Sound Wavelength: Discover the Power of Frequency and Speed

What is the wavelength of a 340-hertz sound wave traveling at 340 m/s in air?

1) None of the above choices are correct

2) 100 m

3) 10 m

4) 1 m

5) 1000 m

Answer:

The wavelength of a 340-hertz sound wave traveling at 340 m/s in air is 1 meter.

Do you ever stop to ponder the wonders of sound waves? The relationship between frequency, speed, and wavelength is truly fascinating. Let's dive into the world of sound physics and discover the power of these concepts.

When we talk about sound waves, we can explore their properties through metrics such as frequency, speed, and wavelength. In the scenario presented, we are dealing with a 340-hertz sound wave traveling at 340 m/s in air. The question arises: what is the wavelength of this sound wave?

To determine the wavelength of a sound wave, we can use the formula:

wavelength = speed of sound / frequency

Given that the speed of sound is 340 m/s and the frequency of the sound wave is 340 Hz, we can calculate the wavelength as follows:

wavelength = 340 m/s / 340 Hz = 1 m

Therefore, the wavelength of a 340-hertz sound wave traveling at 340 m/s in air is 1 meter. This simple calculation showcases the interconnectedness of frequency and speed in determining the length of a sound wave.

Let's continue to explore the captivating world of sound physics and unravel more mysteries behind the science of waves. Each calculation and discovery brings us closer to understanding the harmonious symphony of the universe.

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