This right-handed electron we shall call a dextron. A left- 

 handed entity would originate in a precisely similar manner. 

 These entities are show in Figs. 9 and 10. These are the only 

 two possible kinds of entities, a right-handed one and a left- 

 handed one. The left-handed one. we shall designate as a 

 levulon. These entities have poles and they are consequently 

 little magnets. 



The spiral of the dextron is rotating right-handedly when 

 viewed along its axis from its south pole toward its north 

 pole, and the spiral of the Levulon is rotating left-handedly, 

 when viewed along its axis from the south pole toward the 

 north pole. 



Figure 8. 



When these entities are compelled to lHOVe through the 



other, they will move with their south ends forward because 

 the intake of the entity is at its south pole and its outrush 

 takes place at its north pole. 



As the dextron moves with its south pole forward a spiral 

 line of force G Fig. 8 would form around its equator and 

 swell out around it. becoming a part of the dextron and eon 

 stituting its electromagnetic field due to its motion. This line 

 of force absorbs the energy that is expended in setting tha 

 electron into motion and it is this which constitutes its inertia ; 

 i. e. the ether offers ;i resistance to the motion of the dextron 

 through it. which results in this line of force being set up 

 around it. ami. tin- inertia of the electron is proportional to 

 this resistance and to the energy stored in the line of force 

 set up around it. In the dextron this line of force rotates, 

 right-handedly when viewed from its north pole, and the spiral 

 of the line rotates right-handedly when the electron is viewed 

 from the side with the north pole on the right. 



73 



