Chat with AIExam 12: Section 5: Vector-Valued Functions
Exam 1: Section 1: Preparation for Calculus16 Questions
Exam 1: Section 2: Preparation for Calculus26 Questions
Exam 1: Section 3: Preparation for Calculus23 Questions
Exam 1: Section 4: Preparation for Calculus16 Questions
Exam 1: Section 5: Preparation for Calculus25 Questions
Exam 1: Section 6: Preparation for Calculus8 Questions
Exam 2: Section 1: Limits and Their Properties10 Questions
Exam 2: Section 2: Limits and Their Properties14 Questions
Exam 2: Section 3: Limits and Their Properties25 Questions
Exam 2: Section 4: Limits and Their Properties20 Questions
Exam 2: Section 5 : Limits and Their Properties18 Questions
Exam 3: Section 1 : Differentiation20 Questions
Exam 3: Section 2: Differentiation25 Questions
Exam 3: Section 3: Differentiation26 Questions
Exam 3: Section 4 : Differentiation44 Questions
Exam 3: Section 5: Differentiation30 Questions
Exam 3: Section 6: Differentiation16 Questions
Exam 3: Section 7: Differentiation16 Questions
Exam 3: Section 8: Differentiation12 Questions
Exam 4: Section 1 : Applications of Differentiation19 Questions
Exam 4: Section 2: Applications of Differentiation17 Questions
Exam 4: Section 3: Applications of Differentiation17 Questions
Exam 4: Section 4: Applications of Differentiation26 Questions
Exam 4: Section 5: Applications of Differentiation23 Questions
Exam 4: Section 6: Applications of Differentiation22 Questions
Exam 4: Section 7: Applications of Differentiation15 Questions
Exam 4: Section 8: Applications of Differentiation16 Questions
Exam 4: Section 1: Integration19 Questions
Exam 4: Section 2: Integration17 Questions
Exam 4: Section 3: Integration19 Questions
Exam 4: Section 4: Integration18 Questions
Exam 4: Section 5: Integration31 Questions
Exam 4: Section 6: Integration18 Questions
Exam 4: Section 7: Integration27 Questions
Exam 4: Section 8: Integration16 Questions
Exam 4: Section 9: Integration20 Questions
Exam 6: Section 1: Differential Equations19 Questions
Exam 6: Section 2: Differential Equations25 Questions
Exam 6: Section 3: Differential Equations12 Questions
Exam 6: Section 4: Differential Equations14 Questions
Exam 6: Section 5: Differential Equations17 Questions
Exam 7: Section 1: Applications of Integration18 Questions
Exam 7: Section 2: Applications of Integration18 Questions
Exam 7: Section 3: Applications of Integration17 Questions
Exam 7: Section 4: Applications of Integration18 Questions
Exam 7: Section 5: Applications of Integration16 Questions
Exam 7: Section 6: Applications of Integration19 Questions
Exam 7: Section 7: Applications of Integration15 Questions
Exam 8: Section 1: Integration Techniques, Lhôpitals Rule, and Improper Integrals15 Questions
Exam 8: Section 2: Integration Techniques, Lhôpitals Rule, and Improper Integrals18 Questions
Exam 8: Section 3: Integration Techniques, Lhôpitals Rule, and Improper Integrals20 Questions
Exam 8: Section 4: Integration Techniques, Lhôpitals Rule, and Improper Integrals19 Questions
Exam 8: Section 5: Integration Techniques, Lhôpitals Rule, and Improper Integrals14 Questions
Exam 8: Section 6: Integration Techniques, Lhôpitals Rule, and Improper Integrals15 Questions
Exam 8: Section 7: Integration Techniques, Lhôpitals Rule, and Improper Integrals18 Questions
Exam 8: Section 8: Integration Techniques, Lhôpitals Rule, and Improper Integrals15 Questions
Exam 9: Section 1: Infinite Series17 Questions
Exam 9: Section 2: Infinite Series23 Questions
Exam 9: Section 3: Infinite Series18 Questions
Exam 9: Section 4: Infinite Series21 Questions
Exam 9: Section 5: Infinite Series15 Questions
Exam 9: Section 6: Infinite Series21 Questions
Exam 9: Section 7: Infinite Series18 Questions
Exam 9: Section 8: Infinite Series18 Questions
Exam 9: Section 9: Infinite Series19 Questions
Exam 9: Section 10: Infinite Series16 Questions
Exam 10: Section 1: Conics, Parametric Equations, and Polar Coordinates26 Questions
Exam 10: Section 2: Conics, Parametric Equations, and Polar Coordinates17 Questions
Exam 10: Section 3: Conics, Parametric Equations, and Polar Coordinates22 Questions
Exam 10: Section 4: Conics, Parametric Equations, and Polar Coordinates15 Questions
Exam 10: Section 5: Conics, Parametric Equations, and Polar Coordinates18 Questions
Exam 10: Section 6: Conics, Parametric Equations, and Polar Coordinates19 Questions
Exam 11: Section 1: Vectors and the Geometry of Space20 Questions
Exam 11: Section 2: Vectors and the Geometry of Space21 Questions
Exam 11: Section 3: Vectors and the Geometry of Space18 Questions
Exam 11: Section 4: Vectors and the Geometry of Space18 Questions
Exam 11: Section 5: Vectors and the Geometry of Space21 Questions
Exam 11: Section 6: Vectors and the Geometry of Space20 Questions
Exam 11: Section 7: Vectors and the Geometry of Space19 Questions
Exam 12: Section 1: Vector-Valued Functions21 Questions
Exam 12: Section 2: Vector-Valued Functions24 Questions
Exam 12: Section 3: Vector-Valued Functions18 Questions
Exam 12: Section 4: Vector-Valued Functions20 Questions
Exam 12: Section 5: Vector-Valued Functions19 Questions
Exam 13: Section 1: Functions of Several Variables19 Questions
