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Deck 12: Vector-Valued Functions

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Given the vector-valued function below, evaluate <div style=padding-top: 35px> Given the vector-valued function below, evaluate Given the vector-valued function below, evaluate <div style=padding-top: 35px> Given the vector-valued function below, evaluate <div style=padding-top: 35px>
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Sketch the curve represented by the vector-valued function Sketch the curve represented by the vector-valued function give the orientation of the curve. <div style=padding-top: 35px> give the orientation of the curve. Sketch the curve represented by the vector-valued function give the orientation of the curve. <div style=padding-top: 35px>
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a vector-valued function, using the given parameter, to represent the intersection of the surfaces given below. a vector-valued function, using the given parameter, to represent the intersection of the surfaces given below. <div style=padding-top: 35px> a vector-valued function, using the given parameter, to represent the intersection of the surfaces given below. <div style=padding-top: 35px>
Question
Suppose the outer edge of a playground slide is in the shape of a helix of radius 10.5 meters. The slide has a height of 2 meters and makes one complete revolution from top to bottom.
Find a vector-valued function for the helix. Suppose the outer edge of a playground slide is in the shape of a helix of radius 10.5 meters. The slide has a height of 2 meters and makes one complete revolution from top to bottom. Find a vector-valued function for the helix. <div style=padding-top: 35px>
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Evaluate the limit given below. Evaluate the limit given below. <div style=padding-top: 35px>
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the domain of the vector-valued function given below. the domain of the vector-valued function given below. <div style=padding-top: 35px>
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Find a vector-valued function, using the given parameter, to represent the intersection of the surfaces given below.  Surfaces  Parameter z=x225+y264,y+8x=0x=t\begin{array}{ll}\text { Surfaces } & \text { Parameter } \\z=\frac{x^{2}}{25}+\frac{y^{2}}{64}, y+8 x=0 & x=t\end{array}

A) r(t)=ti8tj+2526t2k\mathbf { r } ( t ) = t \mathbf { i } - 8 t \mathbf { j } + \frac { 25 } { 26 } t ^ { 2 } \mathbf { k }
B) r(t)=ti+2625t2j8tk\mathbf { r } ( t ) = t \mathbf { i } + \frac { 26 } { 25 } t ^ { 2 } \mathbf { j } - 8 t \mathbf { k }
C) r(t)=ti+8tj+2625t2k\mathbf { r } ( t ) = t \mathbf { i } + 8 t \mathbf { j } + \frac { 26 } { 25 } t ^ { 2 } \mathbf { k }
D) r(t)=ti+2526t2j8tk\mathbf { r } ( t ) = t \mathbf { i } + \frac { 25 } { 26 } t ^ { 2 } \mathbf { j } - 8 t \mathbf { k }
E) r(t)=ti8tj+2625t2k\mathbf { r } ( t ) = t \mathbf { i } - 8 t \mathbf { j } + \frac { 26 } { 25 } t ^ { 2 } \mathbf { k }
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Determine the interval on which the vector-valued function Determine the interval on which the vector-valued function <div style=padding-top: 35px>
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<div style=padding-top: 35px> <div style=padding-top: 35px>
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Find a vector-valued function, using the given parameter, to represent the intersection of the surfaces given below.  Surfaces  Parameter z=x2+y2,z=81x=9cos8πt\begin{array}{l}\text { Surfaces }&\text { Parameter }\\z=x^{2}+y^{2}, z=81&x=9 \cos 8 \pi t\end{array}

A) r(t)=9i+9sin8πj+9cos8πk\mathbf { r } ( t ) = 9 \mathbf { i } + 9 \sin 8 \pi \mathbf { j } + 9 \cos 8 \pi \mathbf { k }
B) r(t)=9cos8πi+9sinπj+81k\mathbf { r } ( t ) = 9 \cos 8 \pi \mathbf { i } + 9 \sin \pi \mathbf { j } + 81 \mathbf { k }
C) r(t)=9cos8πi+9sin8πj+9k\mathbf { r } ( t ) = 9 \cos 8 \pi \mathbf { i } + 9 \sin 8 \pi \mathbf { j } + 9 \mathbf { k }
D) r(t)=9cos8πti+81j+9sin8πk\mathbf { r } ( t ) = 9 \cos 8 \pi t \mathbf { i } + 81 \mathbf { j } + 9 \sin 8 \pi \mathbf { k }
E) r(t)=9cos8πi+9sin8πj+81k\mathbf { r } ( t ) = 9 \cos 8 \pi \mathbf { i } + 9 \sin 8 \pi \mathbf { j } + 81 \mathbf { k }
Question
Find a vector-valued function, using the given parameter, to represent the intersection of the surfaces given below.  Surfaces  Parameter x2+y2=25,z=x2x=5sin2πt\begin{array}{ll}\text { Surfaces } & \text { Parameter } \\x^{2}+y^{2}=25, z=x^{2} & x=5 \sin 2 \pi t\end{array}

