1. A golfer hit a golf ball a horizontal distance of. feet away (see picture below). The golf ball spent 4 seconds in the air. Find the height of the golf ball at its peak. Find the Initial vertical velocity of the golf ball. Find the final vertical velocity of the golf ball. What is the vertical velocity at the golf ball's peak height? Find the initial and final horizontal velocities. List the acceleration in x and y directions on the table You must convert feet units to metric before you begin!!!!! You must show all your work and units for credit.

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### Golf Ball Projectile Problem

1. **Problem Statement:**
   - A golfer hit a golf ball a horizontal distance of **910 feet** away. The golf ball spent **4.1 seconds** in the air. 
   - Tasks:
     - Find the height of the golf ball at its peak.
     - Find the initial and final vertical velocities of the golf ball.
     - Determine the vertical velocity at the ball's peak height.
     - Find the initial and final horizontal velocities.
   - List the acceleration in the x and y directions in the table below.
   - **Important:** 
     - Convert feet to meters before beginning calculations.
     - Show all work and units for credit.

### Diagram and Calculations

- **Diagram of Situation:**
  - The diagram shows a golfer hitting a ball, which follows a parabolic trajectory, typical of projectile motion.

- **Table for Calculations:**

|                        | **Horizontal (x)** | **Vertical (y)** | **Calculations** |
|------------------------|--------------------|------------------|------------------|
| **\( v_i \)**          |                    |                  |                  |
| **\( v_f \)**          |                    |                  |                  |
| **\( d \)**            |                    |                  |                  |
| **\( a \)**            |                    |                  |                  |
| **\( t \)**            |                    |                  |                  |

**Notes:**
- Fill in the initial and final velocities, distance, acceleration, and time for both horizontal and vertical components using appropriate physics equations.
- Remember to consider gravitational acceleration for vertical calculations.
Transcribed Image Text:### Golf Ball Projectile Problem 1. **Problem Statement:** - A golfer hit a golf ball a horizontal distance of **910 feet** away. The golf ball spent **4.1 seconds** in the air. - Tasks: - Find the height of the golf ball at its peak. - Find the initial and final vertical velocities of the golf ball. - Determine the vertical velocity at the ball's peak height. - Find the initial and final horizontal velocities. - List the acceleration in the x and y directions in the table below. - **Important:** - Convert feet to meters before beginning calculations. - Show all work and units for credit. ### Diagram and Calculations - **Diagram of Situation:** - The diagram shows a golfer hitting a ball, which follows a parabolic trajectory, typical of projectile motion. - **Table for Calculations:** | | **Horizontal (x)** | **Vertical (y)** | **Calculations** | |------------------------|--------------------|------------------|------------------| | **\( v_i \)** | | | | | **\( v_f \)** | | | | | **\( d \)** | | | | | **\( a \)** | | | | | **\( t \)** | | | | **Notes:** - Fill in the initial and final velocities, distance, acceleration, and time for both horizontal and vertical components using appropriate physics equations. - Remember to consider gravitational acceleration for vertical calculations.
**Transcription for Educational Website**

**Section 2:** Calculate and graph the golf ball’s vertical displacement for every 0.2 seconds of its total flight. 

**Instructions:**
- List the equations used and the data values obtained in the data table below.
- Graph should be scaled properly.

**Equations:**
- [Space for equations]

**Data Table:**
- [Space for a data table with two columns]

**Graph:**
- [Space for a graph with grid lines on the right side]

---

**Section 3:** Calculate and graph the golf ball’s vertical velocity for every 0.2 seconds of its total flight.

**Instructions:**
- List the equations used and the data values obtained in the data table below.
- Graph should be scaled properly.

**Equations:**
- [Space for equations]

**Data Table:**
- [Space for a data table with two columns]

**Graph:**
- [Space for a graph with grid lines on the right side] 

---

**Diagram Description:**
- Each section includes an area for listing equations, a data table with two columns (presumably for time and measurement values), and a graph with grid lines. These are intended for plotting the resulting calculations of the golf ball's vertical displacement and velocity at intervals of 0.2 seconds.
Transcribed Image Text:**Transcription for Educational Website** **Section 2:** Calculate and graph the golf ball’s vertical displacement for every 0.2 seconds of its total flight. **Instructions:** - List the equations used and the data values obtained in the data table below. - Graph should be scaled properly. **Equations:** - [Space for equations] **Data Table:** - [Space for a data table with two columns] **Graph:** - [Space for a graph with grid lines on the right side] --- **Section 3:** Calculate and graph the golf ball’s vertical velocity for every 0.2 seconds of its total flight. **Instructions:** - List the equations used and the data values obtained in the data table below. - Graph should be scaled properly. **Equations:** - [Space for equations] **Data Table:** - [Space for a data table with two columns] **Graph:** - [Space for a graph with grid lines on the right side] --- **Diagram Description:** - Each section includes an area for listing equations, a data table with two columns (presumably for time and measurement values), and a graph with grid lines. These are intended for plotting the resulting calculations of the golf ball's vertical displacement and velocity at intervals of 0.2 seconds.
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