Chapter 10.6, Problem 100E

(a)

To determine

The value of $h,v_0,and\theta$ , and parametric equations of the path.

Answer to Problem 100E

The value are $h=6,v_0=20\text{feet}and\theta =45°$ , and parametric equations of the path are $x=10\sqrt{2}t$ and $y=6+10\sqrt{2}t-16t^2$ .

Explanation of Solution

Given information:

The path of the projectile is given by the rectangular equation.

  $y=6+x-0.08x^2$

Calculation:

The path of the projectile is given by the rectangular equation.

  $y=6+x-0.08x^2$   ....(1)

The rectangular equation is.

  $y=h-\frac{16{\sec }^2\theta }{v_0^2}{x}^2+\left(\tan \theta \right)x+h$   ....(2)

Compare the coefficients of the two above equations.

  $\begin{array}{c}h=6\\ \tan \theta =1\\ \theta =45°\end{array}$

Calculate the value of $v_0$ .

  $\begin{array}{c}\frac{16{\sec }^2\theta }{v_0^2}=0.08\\ v_0^2=200{\sec }^{2}45°\\ v_0=20\end{array}$

Calculate the parametric equation.

  $\begin{array}{c}x=\left(v\cos \theta \right)t\\ x=\left(20\sin 45°\right)t\\ x=10\sqrt{2}t\end{array}$

  $\begin{array}{c}y=h+\left(v\sin \theta \right)t-16t^2\\ y=6+\left(20\sin 45°\right)t-16t^2\\ y=6+10\sqrt{2}t-16t^2\end{array}$

Therefore, the value are $h=6,v_0=20\text{feet}and\theta =45°$ , and parametric equations of the path are $x=10\sqrt{2}t$ and $y=6+10\sqrt{2}t-16t^2$ .

(b)

To determine

The graph of rectangular equation for the path of the projectile and parametric equations.

Answer to Problem 100E

The graph of rectangular equation for the path of the projectile is shown in figure (1) and parametric equations is shown in figure (2).

Explanation of Solution

Given information:

The path of the projectile is given by the rectangular equation.

  $y=6+x-0.08x^2$

Calculation:

The graph of the rectangular equation is shown in Figure (1).

  $y=6+x-0.08x^2$ .

  

Figure (1)

The graph of parametric equation is shown in figure (2).

  

Figure (2)

Therefore, the graph of rectangular equation for the path of the projectile is shown in figure (1) and parametric equations is shown in figure (2).