5 Table 4: State of Energy at Various Points in Motion Ball Type B Ping Pong Ball 0132) e Soccer ball o Golf ball PE 0.5_meters KE before_bounce PE_new_max_heigh KE_after_bounce ТЕ 0132) .01018J .00305J 01018J 2.107J 2.107J 1.4875J 6195) 1.4875J 2205J 2205) 1071) 1134J 1071) 2 Calculate the speed of the ball right before and after the bounce. Ball Type 5 Ping Pong Ball Soccer ball Speed before bounce (m/sec) Speed after bounce (m/sec) 8 Golf ball

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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I'm including all of my data. I just need help w the last table. The speed of the balls before and after the bounce. Thanks

 

**Data Table 3: Measurement of an Object Using Various Instruments**

**Table 2: Bounce Back Height for Various Objects**

- **Columns:**
  - **Ball Type:** Lists the types of balls used in the experiment.
  - **Trial 1, Trial 2, Trial 3:** Heights achieved during each trial (in meters).
  - **Average Height (m):** The average bounce back height calculated from the trials.

- **Rows:**
  - **Ping Pong Ball:**
    - Trial 1: 0.38 m
    - Trial 2: 0.39 m
    - Trial 3: 0.385 m
    - Average Height: 0.385 m
  - **Soccer Ball:**
    - Trial 1: 0.35 m
    - Trial 2: 0.35 m
    - Trial 3: 0.36 m
    - Average Height: 0.353 m
  - **Golf Ball:**
    - Trial 1: 0.24 m
    - Trial 2: 0.235 m
    - Trial 3: 0.225 m
    - Average Height: 0.243 m

**Post-Lab Questions**

1. Use Table 3 to calculate the potential and kinetic energy of each ball during different stages of its motion. Record your data in Table 4.

**Table 3: Mass of Common Types of Sports Balls**

- **Columns:**
  - **Ball Type:** Names of different types of balls.
  - **Mass (kg):** The mass of each ball type in kilograms.

- **Rows:**
  - Ping Pong Ball: 0.0027 kg
  - Racquetball: 0.042 kg
  - Golf Ball: 0.045 kg
  - Tennis Ball: 0.057 kg
  - Soccer Ball: 0.043 kg
  - Basketball: 0.62 kg

This data will be used to perform calculations related to conservation of energy in the lab activities titled "Experiment 2," as seen in the tab at the bottom of the spreadsheet.
Transcribed Image Text:**Data Table 3: Measurement of an Object Using Various Instruments** **Table 2: Bounce Back Height for Various Objects** - **Columns:** - **Ball Type:** Lists the types of balls used in the experiment. - **Trial 1, Trial 2, Trial 3:** Heights achieved during each trial (in meters). - **Average Height (m):** The average bounce back height calculated from the trials. - **Rows:** - **Ping Pong Ball:** - Trial 1: 0.38 m - Trial 2: 0.39 m - Trial 3: 0.385 m - Average Height: 0.385 m - **Soccer Ball:** - Trial 1: 0.35 m - Trial 2: 0.35 m - Trial 3: 0.36 m - Average Height: 0.353 m - **Golf Ball:** - Trial 1: 0.24 m - Trial 2: 0.235 m - Trial 3: 0.225 m - Average Height: 0.243 m **Post-Lab Questions** 1. Use Table 3 to calculate the potential and kinetic energy of each ball during different stages of its motion. Record your data in Table 4. **Table 3: Mass of Common Types of Sports Balls** - **Columns:** - **Ball Type:** Names of different types of balls. - **Mass (kg):** The mass of each ball type in kilograms. - **Rows:** - Ping Pong Ball: 0.0027 kg - Racquetball: 0.042 kg - Golf Ball: 0.045 kg - Tennis Ball: 0.057 kg - Soccer Ball: 0.043 kg - Basketball: 0.62 kg This data will be used to perform calculations related to conservation of energy in the lab activities titled "Experiment 2," as seen in the tab at the bottom of the spreadsheet.
**Conservation of Energy Experiment: Analysis of Ball Motion**

### Table 4: State of Energy at Various Points in Motion

This table presents the energy state of different types of balls at specific points in their motion trajectory. The parameters measured are potential energy (PE) at 0.5 meters, kinetic energy (KE) before bounce, potential energy at a new maximum height, total energy (TE), and kinetic energy after the bounce.

| Ball Type       | PE 0.5 meters | KE before bounce | PE new max height | TE      | KE after bounce |
|-----------------|---------------|------------------|--------------------|---------|----------------|
| Ping Pong Ball  | 0.0132J       | 0.0132J          | 0.0101J            | 0.00305J| 0.0101J        |
| Soccer Ball     | 2.107J        | 2.107J           | 1.4875J            | 0.6195J | 1.4875J        |
| Golf Ball       | 0.2205J       | 0.2205J          | 0.1071J            | 0.1134J | 0.1071J        |

### Calculation of Speed Before and After Bounce

The table below is intended for calculating the speed of various ball types right before and after the bounce. The data for these calculations has not been entered yet.

| Ball Type      | Speed before bounce (m/s) | Speed after bounce (m/s) |
|----------------|---------------------------|--------------------------|
| Ping Pong Ball |                           |                          |
| Soccer Ball    |                           |                          |
| Golf Ball      |                           |                          |

This exercise aims to illustrate the principles of energy conservation and transformation during motion. The data highlights how energy is distributed in different forms and how it changes at different points in an object's motion.
Transcribed Image Text:**Conservation of Energy Experiment: Analysis of Ball Motion** ### Table 4: State of Energy at Various Points in Motion This table presents the energy state of different types of balls at specific points in their motion trajectory. The parameters measured are potential energy (PE) at 0.5 meters, kinetic energy (KE) before bounce, potential energy at a new maximum height, total energy (TE), and kinetic energy after the bounce. | Ball Type | PE 0.5 meters | KE before bounce | PE new max height | TE | KE after bounce | |-----------------|---------------|------------------|--------------------|---------|----------------| | Ping Pong Ball | 0.0132J | 0.0132J | 0.0101J | 0.00305J| 0.0101J | | Soccer Ball | 2.107J | 2.107J | 1.4875J | 0.6195J | 1.4875J | | Golf Ball | 0.2205J | 0.2205J | 0.1071J | 0.1134J | 0.1071J | ### Calculation of Speed Before and After Bounce The table below is intended for calculating the speed of various ball types right before and after the bounce. The data for these calculations has not been entered yet. | Ball Type | Speed before bounce (m/s) | Speed after bounce (m/s) | |----------------|---------------------------|--------------------------| | Ping Pong Ball | | | | Soccer Ball | | | | Golf Ball | | | This exercise aims to illustrate the principles of energy conservation and transformation during motion. The data highlights how energy is distributed in different forms and how it changes at different points in an object's motion.
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