Someone hits a golf ball from an area that is an unknown distance above the ground. As a result, the ball has an initial velocity of $44\ m/s$ at an angle of $28{}^\circ $ above the horizontal. The ball strikes the ground a horizontal distance of $180.0\ m$ form where the ball was hit.

1. How high $h$ above the ground is the area from which the ball was hit?

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The kinematic equations of the golf ball as it travels through the air are given by

\left\{ \begin{array}{c} x\left(t\right)=v_0{\mathrm{cos} \left(\theta \right)\ }t \\ \\ \displaystyle{y\left(t\right)=-\frac{1}{2}gt^2+v_0{\mathrm{sin} \left(\theta \right)\ }t+h} \end{array} \right.\ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \left\{ \begin{array}{c} v_x\left(t\right)=v_0{\mathrm{cos} \left(\theta \right)\ } \\ \\ v_y\left(t\right)=-gt+v_0{\mathrm{sin} \left(\theta \right)\ } \end{array} \right.

The time $t_f$ at which the ball hits the ground is such that we have $\displaystyle{\left\{ \begin{array}{c}
x\left(t_f\right)=R \\
y\left(t_f\right)=0 \end{array}
\right.}$ where $R=180\ m$ denotes the range of the golf ball. Thus, we solve for $t_f$ as follows

\begin{aligned} x\left(t_f\right)=R\ \ \ \ &\Rightarrow \ \ \ \ \ v_0{\mathrm{cos} \left(\theta \right)\ }t_f=R \\ \\ &\Rightarrow \ \ \ \ \ t_f=\frac{R}{v_0{\mathrm{cos} \left(\theta \right)\ }} \\ \\ &\Rightarrow \ \ \ \ \ t_f=\frac{180}{44{\mathrm{cos} \left(28\right)\ }}\approx 4.63\ s \end{aligned}

and then solve $y\left(t_f\right)=0$ for $h$ as shown below

\begin{aligned} y\left(t_f\right)=0\ \ \ \ &\Rightarrow \ \ \ \ -\frac{1}{2}gt^2_f+v_0{\mathrm{sin} \left(\theta \right)\ }t_f+h=0 \\ \\ &\Rightarrow \ \ \ \ \ h=\frac{1}{2}gt^2_f-v_0{\mathrm{sin} \left(\theta \right)\ }t_f \end{aligned}

Thus, the height $h$ from which the golf ball was launched is equal to

\boxed{h=\frac{1}{2}gt^2_f-v_0{\mathrm{sin} \left(\theta \right)\ }t_f=\frac{1}{2}\cdot 9.8\cdot {4.63}^2-44{\mathrm{sin} \left(28\right)\ }\cdot 4.63\approx 9.40\ m}

2. What is the speed of the ball just before it strikes the ground?

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The components of the velocity of the golf ball when it hits the ground are equal to

\begin{aligned} x\left(t_f\right)&=v_0{\mathrm{cos} \left(\theta \right)\ }t_f=44{\mathrm{cos} \left(28\right)\ }\cdot 4.63\approx 38.85\ m/s \\ \\ y\left(t_f\right)&=-gt_f+v_0{\mathrm{sin} \left(\theta \right)\ }=-9.8\cdot 4.63+44{\mathrm{sin} \left(28\right)\ }\approx -27.71\ \ m/s \end{aligned}

The speed of the ball as it hits the ground is therefore equal to

\boxed{v_f=\sqrt{v_x{\left(t_f\right)}^2+v_y{\left(t_f\right)}^2}=\sqrt{{38.85}^2+{\left(-27.71\right)}^2}\approx 46\ \ m/s}

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