Radioactive decay is classified as a random process at the level of individual atoms. While the decay of any specific atom cannot be predicted, certain statistical patterns can be observed when considering a large number of atoms of a radioactive substance. For instance, every radioactive isotope has a characteristic half-life, which is the time required for half of the radioactive nuclei in a sample to decay. This means that while we can predict the decay rate of a large sample over time, the precise moment at which any individual atom will decay is inherently random and cannot be determined.
The randomness arises because the fundamental interactions that govern nuclear decay occur on a scale that is governed by quantum mechanics, where probabilities rather than certainties prevail. Hence, while overall decay trends can be predicted over large samples, the specific events are unpredictable, leading to the conclusion that radioactive decay is fundamentally a random process.