Show work for credit. A 1.2 m wave travels 11.2 m to a wall and back again in 4 s. What is the frequency of the wave?

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Chapter1: Units, Trigonometry. And Vectors
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Show work for credit. A 1.2 m wave travels 11.2 m to a wall and back again in 4 s. What is the frequency of the wave?
### Understanding Wave Properties: Frequency Calculation

**Objective:** Learn how to calculate frequency from a given wave diagram.

**Wave Diagram Explanation:**

The image shows a wave diagram with the following measurements:

- **Wavelength (λ):** The distance between two consecutive peaks (or troughs) is labeled as 1.2 meters.
- **Total Distance:** The wave extends over a total length of 11.2 meters.

**Options for Frequency:**
- 0.2 Hz
- 2 Hz
- 5 Hz
- 9 Hz

To determine the frequency, we need to follow the formula:

\[ \text{Frequency (f)} = \frac{\text{Speed of Wave (v)}}{\text{Wavelength (λ)}} \]

However, without the speed of the wave provided, we can't directly calculate the frequency with the given information. Usually, we would need additional data, such as the time it takes for the wave to travel this distance or the wave speed, to find the frequency.

**Interactive Question:**
Based on your understanding of waves, select the correct frequency from the given options:

- 0.2 Hz
- 2 Hz
- 5 Hz
- 9 Hz

By analyzing the diagram and given information, the learners can engage with the data and apply their knowledge of wave properties.

**Note:** Typically, to solve such problems completely, the wave speed is crucial. Ensure to provide all necessary values in a real-world scenario to find the accurate frequency.

Remember, the wavelength refers to the distance over which the wave's shape repeats. If you require further help, visit our detailed guide on wave properties and calculations.
Transcribed Image Text:### Understanding Wave Properties: Frequency Calculation **Objective:** Learn how to calculate frequency from a given wave diagram. **Wave Diagram Explanation:** The image shows a wave diagram with the following measurements: - **Wavelength (λ):** The distance between two consecutive peaks (or troughs) is labeled as 1.2 meters. - **Total Distance:** The wave extends over a total length of 11.2 meters. **Options for Frequency:** - 0.2 Hz - 2 Hz - 5 Hz - 9 Hz To determine the frequency, we need to follow the formula: \[ \text{Frequency (f)} = \frac{\text{Speed of Wave (v)}}{\text{Wavelength (λ)}} \] However, without the speed of the wave provided, we can't directly calculate the frequency with the given information. Usually, we would need additional data, such as the time it takes for the wave to travel this distance or the wave speed, to find the frequency. **Interactive Question:** Based on your understanding of waves, select the correct frequency from the given options: - 0.2 Hz - 2 Hz - 5 Hz - 9 Hz By analyzing the diagram and given information, the learners can engage with the data and apply their knowledge of wave properties. **Note:** Typically, to solve such problems completely, the wave speed is crucial. Ensure to provide all necessary values in a real-world scenario to find the accurate frequency. Remember, the wavelength refers to the distance over which the wave's shape repeats. If you require further help, visit our detailed guide on wave properties and calculations.
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