If \(E_T=B\), then ice with its negative temperature particles and water with its positive temperature particles will attract each other like two magnetic monopoles.
Is water attracted to ice? Yes! You can hold up water with ice.
It seem that spin robs the temperature particles of its magnetic property. When in spin, a positive temperature particle behave like a small positive charge and a negative temperature particle behave like a small mass with a gravitational field around it.
A strong magnet is then imbued with separated positive and/or negative temperature particles but without spin OR, imbued with separated \(e^{-}\) and/or \(g^{+}\) particles in high spins. All particles being aligned along a common axis so as to reinforce a common magnetic field.
What would prevent a particle from spinning in order to show its true nature? Supercooling, but the particle may not be aligned to provide a reinforced magnetic field. Pushing the particle into an external magnetic field, these particles orientate themselves to oppose the change taking place, and is repelled by the external field. This is diamagnetism. Since all materials have temperature particles, all materials are diamagnetic at low temperature. Negative temperature particles at low temperature will give a strong \(S\) pole.
