This Paper investigates the Principle that As in to the mass universe the rate of occurrence : progression of zigzag motion of wave currents will be as directly proportional to Brownian motion
And vice-versa
This is a Principle; a Principle that I term as the Principle of Zig-Zag Motion of Wave Currents as directly proportional to rate of propensity to Brownian motion q.v.
Principle of Intermittent Temperatures to Wave Currents as directly proportional to rate of propensity to : of Brownian motion
And vice-versa
By syllogistic reasoning from the PRINCIPLE OF BENDING OF WAVE CURRENTS TO THE ZIG ZAG MOTION OF THE SAME and OF THE PRINCIPLE OF ZIG-ZAG MOTION TO BROWNIAN MOTION:
Principle of Intermittent Temperatures to Wave Currents as directly proportional to rate of propensity to : of Brownian motion
Furthermore :
As by syllogistic reasoning from PRINCIPLE OF BENDING OF WAVE CURRENTS TO THE ZIG ZAG MOTION OF THE SAME and OF THE PRINCIPLE OF ZIG-ZAG MOTION TO BROWNIAN MOTION
and :
As in to the mass universe the rate of occurrence : progression of intermittent temperatures to wave : currents will be as directly proportional to the rate of propensity to : of Brownian motion
And vice-versa
This is a Principle; a Principle that I term as the Principle of Intermittent Temperatures to Wave Currents as directly proportional to rate of propensity to : of Brownian motion q.v.
Furthermore :
As by syllogistic reasoning from the Papers too :
As in to the mass universe the rate of [increase of] occurrence : progression of intermittent temperatures to wave : currents will be as directly proportional to the rate of [increase of] propensity to : of Brownian motion
And vice-versa
This is a Principle; a Principle that I term as the Principle of [Increase of] Intermittent Temperatures to Wave Currents as directly proportional to rate of [increase of] propensity to : of Brownian motion q.v.
As in to the mass universe the just enunciated above-mentioned (two) Principles are arcane and in as direct proportion widespread
And vice-versa
And vice-versa
This is a Principle; a Principle that I term as the Principle of Zig-Zag Motion of Wave Currents as directly proportional to rate of propensity to Brownian motion q.v.
Principle of Intermittent Temperatures to Wave Currents as directly proportional to rate of propensity to : of Brownian motion
And vice-versa
By syllogistic reasoning from the PRINCIPLE OF BENDING OF WAVE CURRENTS TO THE ZIG ZAG MOTION OF THE SAME and OF THE PRINCIPLE OF ZIG-ZAG MOTION TO BROWNIAN MOTION:
Principle of Intermittent Temperatures to Wave Currents as directly proportional to rate of propensity to : of Brownian motion
Furthermore :
As by syllogistic reasoning from PRINCIPLE OF BENDING OF WAVE CURRENTS TO THE ZIG ZAG MOTION OF THE SAME and OF THE PRINCIPLE OF ZIG-ZAG MOTION TO BROWNIAN MOTION
and :
As in to the mass universe the rate of occurrence : progression of intermittent temperatures to wave : currents will be as directly proportional to the rate of propensity to : of Brownian motion
And vice-versa
This is a Principle; a Principle that I term as the Principle of Intermittent Temperatures to Wave Currents as directly proportional to rate of propensity to : of Brownian motion q.v.
Furthermore :
As by syllogistic reasoning from the Papers too :
As in to the mass universe the rate of [increase of] occurrence : progression of intermittent temperatures to wave : currents will be as directly proportional to the rate of [increase of] propensity to : of Brownian motion
And vice-versa
This is a Principle; a Principle that I term as the Principle of [Increase of] Intermittent Temperatures to Wave Currents as directly proportional to rate of [increase of] propensity to : of Brownian motion q.v.
As in to the mass universe the just enunciated above-mentioned (two) Principles are arcane and in as direct proportion widespread
And vice-versa