Chat with AIExam 3: Applications of Differentiation
Exam 1: Functions and Limits117 Questions
Exam 2: Derivatives151 Questions
Exam 3: Applications of Differentiation153 Questions
Exam 4: Integrals95 Questions
Exam 5: Applications of Integration120 Questions
Exam 6: Inverse Functions127 Questions
Exam 7: Techniques of Integration124 Questions
Exam 8: Further Applications of Integration86 Questions
Exam 9: Differential Equations67 Questions
Exam 10: Parametric Equations and Polar Coordinates72 Questions
Exam 11: Infinite Sequences and Series158 Questions
Exam 12: Vectors and the Geometry of Space60 Questions
Exam 13: Vector Functions93 Questions
Exam 14: Partial Derivatives132 Questions
Exam 15: Multiple Integrals124 Questions
Exam 16: Vector Calculus137 Questions
Exam 17: Second-Order Differential Equations63 Questions
Exam 18: Final Exam44 Questions
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on the interval 
Given 
. (a) Find the intervals on which f is increasing or decreasing. (b) Find the relative maxima and relative minima of F.
. (a) Find the intervals on which f is increasing or decreasing. (b) Find the relative maxima and relative minima of F. (Multiple Choice)
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(39)
(39) For what values of 
does the curve have maximum and minimum points for the given function 
?
does the curve have maximum and minimum points for the given function ? (Multiple Choice)
4.8/5 (37)
(37) A ballast is dropped from a stationary hot-air balloon that is at an altitude of 256 ft. Find (a) an expression for the altitude of the ballast after t seconds, (b) the time when it strikes the ground, and (c) its velocity when it strikes the ground. (Disregard air resistance and take 
.)
.) (Essay)
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(32) Find the horizontal and vertical asymptotes of the graph of the function 
.
. (Essay)
4.9/5 (28)
(28) The speed of traffic flow on a certain highway between 6 A.M. and 10 A.M. on a typical weekday is approximated by the functon 
where 
is measured in miles per hour and t is measured in hours, with 
corresponding to 6 A.M. Find the interval where f is increasing, the interval where f is decreasing, and the relative extrema of f. Interpret your results.
where is measured in miles per hour and t is measured in hours, with corresponding to 6 A.M. Find the interval where f is increasing, the interval where f is decreasing, and the relative extrema of f. Interpret your results. (Essay)
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(45) The graph below is the graph of function f on the interval 
Find the absolute maximum and absolute minimum values of f (if they exist) and where they are attained. 
Find the absolute maximum and absolute minimum values of f (if they exist) and where they are attained. (Essay)
4.9/5 (35)
(35) 
The function 
satisfies the hypotheses of Rolle's Theorem on the interval 
. Find all values of c that satisfy the conclusion of the theorem.
satisfies the hypotheses of Rolle's Theorem on the interval . Find all values of c that satisfy the conclusion of the theorem. (Multiple Choice)
4.9/5 (42)
(42) (a) Find the number c whose existence is guaranteed by the Mean Value Theorem for Integrals for the function f on [a, b], and (b) sketch the graph of f on [a, b] and the rectangle with base on [a, b] that has the same area as that of the region under the graph of f.
f (x) = ![(a) Find the number c whose existence is guaranteed by the Mean Value Theorem for Integrals for the function f on [a, b], and (b) sketch the graph of f on [a, b] and the rectangle with base on [a, b] that has the same area as that of the region under the graph of f. f (x) = x<sup>2</sup> + x; [0, 1]](https://storage.examlex.com/TB5971/11eaa3e5_55da_00a2_9f8f_6707d63ed9be_TB5971_11.jpg)
x2 + x; [0, 1]
x2 + x; [0, 1] (Essay)
4.8/5 (38)
(38) Evaluate 
, and tell whether its antiderivative F is increasing or decreasing at the point 
radians.
, and tell whether its antiderivative F is increasing or decreasing at the point radians. (Multiple Choice)
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(40) The function 
satisfies the hypotheses of Rolle's Theorem on the interval 
. Find all values of c that satisfy the conclusion of the theorem.
satisfies the hypotheses of Rolle's Theorem on the interval . Find all values of c that satisfy the conclusion of the theorem. (Multiple Choice)
4.7/5 (32)
(32) Use Newton's method with the specified initial approximation 
to find 
, the third approximation to the root of the given equation. (Give your answer to four decimal places.) 
to find , the third approximation to the root of the given equation. (Give your answer to four decimal places.) (Essay)
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(31) If 
of material is available to make a box with a square base and an open top, find the largest possible volume of the box.
of material is available to make a box with a square base and an open top, find the largest possible volume of the box. (Essay)
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(43) 
, 
You are given the graph of f. Find the horizontal and vertical asymptotes of the graph of f. 
(Essay)
4.8/5 (30)
(30) At 4:00 P.M. a car's speedometer reads 25 
. At 4:15 it reads 72 
. At some time between 4:00 and 4:15 the acceleration is exactly x 
. Find x.
. At 4:15 it reads 72 . At some time between 4:00 and 4:15 the acceleration is exactly x . Find x. (Essay)
4.9/5 (42)
(42) 
in 
to within 0.00001.Use the Second Derivative Test to find the relative extrema, if any, of the function 
.
. (Multiple Choice)
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