Chat with AIExam 7: Techniques of Integration
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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The region under the curve 
, 
is rotated about the x-axis. Find the volume of the resulting solid.
, is rotated about the x-axis. Find the volume of the resulting solid. (Multiple Choice)
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(44) Evaluate the integral using integration by parts with the indicated choices of u and dv. 
(Multiple Choice)
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(40) Find the volume of the resulting solid if the region under the curve 
from 
to 
is rotated about the x-axis. Round your answer to four decimal places.
from to is rotated about the x-axis. Round your answer to four decimal places. (Essay)
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(41) 
Use Simpson's Rule to approximate the integral with answers rounded to four decimal places. 
(Multiple Choice)
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(38) 
Determine whether the integral converges or diverges. If it converges, find its value. 
(Short Answer)
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(32) Find the integral using an appropriate trigonometric substitution. 
(Multiple Choice)
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(40) A torus is generated by rotating the circle 
about the x-axis. Find the volume enclosed by the torus. Round the answer to the nearest hundredth.
about the x-axis. Find the volume enclosed by the torus. Round the answer to the nearest hundredth. (Essay)
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(33) 
Eight milligrams of a dye are injected into a vein leading the an individual's heart. The concentration of dye in the aorta (in milligrams per liter) measured at 2-sec intervals is shown in the accompanying table. Use Simpson's Rule with 
and the formula 
to estimate the person's cardiac output, where D is the quantity of dye injected in milligrams, 
is the concentration of the dye in the aorta, and R is measured in liters per minute. Round your answer to one decimal place.
and the formula to estimate the person's cardiac output, where D is the quantity of dye injected in milligrams, is the concentration of the dye in the aorta, and R is measured in liters per minute. Round your answer to one decimal place.
(Short Answer)
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(31) 
Use the Midpoint Rule to approximate the given integral with the specified value of n. Compare your result to the actual value. Find the error in the approximation. 
(Multiple Choice)
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(31) Use Simpson's Rule to approximate the integral with answers rounded to four decimal places. 
(Multiple Choice)
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