ELECTRICITY: Special kinds of polytrons float freely in space. These polytrons consist of 4 subatoms. Of these, 2 vibrate (energyplane 2 vibrations) with the same frequency, and 2 others vibrate at the same frequency but in opposite phase to the first two. These 4 subatoms are held together by an oscillotronic binding pattern (an exchange of common oscillotrons). This special binding can happen in the presence of opposite-phase vibrations (repulsion) because there are oscillotron binding forces stronger than the internal repulsive forces (this is somewhat similar to what occurs in an atomic nucleus). Special polytrons are neutral for most forces in energyplane 2. Such a polytron is called the ELECTRICITY QUANTUM (EQ). Its vibration product will be on energyplane 3 because of the law governing the result of self-cancelling vibrations in a common existence medium. (This law says that the vibration product of 2 vibrations which cancel each other completely in special conditions will be raised 1 energyplane - an isotechnical transformation, alias ITM). Knowing this law makes it possible to apply ITMs to practical use. Electricity quantums can interact with a bigger polytron, or multipolytron, and be caught by it. As a result the EQ may lose its neutrality. This is because the oscillotronic EQ binding pattern breaks down due to the new oscillotron binding with the multipolytron subatoms. The two EQ subatoms in phase with the new polytron will be bound into it. The other two EQ subatoms, in counterphase with the bound subatoms, will be repelled out of the polytron. Because the law of self-cancelling vibrations in the common existence medium is no longer fulfilled, the vibration product changes from the 3rd to the 2nd energyplane. The two repelled EQ subatoms are no longer neutral on energyplane 2, and are attracted to other polytrons depending on frequency. As a result, polytrons having the same type of EQ subatoms will attract each other, and polytrons having opposite types of EQ subatoms will repel each other. Such multipolytrons can sometimes bind to themselves 4 gravitrons. This new multipolytron is called the electron. Likewise, a polytron which has bound to itself the alternate EQ subatom pair is called a positron. Electricity quantums can bind themselves to particles we call neutrons, thus producing protons and antiprotons. Particles that do not bind either EQ subatom pair are electrically neutral. Some sorts electrically charged polytrons can only be found on energyplane 2.