Final Answer:
Using visible light (Option c) has an advantage over UV light for better penetration through materials, making it suitable for applications where deep material penetration is required, as compared to UV light which tends to have limited penetration capabilities. This characteristic can be advantageous in various processes, such as imaging and sensing through opaque or dense materials.
Step-by-step explanation:
Visible light, in comparison to UV light, possesses the advantage of better penetration through materials. Visible light has longer wavelengths than UV light, allowing it to traverse through substances that might impede or absorb shorter wavelengths.
This property is particularly advantageous in applications such as imaging, sensing, or communication where deep penetration through materials is crucial. Unlike UV light, visible light is less prone to being absorbed or scattered by certain substances, making it suitable for a broader range of applications and facilitating the exploration or analysis of materials that may be opaque or dense to UV radiation.
Understanding the penetration capabilities of different wavelengths is essential in selecting the appropriate light source for specific tasks and optimizing performance in various scientific and industrial processes. So the correct is C.