A) r(t)=25sin2πti+25cos2πtj5sin22πtk\mathbf { r } ( t ) = 25 \sin 2 \pi t \mathbf { i } + 25 \cos 2 \pi t \mathbf { j } - 5 \sin ^ { 2 } 2 \pi t \mathbf { k }
B) r(t)=5sin2πtj+5cos2πti+25sin22πk\mathbf { r } ( t ) = 5 \sin 2 \pi t \mathbf { j } + 5 \cos 2 \pi t \mathbf { i } + 25 \sin ^ { 2 } 2 \pi \mathbf { k }
C) r(t)=5sin2πti+5cos2πtj25sin22πk\mathbf { r } ( t ) = 5 \sin 2 \pi t \mathbf { i } + 5 \cos 2 \pi t \mathbf { j } - 25 \sin ^ { 2 } 2 \pi \mathbf { k }
D) r(t)=5sin2πti+5cos2πtj+25sin22πtk\mathbf { r } ( t ) = 5 \sin 2 \pi t \mathbf { i } + 5 \cos 2 \pi t \mathbf { j } + 25 \sin ^ { 2 } 2 \pi t \mathbf { k }
E) r(t)=25sin2πi+25cos2πtj+5sin22πtk\mathbf { r } ( t ) = 25 \sin 2 \pi \mathbf { i } + 25 \cos 2 \pi t \mathbf { j } + 5 \sin ^ { 2 } 2 \pi t \mathbf { k }
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the domain of the vector-valued function given below. the domain of the vector-valued function given below. <div style=padding-top: 35px>
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<div style=padding-top: 35px> <div style=padding-top: 35px>
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Sketch the curve represented by the vector-valued function Sketch the curve represented by the vector-valued function and give the orientation of the curve. <div style=padding-top: 35px> and give the orientation of the curve. Sketch the curve represented by the vector-valued function and give the orientation of the curve. <div style=padding-top: 35px>
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Match the equation with the graph shown in red below. Match the equation with the graph shown in red below. <div style=padding-top: 35px> Match the equation with the graph shown in red below. <div style=padding-top: 35px>
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Evaluate the limit given below. Evaluate the limit given below. <div style=padding-top: 35px>
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Suppose the two particles travel along the space curves Suppose the two particles travel along the space curves <div style=padding-top: 35px>
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Represent the following curve by a vector-valued function. Represent the following curve by a vector-valued function. <div style=padding-top: 35px>
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graph below is most likely the graph of which of the following equations? graph below is most likely the graph of which of the following equations? <div style=padding-top: 35px>
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<div style=padding-top: 35px> <div style=padding-top: 35px>
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<div style=padding-top: 35px> <div style=padding-top: 35px>
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the open interval on which the curve given by the vector-valued function the open interval on which the curve given by the vector-valued function <div style=padding-top: 35px>
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the xy-plane. Sketch a graph of the path and sketch the velocity and acceleration vectors at the point <div style=padding-top: 35px> the xy-plane. Sketch a graph of the path and sketch the velocity and acceleration vectors at the point the xy-plane. Sketch a graph of the path and sketch the velocity and acceleration vectors at the point <div style=padding-top: 35px> the xy-plane. Sketch a graph of the path and sketch the velocity and acceleration vectors at the point <div style=padding-top: 35px>
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<div style=padding-top: 35px> <div style=padding-top: 35px>
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<div style=padding-top: 35px> <div style=padding-top: 35px>
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<div style=padding-top: 35px> <div style=padding-top: 35px>
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Evaluate the definite integral below. Evaluate the definite integral below. <div style=padding-top: 35px>
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the indefinite integral below. the indefinite integral below. <div style=padding-top: 35px>
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<div style=padding-top: 35px> <div style=padding-top: 35px>
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Use the properties of the derivative to find vector-valued functions. <div style=padding-top: 35px> Use the properties of the derivative to find vector-valued functions. Use the properties of the derivative to find vector-valued functions. <div style=padding-top: 35px> Use the properties of the derivative to find vector-valued functions. <div style=padding-top: 35px>
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Use the properties of the derivative to find vector-valued functions. <div style=padding-top: 35px> Use the properties of the derivative to find vector-valued functions. Use the properties of the derivative to find vector-valued functions. <div style=padding-top: 35px>
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Use the properties of the derivative to find vector-valued functions. <div style=padding-top: 35px> Use the properties of the derivative to find vector-valued functions. Use the properties of the derivative to find vector-valued functions. <div style=padding-top: 35px>
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<div style=padding-top: 35px> <div style=padding-top: 35px>
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the properties of the derivative to find the properties of the derivative to find vector-valued functions. <div style=padding-top: 35px> vector-valued functions. the properties of the derivative to find vector-valued functions. <div style=padding-top: 35px>
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particle moves in the yz-plane along the curve represented by the vector-valued particle moves in the yz-plane along the curve represented by the vector-valued <div style=padding-top: 35px>
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vector-valued functions. <div style=padding-top: 35px> vector-valued functions. vector-valued functions. <div style=padding-top: 35px>
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<div style=padding-top: 35px> <div style=padding-top: 35px>
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particle moves in the yz-plane along the curve represented by the vector-valued particle moves in the yz-plane along the curve represented by the vector-valued <div style=padding-top: 35px>
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the indefinite integral below. the indefinite integral below. <div style=padding-top: 35px>
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baseball player at second base throws a ball 87 feet to the player at first base. The ball is thrown 5 feet above the ground with an initial velocity of 50 miles per hour and at an angle of
Above the horizontal. At which height does the player at first base catch the ball? Round your
Answer to three decimal places.