Exam 13: Section 2: Functions of Several Variables22 Questions
Exam 13: Section 3: Functions of Several Variables23 Questions
Exam 13: Section 4: Functions of Several Variables17 Questions
Exam 13: Section 6: Functions of Several Variables20 Questions
Exam 13: Section 7: Functions of Several Variables20 Questions
Exam 13: Section 8: Functions of Several Variables20 Questions
Exam 13: Section 9: Functions of Several Variables17 Questions
Exam 13: Section 10: Functions of Several Variables18 Questions
Exam 14: Section 1: Multiple Integration20 Questions
Exam 14: Section 2: Multiple Integration19 Questions
Exam 14: Section 3: Multiple Integration20 Questions
Exam 14: Section 4: Multiple Integration18 Questions
Exam 14: Section 5: Multiple Integration18 Questions
Exam 14: Section 6: Multiple Integration19 Questions
Exam 14: Section 7: Multiple Integration19 Questions
Exam 14: Section 8: Multiple Integration19 Questions
Exam 15: Section 1: Vector Analysis21 Questions
Exam 15: Section 2: Vector Analysis18 Questions
Exam 15: Section 3: Vector Analysis18 Questions
Exam 15: Section 4: Vector Analysis18 Questions
Exam 15: Section 5: Vector Analysis21 Questions
Exam 15: Section 6: Vector Analysis18 Questions
Exam 15: Section 7: Vector Analysis18 Questions
Exam 15: Section 8: Vector Analysis17 Questions
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Find the curvature K of the curve given below. 
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Find the arc length for 
over the interval 
. Round your answer to two decimal places. 2 5
over the interval . Round your answer to two decimal places. 2 5Free
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A baseball is hit 3 feet above the ground at 80 feet per second and at an angle of 
with respect to the ground. Find the range. Round your answer to one decimal place.
with respect to the ground. Find the range. Round your answer to one decimal place.Free
(Multiple Choice)
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A 5700-pound vehicle is driven at a speed of 25 miles per hour on a circular interchange of radius 90 feet. To keep the vehicle from skidding off course, what frictional force must the road surface exert on the tires? Round your answer to one decimal place.
(Multiple Choice)
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(36) Find the curvature of the plane curve 
at 
. Round your answer to three decimal places.
at . Round your answer to three decimal places. (Multiple Choice)
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A baseball is hit 5 feet above the ground at 130 feet per second and at an angle of 
with respect to the ground. Find the maximum height. Round your answer to the nearest integer.
with respect to the ground. Find the maximum height. Round your answer to the nearest integer. (Multiple Choice)
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(34) Find the curvature K of the curve 
at the point 
. Round your answer to three decimal places.
at the point . Round your answer to three decimal places. (Multiple Choice)
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(31) 
The smaller the curvature in a bend of a road, the faster a car can travel. Assume that the maximum speed around a turn is inversely proportional to the square root of the curvature. A car moving on the path 
(x and y are measured in miles) can safely go 25 miles per hour at 
. How fast can it go at 
? Round your answer to two decimal places.
(x and y are measured in miles) can safely go 25 miles per hour at . How fast can it go at ? Round your answer to two decimal places. (Multiple Choice)
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(36) A baseball is hit 5 feet above the ground at 140 feet per second and at an angle of 
with respect to the ground. Find the vector-valued function for the path of the baseball.
with respect to the ground. Find the vector-valued function for the path of the baseball. (Multiple Choice)
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(40) Find the point on the curve given below at which the curvature K is zero. 
(Multiple Choice)
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(38) A baseball is hit 3 feet above the ground at 90 feet per second and at an angle of 
with respect to the ground. Find the arc length of the trajectory. Round your answer to one decimal place.
with respect to the ground. Find the arc length of the trajectory. Round your answer to one decimal place. (Multiple Choice)
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(24) Find the radius of curvature of the plane curve 
at 
. Round your answer to three decimal places.
at . Round your answer to three decimal places. (Multiple Choice)
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(37) Find the curvature K of the curve 
at the point 
. Round your answer to three decimal places.
at the point . Round your answer to three decimal places. (Multiple Choice)
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(31) Find the point on the curve 
at which the curvature K is a maximum.
at which the curvature K is a maximum. (Multiple Choice)
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