Light with a wavelength of 561 nm passes through two slits and forms an interference pattern on a screen 8.70 m away. Part A If the linear distance on the screen from the central fringe to the first bright fringe above it is 5.28 cm, what is the separation of the slits? Express your answer to three significant figures. ? d = um Submit Request Answer Provide Feedback

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Chapter1: Units, Trigonometry. And Vectors
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**Double-Slit Experiment Analysis**

**Problem Statement:**
Light with a wavelength of 561 nm passes through two slits and forms an interference pattern on a screen 8.70 m away.

**Part A: Determining Slit Separation**

Given:  
- Wavelength (\(\lambda\)) = 561 nm  
- Distance to screen (L) = 8.70 m  
- Linear distance from the central fringe to the first bright fringe (y) = 5.28 cm  

Question:  
If the linear distance on the screen from the central fringe to the first bright fringe above it is 5.28 cm, what is the separation of the slits?

**Required:**
Calculate the slit separation (d) and express your answer to three significant figures in micrometers (µm).

**Answer Submission:**
- Enter your calculated value for \(d\) in the provided input box labeled as \(d =\) followed by \(\mu m\).
- Click "Submit" to confirm your answer.
- If you need help, you can request guidance by selecting "Request Answer".

**Feedback Option:**
If you encounter difficulties or have suggestions, click "Provide Feedback" for communication.

This exercise illustrates the practical application of wave interference and measurements in physics experiments.
Transcribed Image Text:**Double-Slit Experiment Analysis** **Problem Statement:** Light with a wavelength of 561 nm passes through two slits and forms an interference pattern on a screen 8.70 m away. **Part A: Determining Slit Separation** Given: - Wavelength (\(\lambda\)) = 561 nm - Distance to screen (L) = 8.70 m - Linear distance from the central fringe to the first bright fringe (y) = 5.28 cm Question: If the linear distance on the screen from the central fringe to the first bright fringe above it is 5.28 cm, what is the separation of the slits? **Required:** Calculate the slit separation (d) and express your answer to three significant figures in micrometers (µm). **Answer Submission:** - Enter your calculated value for \(d\) in the provided input box labeled as \(d =\) followed by \(\mu m\). - Click "Submit" to confirm your answer. - If you need help, you can request guidance by selecting "Request Answer". **Feedback Option:** If you encounter difficulties or have suggestions, click "Provide Feedback" for communication. This exercise illustrates the practical application of wave interference and measurements in physics experiments.
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