A)7.576 feet
B)6.676 feet
C)5.476 feet
D)6.076 feet
E)5.576 feet
Question
Determine the maximum height of a projectile fired at a height of 6 feet above the ground with an initial velocity of 700 feet per second and at an angle of <strong>Determine the maximum height of a projectile fired at a height of 6 feet above the ground with an initial velocity of 700 feet per second and at an angle of Use the model for projectile motion, assuming there is no air resistance. Round your answer to three Decimal places.</strong> A)14,289.757 feet B)14,292.757 feet C)7,146.378 feet D)7,149.378 feet E)14,298.757 feet <div style=padding-top: 35px> Use the model for projectile motion, assuming there is no air resistance. Round your answer to three
Decimal places.

A)14,289.757 feet
B)14,292.757 feet
C)7,146.378 feet
D)7,149.378 feet
E)14,298.757 feet
Question
quarterback of a football team releases a pass at a height of 6 feet above the playing field, and the football is caught by a receiver 42 yards directly downfield at a height of 3 feet.
The pass is released at an angle of <strong>quarterback of a football team releases a pass at a height of 6 feet above the playing field, and the football is caught by a receiver 42 yards directly downfield at a height of 3 feet. The pass is released at an angle of Round your answer to one decimal place.</strong> A)-295.8 feet B)-194.1 feet C)-278.9 feet D)-224.3 feet E)-197.7 feet <div style=padding-top: 35px> Round your answer to one decimal place.

A)-295.8 feet
B)-194.1 feet
C)-278.9 feet
D)-224.3 feet
E)-197.7 feet
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<strong> three decimal places.</strong> A)11.077 B)7.310 C)11.797 D)5.898 E)5.538 <div style=padding-top: 35px> three decimal places.

A)11.077
B)7.310
C)11.797
D)5.898
E)5.538
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<div style=padding-top: 35px> <div style=padding-top: 35px>
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the principle unit normal vector to the curve given below at the specified point. the principle unit normal vector to the curve given below at the specified point. <div style=padding-top: 35px>
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Determine the range of a projectile fired at a height of 5 feet above the ground with an initial velocity of 1000 feet per second and at an angle of <strong>Determine the range of a projectile fired at a height of 5 feet above the ground with an initial velocity of 1000 feet per second and at an angle of for projectile motion, assuming there is no air resistance. Round your answer to three decimal places.</strong> A)15,627.500 feet B)8,137.843 feet C)31,252.187 feet D)31,254.999 feet E)16,268.138 feet <div style=padding-top: 35px> for projectile motion, assuming there is no air resistance. Round your answer to three decimal places.

A)15,627.500 feet
B)8,137.843 feet
C)31,252.187 feet
D)31,254.999 feet
E)16,268.138 feet
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the unit tangent vector to the curve given below at the specified point. the unit tangent vector to the curve given below at the specified point. <div style=padding-top: 35px>
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the principle unit normal vector to the curve given below at the specified point. the principle unit normal vector to the curve given below at the specified point. <div style=padding-top: 35px>
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the given acceleration function and initial conditions to find the position at time t = 3. the given acceleration function and initial conditions to find the position at time t = 3. <div style=padding-top: 35px>
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<div style=padding-top: 35px> <div style=padding-top: 35px>
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<div style=padding-top: 35px> <div style=padding-top: 35px>
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quarterback of a football team releases a pass at a height of 8 feet above the playing field, and the football is caught by a receiver 38 yards directly downfield at a height of 4 feet.
The pass is released at an angle of <strong>quarterback of a football team releases a pass at a height of 8 feet above the playing field, and the football is caught by a receiver 38 yards directly downfield at a height of 4 feet. The pass is released at an angle of released. Round your answer to three decimal places.</strong> A)33.169 feet per second B)59.366 feet per second C)19.462 feet per second D)118.732 feet per second <div style=padding-top: 35px> released. Round your answer to three decimal places.

A)33.169 feet per second
B)59.366 feet per second
C)19.462 feet per second
D)118.732 feet per second
Question
quarterback of a football team releases a pass at a height of 6 feet above the playing field, and the football is caught by a receiver 34 yards directly downfield at a height of 3 feet.
The pass is released at an angle of <strong>quarterback of a football team releases a pass at a height of 6 feet above the playing field, and the football is caught by a receiver 34 yards directly downfield at a height of 3 feet. The pass is released at an angle of to reach the proper position after the quarterback releases the football. Round your answer to one Decimal place.</strong> A)0.8 second B)4.6 seconds C)7.8 seconds D)1.3 seconds E)2.6 seconds <div style=padding-top: 35px> to reach the proper position after the quarterback releases the football. Round your answer to one
Decimal place.

A)0.8 second
B)4.6 seconds
C)7.8 seconds
D)1.3 seconds
E)2.6 seconds
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<strong> three decimal places.</strong> A)6.581 B)4.818 C)3.407 D)2.154 E)4.962 <div style=padding-top: 35px> three decimal places.

