A Study in Pokemon TaxonomyThe science and practice of organizing and classifying Pokémon into a coherent ordering that does not directly contradict the already well-established taxonomy of all other life forms is a daunting task that has troubled Pokémon biologists for some time due to several main factors: the general differences between Pokémon and other life forms at the cellular level; contrary to that, the similarities in body structure of many Pokémon and similar animals; the dilemma of whether to count Pokémon as more closely related by Elemental type or by body structure; and the lack of any sort of clear pattern of common decent amongst Pokémon, contrary to most other categories of life.More Like This
The first and foremost point that must be addressed in Pokémon Biology is their inherent cellular energy signature. This is the reason why Pokémon's cell structure can be easily destabilized and compressed into energy for storing inside a Poké ball. It
Poke Ball EssayPokémon are different from all other life in that their cellular structure is energy-based. This makes them the only things on earth whose chemical makeup can be quickly and easily converted into energy and compressed. This can be accomplished a number of different ways, but the most common and easiest is through the Poke ball.More Like This
Humans discovered that by hollowing out Apricorns, Pokémon could be shrunk down and contained inside--though they didn't really understand how (A substance in apricorns can be refined in a way that destabilizes a Pokemon's cellular structure). Today's Poké balls are much more complex. Capturing a Pokémon simply requires physical contact with it--the impact activates sensors that detect the Pokémon, open the ball and convert the Pokémon into energy, drawing it in.
A Pokémon can prevent its own capture in a number of different ways. Simplest of all, it can dodge or attack the ball in any way that would keep it from making contact