A flat observation screen is placed at a distance of 4.5 m from a pair of slits. The separation on the screen between the central bright fringe and the first-order bright fringe is 0.038 m. The light illuminating the slits has a wavelength of 469 nm. Determine the slit separation. Number i Units V

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Chapter1: Units, Trigonometry. And Vectors
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**Problem Statement:**

A flat observation screen is placed at a distance of 4.5 meters from a pair of slits. The separation on the screen between the central bright fringe and the first-order bright fringe is 0.038 meters. The light illuminating the slits has a wavelength of 469 nanometers. Determine the slit separation.

**Input Fields:**

- **Number:** [Input Field]
- **Units:** [Dropdown Menu]

**Explanation:**

You need to calculate the separation between the slits in a double-slit interference experiment. Key variables provided in the problem include:

- Distance from slits to screen: 4.5 meters
- Separation between central and first-order bright fringe: 0.038 meters
- Wavelength of light: 469 nanometers

Use these to find the slit separation using the formula for double-slit interference.
Transcribed Image Text:**Problem Statement:** A flat observation screen is placed at a distance of 4.5 meters from a pair of slits. The separation on the screen between the central bright fringe and the first-order bright fringe is 0.038 meters. The light illuminating the slits has a wavelength of 469 nanometers. Determine the slit separation. **Input Fields:** - **Number:** [Input Field] - **Units:** [Dropdown Menu] **Explanation:** You need to calculate the separation between the slits in a double-slit interference experiment. Key variables provided in the problem include: - Distance from slits to screen: 4.5 meters - Separation between central and first-order bright fringe: 0.038 meters - Wavelength of light: 469 nanometers Use these to find the slit separation using the formula for double-slit interference.
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