A)6.581
B)4.818
C)3.407
D)2.154
E)4.962
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the principle unit normal vector to the curve given below at the specified point. the principle unit normal vector to the curve given below at the specified point. <div style=padding-top: 35px>
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the given acceleration function and initial conditions to find the position at time t the given acceleration function and initial conditions to find the position at time t <div style=padding-top: 35px>
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the given acceleration function and initial conditions to find the position at time t = 1. the given acceleration function and initial conditions to find the position at time t = 1. <div style=padding-top: 35px>
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the unit tangent vector the unit tangent vector <div style=padding-top: 35px> the unit tangent vector <div style=padding-top: 35px>
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the unit tangent vector to the curve given below at the specified point. the unit tangent vector to the curve given below at the specified point. <div style=padding-top: 35px>
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<strong> three decimal places.</strong> A)18.724 B)23.792 C)22.264 D)15.179 E)22.764 <div style=padding-top: 35px> three decimal places.

A)18.724
B)23.792
C)22.264
D)15.179
E)22.764
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the curvature K of the curve <strong>the curvature K of the curve answer to three decimal places.</strong> A)0.883 B)0.994 C)0.019 D)0.012 E)0.017 <div style=padding-top: 35px> answer to three decimal places.

A)0.883
B)0.994
C)0.019
D)0.012
E)0.017
Question
<strong> three decimal places.</strong> A)-40.625 B)-39.209 C)-111.667 D)-46.016 E)-43.988 <div style=padding-top: 35px> three decimal places.

A)-40.625
B)-39.209
C)-111.667
D)-46.016
E)-43.988
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the radius of curvature of the plane curve <strong>the radius of curvature of the plane curve your answer to three decimal places.</strong> A)24.694 B)85.333 C)28.133 D)34.510 E)37.510 <div style=padding-top: 35px> your answer to three decimal places.

A)24.694
B)85.333
C)28.133
D)34.510
E)37.510
Question
<strong> answer to three decimal places.</strong> A)0.062 B)0.071 C)0.659 D)0.000 E)0.753 <div style=padding-top: 35px> answer to three decimal places.

A)0.062
B)0.071
C)0.659
D)0.000
E)0.753
Question
baseball is hit 5 feet above the ground at 140 feet per second and at an angle of 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. <div style=padding-top: 35px> with respect to the ground. Find the vector-valued function for the path of the baseball. 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. <div style=padding-top: 35px>
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the length of the plane curve given below. the length of the plane curve given below. <div style=padding-top: 35px>
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baseball is hit 3 feet above the ground at 80 feet per second and at an angle of <strong>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.</strong> A)203 feet B)259.5 feet C)275.7 feet D)386.6 feet E)215.6 feet <div style=padding-top: 35px> with respect to the ground. Find the range. Round your answer to one decimal place.

A)203 feet
B)259.5 feet
C)275.7 feet
D)386.6 feet
E)215.6 feet
Question
<strong> answer to three decimal places.</strong> A)0.970 B)0.465 C)0.930 D)1.814 E)1.060 <div style=padding-top: 35px> answer to three decimal places.

A)0.970
B)0.465
C)0.930
D)1.814
E)1.060
Question
baseball is hit 3 feet above the ground at 80 feet per second and at an angle of <strong>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 maximum height. Round your answer to the nearest integer.</strong> A)66 feet B)65 feet C)53 feet D)56 feet E)61 feet <div style=padding-top: 35px> with respect to the ground. Find the maximum height. Round your answer to the nearest integer.

A)66 feet
B)65 feet
C)53 feet
D)56 feet
E)61 feet
Question
baseball is hit 5 feet above the ground at 95 feet per second and at an angle of <strong>baseball is hit 5 feet above the ground at 95 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.</strong> A)270.8 feet B)298 feet C)293.7 feet D)239.1 feet E)330.7 feet <div style=padding-top: 35px> with respect to the ground. Find the arc length of the trajectory. Round your answer to one decimal place.

A)270.8 feet
B)298 feet
C)293.7 feet
D)239.1 feet
E)330.7 feet
Question
Because of a storm, ground controllers instruct the pilot of a plane flying at an altitude of 1.6 miles to make a <strong>Because of a storm, ground controllers instruct the pilot of a plane flying at an altitude of 1.6 miles to make a of the plane during this maneuver is time in hours and is the distance in miles. Determine the speed of the plane. Round your answer to The nearest integer.</strong> A)50 mi/h B)16 mi/h C)54 mi/h D)34 mi/h E)79 mi/h <div style=padding-top: 35px> of the plane during this maneuver is <strong>Because of a storm, ground controllers instruct the pilot of a plane flying at an altitude of 1.6 miles to make a of the plane during this maneuver is time in hours and is the distance in miles. Determine the speed of the plane. Round your answer to The nearest integer.</strong> A)50 mi/h B)16 mi/h C)54 mi/h D)34 mi/h E)79 mi/h <div style=padding-top: 35px> time in hours and is the distance in miles. Determine the speed of the plane. Round your answer to
The nearest integer.

A)50 mi/h
B)16 mi/h
C)54 mi/h
D)34 mi/h
E)79 mi/h
Question
the arc length for <strong>the arc length for answer to two decimal places.</strong> A)67.63 B)73.37 C)79.40 D)49.75 E)62.97 <div style=padding-top: 35px> answer to two decimal places.

