A for one line of the hydrogen spectrum is .4118 x 104 cm. Use this value in the Rydberg equation to calculate the RH value using ni = 2, and n2 = 4. 3.477 Submit Answer Incorrect. Tries 3/99 Previous Tries エhisd lesed

Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
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Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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### Problem Statement:

The wavelength (λ) for one line of the hydrogen spectrum is \(0.4118 \times 10^{-4}\) cm. Use this value in the Rydberg equation to calculate the \(R_H\) value using \(n_1 = 2\) and \(n_2 = 4\).

### User Input:

The user attempted to input the solution as "3.477".

### Feedback:

- **Status:** Incorrect.
- **Attempts:** 3 out of 99.

### Notes:

- **Discussion Status:** This discussion is closed.

---

**Explanation for Educational Context:**

The task involves applying the Rydberg equation, which is used to predict the wavelength of light resulting from an electron moving between energy levels in a hydrogen atom. The goal is to calculate the Rydberg constant (\(R_H\)) using given values:

- Wavelength (\(\lambda\)) is \(0.4118 \times 10^{-4}\) cm.
- Principal quantum numbers \(n_1 = 2\) and \(n_2 = 4\).

This is an example of how practice problems are structured in online chemistry platforms to enhance problem-solving skills related to atomic spectra.
Transcribed Image Text:### Problem Statement: The wavelength (λ) for one line of the hydrogen spectrum is \(0.4118 \times 10^{-4}\) cm. Use this value in the Rydberg equation to calculate the \(R_H\) value using \(n_1 = 2\) and \(n_2 = 4\). ### User Input: The user attempted to input the solution as "3.477". ### Feedback: - **Status:** Incorrect. - **Attempts:** 3 out of 99. ### Notes: - **Discussion Status:** This discussion is closed. --- **Explanation for Educational Context:** The task involves applying the Rydberg equation, which is used to predict the wavelength of light resulting from an electron moving between energy levels in a hydrogen atom. The goal is to calculate the Rydberg constant (\(R_H\)) using given values: - Wavelength (\(\lambda\)) is \(0.4118 \times 10^{-4}\) cm. - Principal quantum numbers \(n_1 = 2\) and \(n_2 = 4\). This is an example of how practice problems are structured in online chemistry platforms to enhance problem-solving skills related to atomic spectra.
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