As produ Close length

Transcribed Image Text:

**Question:** A standing wave vibrating at the 2nd harmonic is produced in a tube of length 42 cm which is closed at one of its ends. What is the wave length of the standing wave in meters? **Explanation:** For a tube closed at one end, the second harmonic (also known as the first overtone) forms with a pattern similar to 3/4 of the wavelength fitting into the length of the tube. Therefore, the length of the tube \( L \) is equal to \( \frac{3}{4} \lambda \), where \( \lambda \) is the wavelength. Given: - Length of the tube \( L = 42 \) cm = \( 0.42 \) meters To find the wavelength \( \lambda \), use the relationship: \[ \frac{3}{4} \lambda = L \] Rearrange to solve for \( \lambda \): \[ \lambda = \frac{4}{3} L \] Substituting the given length: \[ \lambda = \frac{4}{3} \times 0.42 \] \[ \lambda = 0.56 \text{ meters} \] Therefore, the wavelength of the standing wave is 0.56 meters.