A)67.63
B)73.37
C)79.40
D)49.75
E)62.97
Question
<strong> </strong> A)16 B)0 C)5 D)25 E)4 <div style=padding-top: 35px>

A)16
B)0
C)5
D)25
E)4
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the length of the space curve given below. the length of the space curve given below. <div style=padding-top: 35px>
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the curvature K of the curve given below. the curvature K of the curve given below. <div style=padding-top: 35px> the curvature K of the curve given below. <div style=padding-top: 35px>
Question
the curvature K of the curve <strong>the curvature K of the curve Round your answer to three decimal places.</strong> A)7.286 B)9.952 C)0.021 D)0.014 E)0.009 <div style=padding-top: 35px> Round your answer to three decimal places.

A)7.286
B)9.952
C)0.021
D)0.014
E)0.009
Question
the curvature of the plane curve <strong>the curvature of the plane curve three decimal places.</strong> A)0.498 B)0.332 C)0.015 D)0.005 E)0.003 <div style=padding-top: 35px> three decimal places.

A)0.498
B)0.332
C)0.015
D)0.005
E)0.003
Question
<strong> answer to three decimal places.</strong> A)0.781 B)0.724 C)0.343 D)0.686 E)0.649 <div style=padding-top: 35px> answer to three decimal places.

A)0.781
B)0.724
C)0.343
D)0.686
E)0.649
Question
the point on the curve the point on the curve maximum. <div style=padding-top: 35px> maximum. the point on the curve maximum. <div style=padding-top: 35px>
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Deck 12: Vector-Valued Functions
1
E
2
Given the vector-valued function below, evaluate Given the vector-valued function below, evaluate Given the vector-valued function below, evaluate Given the vector-valued function below, evaluate
C
3
Sketch the curve represented by the vector-valued function Sketch the curve represented by the vector-valued function give the orientation of the curve. give the orientation of the curve. Sketch the curve represented by the vector-valued function give the orientation of the curve.
C
4
a vector-valued function, using the given parameter, to represent the intersection of the surfaces given below. a vector-valued function, using the given parameter, to represent the intersection of the surfaces given below. a vector-valued function, using the given parameter, to represent the intersection of the surfaces given below.
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5
Suppose the outer edge of a playground slide is in the shape of a helix of radius 10.5 meters. The slide has a height of 2 meters and makes one complete revolution from top to bottom.
Find a vector-valued function for the helix. Suppose the outer edge of a playground slide is in the shape of a helix of radius 10.5 meters. The slide has a height of 2 meters and makes one complete revolution from top to bottom. Find a vector-valued function for the helix.
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6
Evaluate the limit given below. Evaluate the limit given below.
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the domain of the vector-valued function given below. the domain of the vector-valued function given below.
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Find a vector-valued function, using the given parameter, to represent the intersection of the surfaces given below.  Surfaces  Parameter z=x225+y264,y+8x=0x=t\begin{array}{ll}\text { Surfaces } & \text { Parameter } \\z=\frac{x^{2}}{25}+\frac{y^{2}}{64}, y+8 x=0 & x=t\end{array}

A) r(t)=ti8tj+2526t2k\mathbf { r } ( t ) = t \mathbf { i } - 8 t \mathbf { j } + \frac { 25 } { 26 } t ^ { 2 } \mathbf { k }
B) r(t)=ti+2625t2j8tk\mathbf { r } ( t ) = t \mathbf { i } + \frac { 26 } { 25 } t ^ { 2 } \mathbf { j } - 8 t \mathbf { k }
C) r(t)=ti+8tj+2625t2k\mathbf { r } ( t ) = t \mathbf { i } + 8 t \mathbf { j } + \frac { 26 } { 25 } t ^ { 2 } \mathbf { k }
D) r(t)=ti+2526t2j8tk\mathbf { r } ( t ) = t \mathbf { i } + \frac { 25 } { 26 } t ^ { 2 } \mathbf { j } - 8 t \mathbf { k }
E) r(t)=ti8tj+2625t2k\mathbf { r } ( t ) = t \mathbf { i } - 8 t \mathbf { j } + \frac { 26 } { 25 } t ^ { 2 } \mathbf { k }
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9
Determine the interval on which the vector-valued function Determine the interval on which the vector-valued function
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10
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11
Find a vector-valued function, using the given parameter, to represent the intersection of the surfaces given below.  Surfaces  Parameter z=x2+y2,z=81x=9cos8πt\begin{array}{l}\text { Surfaces }&\text { Parameter }\\z=x^{2}+y^{2}, z=81&x=9 \cos 8 \pi t\end{array}

