Precalculus Enhanced with Graphing Utilities, Books a la Carte Edition Plus NEW MyLab Math -- Access Card Package (7th Edition)

7th Edition

ISBN: 9780134268231

Author: Michael Sullivan, Michael Sullivan III

Publisher: PEARSON

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Textbook Question

Chapter 10.7, Problem 60AE

Projectile Motion The position of a projectile fired with an initial velocity $υ_{0}$ feet per second and at an angle $θ$ to the horizontal at the end of $t$ seconds is given by the parametric equations

$x = (υ_{0} \cos θ) t$ $y = (υ_{0} \sin θ) t - 16 t^{2}$

See the illustration.

Chapter 10.7, Problem 60AE, Projectile Motion The position of a projectile fired with an initial velocity 0 feet per second and , example 1

a. Obtain the rectangular equation of the trajectory and identify the curve.

b. Show that the projectile hits the ground $(y = 0)$ when $t = \frac{1}{16} υ_{0} \sin θ$ .

c. How far has the projectile traveled (horizontally) when it strikes the ground? In other words, find the range $R$ .

d. Find the time $t$ when $x = y$ . Then find the horizontal distance $x$ and the vertical distance $y$ traveled by the projectile in this time. Then compute $\sqrt{x^{2} + y^{2}}$ . This is the distance $R$ , the range, that the projectile travels up a plane inclined at $45^{\circ}$ to the horizontal $(x = y)$ . See the following illustration. (See also Problem 99 in Section 7.6.)

Chapter 10.7, Problem 60AE, Projectile Motion The position of a projectile fired with an initial velocity 0 feet per second and , example 2

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Chapter 10.7, Problem 59AE

Chapter 10.7, Problem 61AE

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Solution Summary: The author explains that the position of a projectile fired with an initial velocity v 0 feet per second and at an angle to the horizontal is given by the parametric equations.

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