a) Determine the wavelength of the longitudinal wave below. b) Given a wave speed of 340 m/s, determine the frequency of this wave? (Round your answer to the nearest tenth) c) What is the period of the wave? (Round your answer to the nearest millisecond).

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## Diffraction Pattern Analysis ### Explanation of the Diffraction Pattern This graphic represents a diffraction pattern created by light passing through a series of identical slits or apertures. #### Description of the Diagram - **Pattern Structure**: The graphic shows a repeated pattern of dots, which are likely the points where light intensity is highest. The repeating units appear as dense clusters of dots. - **Scale**: Above the pattern, there is a labeled measurement indicating that the total length of this repeating pattern stretches over 12 meters. The 12-meter length includes multiple clusters of dots. #### Understanding the Features - **Central Maximum**: Each cluster of dots in the pattern includes a central point where the density of dots (light) is the highest. This central maximum indicates the point where light waves constructively interfere most strongly. - **Side Maxima**: Moving outward from the central maximum, the density of dots decreases, representing the side maxima where the interference is still constructive, but with decreasing intensity. - **Interference and Wavelength**: The spacing and intensity of these dots give clues about the wavelength of light used and the nature of the slits through which the light passes. This kind of diffraction pattern is typically analyzed in physics to understand wave properties like wavelength, interference, and the properties of the slit(s) causing the diffraction. The distance measurement can be used to calculate specific values such as the wavelength of light used in the experiment or the distance between the slits. ### Practical Applications Understanding diffraction patterns has practical applications in various fields, including: - **Optics and Photonics**: It helps in designing instruments like spectrometers, lasers, and optical sensors. - **Material Science**: Diffraction techniques, such as X-ray diffraction, are employed to determine the structure of crystals. - **Communication Technologies**: Concepts of diffraction are applied in antenna designs and signal processing. ### Summary The diagram provides a clear visualization of a diffraction pattern spanning 12 meters, illustrating the principles of wave interference in light. By analyzing the pattern, valuable insights into the properties of light and materials through which it passes can be gained, offering numerous scientific and technological applications.