The Effect of Magnetic Field on The Solubility of NaCl and CaCl2.2H2O at Different Temperature and pH Values

Abstract

The electrical conductivity (E.C.) changes of a certain concentration (1000ppm) of aqueous sodium chloride and calcium chloride dihydrate solutions as a function to the solubility with and without applying a multiple constant magnetic field at different temperature and pH values were studied. A magnetic funnel with a magnetic field power of 450 gauss was used to prepare the magnetic water by passing the later 1, 5 and 10 times with flow rate of 41.66 mL/sec, before dissolving the sodium chloride and calcium chloride dihydrate salts. There was a proportional relationship between the solubility of sodium chloride and calcium chloride dihydrate and the number of water exposure to the magnetic field. There was also a proportional relationship between the electrical conductivity records and the increasing in temperature and pH values. It was found that the increasing in pH value is more effective as compared with the elevation in temperature degree. In general, the magnetic solutions of sodium chloride and calcium chloride dihydrate showed highly electrical conductivity values as compared with non-magnetic solutions. It was clear, that the advantages from using magnetized solutions of these two salts will be useful in the biological and physiological systems.