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Radio waves and light waves are both forms of electromagnetic radiation, but they differ in terms of their frequency range and the way they interact with matter.

  1. Frequency Range: Radio waves have much lower frequencies than light waves. Radio waves typically range from a few kilohertz (kHz) to hundreds of gigahertz (GHz), while light waves span a much higher frequency range, from hundreds of terahertz (THz) to hundreds of petahertz (PHz).

  2. Interaction with Matter: Radio waves have longer wavelengths and lower energy compared to light waves. Due to their longer wavelengths, radio waves can pass through obstacles like walls and buildings with relatively little attenuation. They can also be reflected, refracted, or diffracted by objects in their path.

In contrast, light waves, particularly those in the visible spectrum, have shorter wavelengths and higher energy. They interact more strongly with matter, causing absorption, reflection, or transmission depending on the properties of the material. Light waves are crucial for vision and are responsible for the colors we perceive.

Regarding the use of radio waves in amplitude-modulated (AM) signals and the absence of light waves for optical signals, there are a few key reasons:

  1. Medium: Radio waves can easily propagate through the Earth's atmosphere, as well as through solid objects and conductive materials. This makes them suitable for long-range communication and broadcasting purposes. On the other hand, light waves, particularly in the visible spectrum, are more easily absorbed or scattered by the atmosphere and various materials, making long-range transmission challenging.

  2. Transmitter and Receiver Technology: The technology for generating and detecting radio waves is well-established and relatively inexpensive. AM radio broadcasting has a long history and has been widely adopted. Light waves, on the other hand, require more complex technology such as lasers for generation and specialized detectors for reception. While optical communication systems exist (e.g., fiber optics), they are primarily used for short- to medium-range applications rather than mass broadcasting.

  3. Bandwidth: Radio waves occupy a wide frequency spectrum, allowing for multiple channels to coexist and transmit different signals simultaneously. This bandwidth availability makes it practical for AM radio, where multiple stations can transmit independent signals within the frequency band. In comparison, the visible light spectrum is narrower, limiting the number of channels that can be simultaneously transmitted.

In summary, radio waves and light waves differ in terms of their frequency range and interaction with matter. Radio waves are used in AM signals due to their ability to propagate through the atmosphere and objects, their well-established technology, and the availability of wide bandwidth. Light waves, while useful for shorter-range optical communication, face challenges with long-range transmission and the complexity of the required technology.

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