Abstract
The magnetic field of Non Inductive Coil (NIC) is effectively zero due to cancellation of the fields by interference, but can be considered to consist of infinite number of tiny dipoles generated by very narrow space of coils. Distilled water was "treated" i. e. exposed to field of NIC for some time and its conductivity (St) and pH (pHt) were measured at controlled temperature (40±1℃). The results were as follows: (1) The (St/Sc) of distilled water for control varied only sligtly, and that of distilled water treated by ordinary coil (inductive coil) increased a littie. In contrast, the (St/Sc) of "NIC Treatment Water (NTW)" [=distilled water treated by NIC] increased apparently by time reaching a saturation point. (2) Changing treatment time "t" of [0.6MHz×t hour] by NIC, we have investigated the saturation value of (St/Sc) of NTW. It was found to exist in between 8 hours and 11 hours showing the peak value of about 3.0. (3) NTW (treated for 2 hours) was kept at room temperature for days and its (St/Sc) was measured. The ratio (St/Sc) after 7〜8 days showed the saturation value of 3.0 and then it gradually decreased. (4) NTW's pH (pHt) was measured in order to examine whether the increase of (St/Sc) detected for NTW was caused by absorption of carbon dioxide (CO_2) in air. Certain degree of correlation was found between (St/Sc) and (pHt/pHc) of the NTW after it was kept at room temperature for some time. However, the comparative study of (St/Sc) of distilled water for control and (St/Sc) of NTW during the same lapse of time and that of (St/Sc) and (pHt/pHc) of [distilled water without a cap/distilled water with a cap] both indicate that the increase of NTW's conductivity is not explainable by absorption of CO_2 in air alone. The cause for the significant change of NTW's (St/Sc) is unknown at present. It merits further investigation in future.
