(Figure 1) shows the displacement of a standing sound wave in a 32-cm-long horizontal tube of air open at both ends. Figure D 0 32 -x (cm) 1 of 1

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### Standing Sound Wave in a Tube

(Figure 1) shows the displacement of a standing sound wave in a 32-cm-long horizontal tube of air open at both ends.

#### Explanation of Figure 1

In the graph depicted:

- The horizontal axis represents the position \(x\) along the length of the tube, measured in centimeters (cm), ranging from 0 to 32 cm.
- The vertical axis represents the displacement \(D\) of the air particles within the tube.
- The standing wave pattern shows the points of maximum and minimum displacements, known as antinodes and nodes, respectively.
- At the ends of the tube (0 cm and 32 cm), there are antinodes where the displacement is maximal.
- The wave exhibits symmetrical patterns about the tube's midpoint, with nodes where the displacement is zero occurring at fixed points along the tube's length.
Transcribed Image Text:### Standing Sound Wave in a Tube (Figure 1) shows the displacement of a standing sound wave in a 32-cm-long horizontal tube of air open at both ends. #### Explanation of Figure 1 In the graph depicted: - The horizontal axis represents the position \(x\) along the length of the tube, measured in centimeters (cm), ranging from 0 to 32 cm. - The vertical axis represents the displacement \(D\) of the air particles within the tube. - The standing wave pattern shows the points of maximum and minimum displacements, known as antinodes and nodes, respectively. - At the ends of the tube (0 cm and 32 cm), there are antinodes where the displacement is maximal. - The wave exhibits symmetrical patterns about the tube's midpoint, with nodes where the displacement is zero occurring at fixed points along the tube's length.
### Oscillation of Air Pressure in a Tube

**Problem Statement:**
At what distances from the left end of the tube does the air pressure oscillate with maximum amplitude?

**Instructions:**
Express your answer in centimeters. If there is more than one answer, enter your answers in ascending order separated by commas.

**Visual Aid:**
There is a text box provided for submitting your answers.

---

**Detailed Explanation:**
To solve this problem, you need to understand the principles of standing waves and how they form pressure nodes and antinodes inside a tube. The points where the air pressure oscillates with maximum amplitude are the antinodes of the standing wave pattern within the tube. By determining the locations of these antinodes relative to the known length and characteristics of the tube, you will be able to specify the distances in centimeters.
Transcribed Image Text:### Oscillation of Air Pressure in a Tube **Problem Statement:** At what distances from the left end of the tube does the air pressure oscillate with maximum amplitude? **Instructions:** Express your answer in centimeters. If there is more than one answer, enter your answers in ascending order separated by commas. **Visual Aid:** There is a text box provided for submitting your answers. --- **Detailed Explanation:** To solve this problem, you need to understand the principles of standing waves and how they form pressure nodes and antinodes inside a tube. The points where the air pressure oscillates with maximum amplitude are the antinodes of the standing wave pattern within the tube. By determining the locations of these antinodes relative to the known length and characteristics of the tube, you will be able to specify the distances in centimeters.
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