (local maximum, local minimum or neither). 6. Let f(x) =-4x4 + 6x2-12. Determine the intervals where f is concave up and where f is concave down. Also find any inflection points. 7. Let g(x) = 41n(x)-x. a. What is the dornain of g? b. Determine the critical numbers of g and the intervals where g is increasing and where g is decreasing. c. Determine where g is concave up and where g is concave down. Does g have any inflection points? d. Identify any local extrema of g. 8. Sketch the graph of a function f that has the following properties: f is continuous on (-oo,-1), (-1,1) and (1,co); f(-2)s ro)s f(2) = 0; lim,--cof(x) = limx→af(x) = 2; f,(0) = 0; f,(x) >0 on (0,1) and (1.00) f(x) 0 on (-1,1), f-(x)

Ed 9th B Blackboarc x h, ed rds.pd Adobe Read Wind 178 1334 100% Tools Sign (b) If 0 is increasing at the rate of radian per minute, find the when rates of change of the area when 0 /6 and 6 m/3 Explain why the rate of change of the area of the triangle is when not constant even though d6/dt is constant. 16. Volume The radius of a sphere is increasing at a rate of when 3 inches per minute a) Find the rates of c hange of the volume when 9 inches when and 36 inches b) Explain why the rate of change of the volume of the sphere when is not constant even though dr/dt is constant. 17. Volume A spherical balloon is inflated with gas at the rate of when 3, y 800 cubic centimeters per minute. How fast is the radius of the balloon increasing at the instant the radius is a) 30 centi and (b) 60 centimeters when 4, y 18. Volume All edges of a cube are expanding at a ate of 6 centimeters per second. How fast is e volume c hanging In Exercises 5-8, a point is moving along the graph of the given hen each edge is (a) 2 centimeters and (b) 10 centimeters? function such that dxldt is 2 centimeters per second. Find dyldt for the given values of x 19. Surface Area The conditions are the same as Exercise 18 Determine how fast the surfa changing when each edge is (a) 2 centimeters and (b) 10 centimeter 20. Volume The formula for the volume of a cone is V Find the rates of change of the volume if dr/dt is 2 inches per minute and h 3r when (a 6 inches and (b 7. y 21. Volume At a sand and gravel plant sand is falling off a conveyor and onto a conical pile at a rate of 10 cubic feet per minute. The diameter of the base of the cone is approximately WRITING ABOUT CONCEPTS three times the altitude. At what rate is the heigh of the pile changing when the pile is 15 feet high? 9. Consider th e li near function y b. If changes at a constant rate, does y change at a constant rate? If so, does 22. Depth A conical tank (w th vertex down s 10 feet across th change at the same rate as x? Explain. top and 12 feet deep. If water is flowing into the tank at a rate of 10 cubic feet per minute, find the rate of change of the depth 10. In your ow words, state the guidelines for solving related of the water when th e water is 8 feet rate problems 23. Depth A swimming pool is 12 meters long, 6 meters wide 1 meter deep at the shallow end, and 3 meters deep at the deep 11. Find the rate of change of the distance between the origin end (see figure on next page Water is being pumped nto th f dx/di and a moving point n the graph of y pool at L cubic meter per minute. and there is 1 meter of water centimeters per second the deep end. 12. Find the rate of change of the distance between the origin (a) What percent of the pool is filled? f dx/dt and a moving point on the graph of y b) At what ate is th e water leve sing? centimeters per second 13. Area The radius of a circle is increasing at a rate of 4 centimeters per minute. Find the rates of change of the area. when (a 8 centimeters and (b 32 centimeters Comment a A Lueth 18 Research Help 6:30 PM 6/4/2013