A) r(t)=9i+9sin8πj+9cos8πk\mathbf { r } ( t ) = 9 \mathbf { i } + 9 \sin 8 \pi \mathbf { j } + 9 \cos 8 \pi \mathbf { k }
B) r(t)=9cos8πi+9sinπj+81k\mathbf { r } ( t ) = 9 \cos 8 \pi \mathbf { i } + 9 \sin \pi \mathbf { j } + 81 \mathbf { k }
C) r(t)=9cos8πi+9sin8πj+9k\mathbf { r } ( t ) = 9 \cos 8 \pi \mathbf { i } + 9 \sin 8 \pi \mathbf { j } + 9 \mathbf { k }
D) r(t)=9cos8πti+81j+9sin8πk\mathbf { r } ( t ) = 9 \cos 8 \pi t \mathbf { i } + 81 \mathbf { j } + 9 \sin 8 \pi \mathbf { k }
E) r(t)=9cos8πi+9sin8πj+81k\mathbf { r } ( t ) = 9 \cos 8 \pi \mathbf { i } + 9 \sin 8 \pi \mathbf { j } + 81 \mathbf { k }
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12
Find a vector-valued function, using the given parameter, to represent the intersection of the surfaces given below.  Surfaces  Parameter x2+y2=25,z=x2x=5sin2πt\begin{array}{ll}\text { Surfaces } & \text { Parameter } \\x^{2}+y^{2}=25, z=x^{2} & x=5 \sin 2 \pi t\end{array}

A) r(t)=25sin2πti+25cos2πtj5sin22πtk\mathbf { r } ( t ) = 25 \sin 2 \pi t \mathbf { i } + 25 \cos 2 \pi t \mathbf { j } - 5 \sin ^ { 2 } 2 \pi t \mathbf { k }
B) r(t)=5sin2πtj+5cos2πti+25sin22πk\mathbf { r } ( t ) = 5 \sin 2 \pi t \mathbf { j } + 5 \cos 2 \pi t \mathbf { i } + 25 \sin ^ { 2 } 2 \pi \mathbf { k }
C) r(t)=5sin2πti+5cos2πtj25sin22πk\mathbf { r } ( t ) = 5 \sin 2 \pi t \mathbf { i } + 5 \cos 2 \pi t \mathbf { j } - 25 \sin ^ { 2 } 2 \pi \mathbf { k }
D) r(t)=5sin2πti+5cos2πtj+25sin22πtk\mathbf { r } ( t ) = 5 \sin 2 \pi t \mathbf { i } + 5 \cos 2 \pi t \mathbf { j } + 25 \sin ^ { 2 } 2 \pi t \mathbf { k }
E) r(t)=25sin2πi+25cos2πtj+5sin22πtk\mathbf { r } ( t ) = 25 \sin 2 \pi \mathbf { i } + 25 \cos 2 \pi t \mathbf { j } + 5 \sin ^ { 2 } 2 \pi t \mathbf { k }
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13
the domain of the vector-valued function given below. the domain of the vector-valued function given below.
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14
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15
Sketch the curve represented by the vector-valued function Sketch the curve represented by the vector-valued function and give the orientation of the curve. and give the orientation of the curve. Sketch the curve represented by the vector-valued function and give the orientation of the curve.
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16
Match the equation with the graph shown in red below. Match the equation with the graph shown in red below. Match the equation with the graph shown in red below.
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17
Evaluate the limit given below. Evaluate the limit given below.
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18
Suppose the two particles travel along the space curves Suppose the two particles travel along the space curves
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19
Represent the following curve by a vector-valued function. Represent the following curve by a vector-valued function.
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20
graph below is most likely the graph of which of the following equations? graph below is most likely the graph of which of the following equations?
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21
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22
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23
the open interval on which the curve given by the vector-valued function the open interval on which the curve given by the vector-valued function
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24
the xy-plane. Sketch a graph of the path and sketch the velocity and acceleration vectors at the point the xy-plane. Sketch a graph of the path and sketch the velocity and acceleration vectors at the point the xy-plane. Sketch a graph of the path and sketch the velocity and acceleration vectors at the point the xy-plane. Sketch a graph of the path and sketch the velocity and acceleration vectors at the point
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25
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26
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27
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28
Evaluate the definite integral below. Evaluate the definite integral below.
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29
the indefinite integral below. the indefinite integral below.
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30
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31
Use the properties of the derivative to find vector-valued functions. Use the properties of the derivative to find vector-valued functions. Use the properties of the derivative to find vector-valued functions. Use the properties of the derivative to find vector-valued functions.
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32
Use the properties of the derivative to find vector-valued functions. Use the properties of the derivative to find vector-valued functions. Use the properties of the derivative to find vector-valued functions.
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33
Use the properties of the derivative to find vector-valued functions. Use the properties of the derivative to find vector-valued functions. Use the properties of the derivative to find vector-valued functions.
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34
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35
the properties of the derivative to find the properties of the derivative to find vector-valued functions. vector-valued functions. the properties of the derivative to find vector-valued functions.
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36
particle moves in the yz-plane along the curve represented by the vector-valued particle moves in the yz-plane along the curve represented by the vector-valued
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37
vector-valued functions. vector-valued functions. vector-valued functions.
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38
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39
particle moves in the yz-plane along the curve represented by the vector-valued particle moves in the yz-plane along the curve represented by the vector-valued
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40
the indefinite integral below. the indefinite integral below.
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41
baseball player at second base throws a ball 87 feet to the player at first base. The ball is thrown 5 feet above the ground with an initial velocity of 50 miles per hour and at an angle of
Above the horizontal. At which height does the player at first base catch the ball? Round your
Answer to three decimal places.

