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higher pressure

Russell
"C. Hydrogen (H) and fluorine (F) being almost mates and in nearly same pressure zone, same plane and same orbit, will unite part for part.
D. Oxygen (0) or beryllium (Be) being one pressure zone removed and consequently of double potential, will require two parts of hydrogen to their one, and then only unite under pressure of higher temperature. Hydrogen and oxygen, thus united, become the very stable compound known as water and remain united because they are opposed in sex, while beryllium and hydrogen, being both male, will break away unless bound by oxygen, sulphur or some other female stabilizer.
E. Nitrogen or boron are two pressure zones removed and require three parts of hydrogen and higher pressure for union. Same rule of sex applies.
F. Carbon, three pressure zones removed and four times higher potential, demands four parts of hydrogen to remain in union with its one; also the high temperature pressure of the electric are is needed to induce union.

ELEMENTS OF INSTABILITY IN UNION INCREASE IN THEIR INSTABILITY AS THEY INCREASE THEIR VARIABILITY IN DIMENSION. ESPECIALLY IN PRESSURE, ORBIT, ECLIPTIC, CRYSTALLIZATION, PLANE AND SEX." [Indicating Tonal Mismating in Variable Instability - page 111]

"Positive electricity is force generated against pressure resistance. Positive intensity increases with contraction due to pressure resistance in streams flowing in opposite directions. Positive electricity is the accumulating, absorbing, endothermic force of contraction which seeks higher pressures." [Russell, from chart: The Cosmic Pendulum]

"Hence there can be no such thing as a positively charged mass or a negatively charged mass. All charging masses are simultaneously discharging and all discharging masses are simultaneously recharging other masses in this two-way universe of motion. Energy is kept continually moving between the high pressure hot points of gravitative centers and the low pressure cold areas of the evacuated fields which surround all masses.” [Russell]

Created by Dale Pond. Last Modification: Thursday May 11, 2023 07:53:15 MDT by Dale Pond.