The inverse square law of light is a fundamental principle in physics that describes how the intensity of light decreases as the distance from the source increases. Specifically, the law states that the intensity of light is inversely proportional to the square of the distance from the source. This means that if you double the distance from a light source, the intensity of light will decrease by a factor of four. Likewise, tripling the distance reduces the intensity by a factor of nine. This mathematical principle is crucial for understanding how light behaves in space and across large distances.
Many skeptics of NASA’s claims about the vastness of space use the inverse square law of light to challenge the validity of the globe model and the idea of distant celestial bodies. According to NASA, stars, planets, and other celestial objects are millions, if not billions, of miles away. Yet, these objects remain visible to the naked eye, raising questions for those who apply the inverse square law. If the intensity of light diminishes so drastically with distance, how can we see stars that are so far away? Some argue that the distance claimed by NASA should render these light sources invisible to us on Earth, given the significant reduction in their brightness.
For example, if a star is millions of light years away, the light it emits should become incredibly faint before reaching Earth, almost to the point of invisibility. Yet, we can clearly observe stars in the night sky without any optical aid. This leads some to believe that NASA may be overstating the distances between Earth and celestial bodies, or that other explanations are at play.
Supporters of this perspective argue that the inverse square law exposes inconsistencies in mainstream space science, suggesting that the actual behavior of light contradicts the notion of infinite space. They question whether the vast distances reported by space agencies like NASA align with the natural properties of light as we understand them through this well-established scientific law.