A)7.576 feet
B)6.676 feet
C)5.476 feet
D)6.076 feet
E)5.576 feet
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42
Determine the maximum height of a projectile fired at a height of 6 feet above the ground with an initial velocity of 700 feet per second and at an angle of <strong>Determine the maximum height of a projectile fired at a height of 6 feet above the ground with an initial velocity of 700 feet per second and at an angle of Use the model for projectile motion, assuming there is no air resistance. Round your answer to three Decimal places.</strong> A)14,289.757 feet B)14,292.757 feet C)7,146.378 feet D)7,149.378 feet E)14,298.757 feet Use the model for projectile motion, assuming there is no air resistance. Round your answer to three
Decimal places.

A)14,289.757 feet
B)14,292.757 feet
C)7,146.378 feet
D)7,149.378 feet
E)14,298.757 feet
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43
quarterback of a football team releases a pass at a height of 6 feet above the playing field, and the football is caught by a receiver 42 yards directly downfield at a height of 3 feet.
The pass is released at an angle of <strong>quarterback of a football team releases a pass at a height of 6 feet above the playing field, and the football is caught by a receiver 42 yards directly downfield at a height of 3 feet. The pass is released at an angle of Round your answer to one decimal place.</strong> A)-295.8 feet B)-194.1 feet C)-278.9 feet D)-224.3 feet E)-197.7 feet Round your answer to one decimal place.

A)-295.8 feet
B)-194.1 feet
C)-278.9 feet
D)-224.3 feet
E)-197.7 feet
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44
<strong> three decimal places.</strong> A)11.077 B)7.310 C)11.797 D)5.898 E)5.538 three decimal places.

A)11.077
B)7.310
C)11.797
D)5.898
E)5.538
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45
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46
the principle unit normal vector to the curve given below at the specified point. the principle unit normal vector to the curve given below at the specified point.
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47
Determine the range of a projectile fired at a height of 5 feet above the ground with an initial velocity of 1000 feet per second and at an angle of <strong>Determine the range of a projectile fired at a height of 5 feet above the ground with an initial velocity of 1000 feet per second and at an angle of for projectile motion, assuming there is no air resistance. Round your answer to three decimal places.</strong> A)15,627.500 feet B)8,137.843 feet C)31,252.187 feet D)31,254.999 feet E)16,268.138 feet for projectile motion, assuming there is no air resistance. Round your answer to three decimal places.

A)15,627.500 feet
B)8,137.843 feet
C)31,252.187 feet
D)31,254.999 feet
E)16,268.138 feet
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48
the unit tangent vector to the curve given below at the specified point. the unit tangent vector to the curve given below at the specified point.
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49
the principle unit normal vector to the curve given below at the specified point. the principle unit normal vector to the curve given below at the specified point.
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50
the given acceleration function and initial conditions to find the position at time t = 3. the given acceleration function and initial conditions to find the position at time t = 3.
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51
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52
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53
quarterback of a football team releases a pass at a height of 8 feet above the playing field, and the football is caught by a receiver 38 yards directly downfield at a height of 4 feet.
The pass is released at an angle of <strong>quarterback of a football team releases a pass at a height of 8 feet above the playing field, and the football is caught by a receiver 38 yards directly downfield at a height of 4 feet. The pass is released at an angle of released. Round your answer to three decimal places.</strong> A)33.169 feet per second B)59.366 feet per second C)19.462 feet per second D)118.732 feet per second released. Round your answer to three decimal places.

A)33.169 feet per second
B)59.366 feet per second
C)19.462 feet per second
D)118.732 feet per second
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54
quarterback of a football team releases a pass at a height of 6 feet above the playing field, and the football is caught by a receiver 34 yards directly downfield at a height of 3 feet.
The pass is released at an angle of <strong>quarterback of a football team releases a pass at a height of 6 feet above the playing field, and the football is caught by a receiver 34 yards directly downfield at a height of 3 feet. The pass is released at an angle of to reach the proper position after the quarterback releases the football. Round your answer to one Decimal place.</strong> A)0.8 second B)4.6 seconds C)7.8 seconds D)1.3 seconds E)2.6 seconds to reach the proper position after the quarterback releases the football. Round your answer to one
Decimal place.

A)0.8 second
B)4.6 seconds
C)7.8 seconds
D)1.3 seconds
E)2.6 seconds
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55
<strong> three decimal places.</strong> A)6.581 B)4.818 C)3.407 D)2.154 E)4.962 three decimal places.

A)6.581
B)4.818
C)3.407
D)2.154
E)4.962
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56
the principle unit normal vector to the curve given below at the specified point. the principle unit normal vector to the curve given below at the specified point.
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57
the given acceleration function and initial conditions to find the position at time t the given acceleration function and initial conditions to find the position at time t
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58
the given acceleration function and initial conditions to find the position at time t = 1. the given acceleration function and initial conditions to find the position at time t = 1.
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59
the unit tangent vector the unit tangent vector the unit tangent vector
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60
the unit tangent vector to the curve given below at the specified point. the unit tangent vector to the curve given below at the specified point.
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61
<strong> three decimal places.</strong> A)18.724 B)23.792 C)22.264 D)15.179 E)22.764 three decimal places.

