Final answer:
The order of potential energy changes from lowest to highest depends on context and specific conditions such as height, chemical reactivity, electric charge, and nuclear forces, and is not fixed. The key is to understand how potential energy is transformed into kinetic or other energy forms according to conservation laws.
Step-by-step explanation:
The magnitude of the potential energy in a change depends on the type of change that occurs. Different types of potential energy include gravitational, chemical, electrical, and nuclear energy. A basic ordering from lowest to highest potential energy change cannot be universally established without context because the actual amount of energy involved will vary depending on specific system conditions. However, generally speaking, objects in higher positions (gravitational potential), with more intense chemical reactions, with greater charge differences (electrical potential), or with larger nuclear forces at play can have more potential energy. The transformation of this energy into kinetic energy, such as water flowing through a hydroelectric plant or a brick falling from a building, is governed by the conservation of energy, where potential energy is converted to kinetic or other forms of energy.