👉 The concept of "light particles" often refers to photons, which are fundamental quanta of electromagnetic radiation. In the context of limits involving light particles, we typically consider the behavior of photons as they interact with or propagate through various media or over time. Mathematically, this might involve examining how the intensity of light changes as it travels a distance or how the number of photons accumulates in a given volume. For instance, if we consider a scenario where the intensity \( I \) of light decreases with distance \( r \) from the source according to the inverse square law (\( I \propto \frac{1}{r^2} \)), the limit might explore what happens as \( r \) approaches infinity. Here, the limit would reveal that the intensity approaches zero, indicating that the light particles become increasingly sparse over vast distances. This behavior is a fundamental aspect of wave optics and describes how light spreads out as it moves through space.