A)18.724
B)23.792
C)22.264
D)15.179
E)22.764
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62
the curvature K of the curve <strong>the curvature K of the curve answer to three decimal places.</strong> A)0.883 B)0.994 C)0.019 D)0.012 E)0.017 answer to three decimal places.

A)0.883
B)0.994
C)0.019
D)0.012
E)0.017
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63
<strong> three decimal places.</strong> A)-40.625 B)-39.209 C)-111.667 D)-46.016 E)-43.988 three decimal places.

A)-40.625
B)-39.209
C)-111.667
D)-46.016
E)-43.988
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64
the radius of curvature of the plane curve <strong>the radius of curvature of the plane curve your answer to three decimal places.</strong> A)24.694 B)85.333 C)28.133 D)34.510 E)37.510 your answer to three decimal places.

A)24.694
B)85.333
C)28.133
D)34.510
E)37.510
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65
<strong> answer to three decimal places.</strong> A)0.062 B)0.071 C)0.659 D)0.000 E)0.753 answer to three decimal places.

A)0.062
B)0.071
C)0.659
D)0.000
E)0.753
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66
baseball is hit 5 feet above the ground at 140 feet per second and at an angle of 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. 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.
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67
the length of the plane curve given below. the length of the plane curve given below.
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68
baseball is hit 3 feet above the ground at 80 feet per second and at an angle of <strong>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.</strong> A)203 feet B)259.5 feet C)275.7 feet D)386.6 feet E)215.6 feet with respect to the ground. Find the range. Round your answer to one decimal place.

A)203 feet
B)259.5 feet
C)275.7 feet
D)386.6 feet
E)215.6 feet
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69
<strong> answer to three decimal places.</strong> A)0.970 B)0.465 C)0.930 D)1.814 E)1.060 answer to three decimal places.

A)0.970
B)0.465
C)0.930
D)1.814
E)1.060
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70
baseball is hit 3 feet above the ground at 80 feet per second and at an angle of <strong>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 maximum height. Round your answer to the nearest integer.</strong> A)66 feet B)65 feet C)53 feet D)56 feet E)61 feet with respect to the ground. Find the maximum height. Round your answer to the nearest integer.

A)66 feet
B)65 feet
C)53 feet
D)56 feet
E)61 feet
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71
baseball is hit 5 feet above the ground at 95 feet per second and at an angle of <strong>baseball is hit 5 feet above the ground at 95 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.</strong> A)270.8 feet B)298 feet C)293.7 feet D)239.1 feet E)330.7 feet with respect to the ground. Find the arc length of the trajectory. Round your answer to one decimal place.

A)270.8 feet
B)298 feet
C)293.7 feet
D)239.1 feet
E)330.7 feet
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72
Because of a storm, ground controllers instruct the pilot of a plane flying at an altitude of 1.6 miles to make a <strong>Because of a storm, ground controllers instruct the pilot of a plane flying at an altitude of 1.6 miles to make a of the plane during this maneuver is time in hours and is the distance in miles. Determine the speed of the plane. Round your answer to The nearest integer.</strong> A)50 mi/h B)16 mi/h C)54 mi/h D)34 mi/h E)79 mi/h of the plane during this maneuver is <strong>Because of a storm, ground controllers instruct the pilot of a plane flying at an altitude of 1.6 miles to make a of the plane during this maneuver is time in hours and is the distance in miles. Determine the speed of the plane. Round your answer to The nearest integer.</strong> A)50 mi/h B)16 mi/h C)54 mi/h D)34 mi/h E)79 mi/h time in hours and is the distance in miles. Determine the speed of the plane. Round your answer to
The nearest integer.

A)50 mi/h
B)16 mi/h
C)54 mi/h
D)34 mi/h
E)79 mi/h
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73
the arc length for <strong>the arc length for answer to two decimal places.</strong> A)67.63 B)73.37 C)79.40 D)49.75 E)62.97 answer to two decimal places.

A)67.63
B)73.37
C)79.40
D)49.75
E)62.97
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74
<strong> </strong> A)16 B)0 C)5 D)25 E)4

A)16
B)0
C)5
D)25
E)4
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75
the length of the space curve given below. the length of the space curve given below.
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76
the curvature K of the curve given below. the curvature K of the curve given below. the curvature K of the curve given below.
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77
the curvature K of the curve <strong>the curvature K of the curve Round your answer to three decimal places.</strong> A)7.286 B)9.952 C)0.021 D)0.014 E)0.009 Round your answer to three decimal places.

A)7.286
B)9.952
C)0.021
D)0.014
E)0.009
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78
the curvature of the plane curve <strong>the curvature of the plane curve three decimal places.</strong> A)0.498 B)0.332 C)0.015 D)0.005 E)0.003 three decimal places.

A)0.498
B)0.332
C)0.015
D)0.005
E)0.003
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79
<strong> answer to three decimal places.</strong> A)0.781 B)0.724 C)0.343 D)0.686 E)0.649 answer to three decimal places.

A)0.781
B)0.724
C)0.343
D)0.686
E)0.649
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80
the point on the curve the point on the curve maximum. maximum. the point on the curve maximum.
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