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is 2.8 meters per second per second, how far did you travel in this time?

       62. A ferry boat is traveling east at 1.3 meters per second when the captain notices a boat in its path. The captain engages the reverse motors so that the ferry accelerates to the west at 0.2 meters per second per second. After 20 seconds of this acceleration, what is the boat’s position with respect to its initial position?

Finding Acceleration with Velocities and Displacement

      63–66

       63. A cheetah can accelerate from 0 miles per hour to 60 miles per hour in 20 meters. What is the magnitude of its acceleration?

       64. A speedboat can accelerate from an initial velocity of 3.0 meters per second to a final velocity that is 3 times greater over a distance of 42 meters. What is the magnitude of its acceleration?

       65. You drop a feather from your balcony, which is 4.5 meters above the ground. After falling 0.20 meters, it moves at the speed of 0.30 meters per second. What is the magnitude of its acceleration?

       66. A boat moving north at 2.3 meters per second undergoes constant acceleration until its speed is 1.2 meters per second northward. With respect to its initial position, its final position is 200 meters northward. What is its acceleration?

Finding Velocities with Acceleration and Displacement

      67–70

       67. A boat accelerates at 0.34 meters per second per second northward over a distance of 100 meters. If its initial velocity is 2.0 meters per second northward, what is its final velocity?

       68. A train brakes to a stop over a distance of 3,000 meters. If its acceleration is 0.1 meter per second per second, what is its initial speed?

       69. To pass another race car, a driver doubles his speed by accelerating at 4.5 meters per second per second for 50 meters. What are his initial and final speeds?

       70. From a position 120 meters above a pigeon, a falcon dives at 9.1 meters per second per second, starting from rest. After diving 25 meters, the falcon stops accelerating. What is the falcon’s speed when it strikes the pigeon?

Chapter 3

      Moving in a Two-Dimensional World

      The basic quantities you use to describe motion in two dimensions – displacement, velocity, and acceleration – are vectors. A vector is an object that has both a magnitude and a direction. When you have an equation that relates two vectors, you can break each vector into parts, called components. You end up with two equations, which are usually much easier to solve.

       The Problems You’ll Work On

      In this chapter on two-dimensional vectors and two-dimensional motion, you work with the following situations:

      Adding and subtracting vectors

      Multiplying a vector by a scalar

      Taking apart a vector to find its components

      Determining the magnitude and direction of a vector from its components

      Finding displacement, velocity, and acceleration in two dimensions

      Calculating the range and time of flight of projectiles

       What to Watch Out For

      While you zig and zag your way through the problems in this chapter, avoid running into obstacles by:

      Identifying the correct quadrant when finding the direction of a vector

      Finding the components before trying to add or subtract two vectors

      Breaking the displacement, velocity, and acceleration vectors into components to turn one difficult problem into two simple problems

      Remembering that the vertical component of velocity is zero at the apex

      Recognizing that the horizontal component of acceleration is zero for freely falling objects

Getting to Know Vectors

      71–72

       71. How many numbers are required to specify a two-dimensional vector?

       72. Marcus drives 45 kilometers at a bearing of 11 degrees north of west. Which of the underlined words or phrases represents the magnitude of a vector?

Adding and Subtracting Vectors

      73–75

       73. Vector U points west, and vector V points north. In which direction does the resultant vector point?

       74. If vectors A, B, and C all point to the right, and their lengths are 3 centimeters, 5 centimeters, and 2 centimeters, how many centimeters long is the resultant vector formed by adding the three vectors together?

       75. Initially facing a flagpole, Jake turns to his left and walks 12 meters forward. He then turns completely around and walks 14 meters in the opposite direction. How many meters farther away from the flagpole would Jake have ended had he started his journey by turning to the right and walking 14 meters and then turning completely around and walking the final 12 meters?

Adding Vectors and Subtracting Vectors on the Grid

      76–79

       76. If

and
, what is the value of
?

       77. If

, what is the value of
?

       78. Given that

and
, calculate
.

       79. Given the three vectors

,
, and
, solve for D if
.

Breaking Vectors into Components

      80–83

       80. Vector A has a magnitude of 28 centimeters and points at an angle 80 degrees relative to the x-axis. What is the value of

? Round your answer to the nearest tenth of a centimeter.

       81. Vector C has a length of 8 meters and points 40 degrees below the x-axis. What is the vertical component of C, rounded to the nearest tenth of a meter?

       82. Jeffrey drags a box 15 meters across the floor by pulling it with a rope. He exerts a force of 150 newtons at an angle of 35 degrees above the horizontal. If work is the product of the distance traveled times the component of the force in the direction of motion, how much work does Jeffrey do on the box? Round to the nearest ten newton-meters.

       83. Three forces pull on a chair with magnitudes of 100, 60, and 140, at angles of 20


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