Chase.j • OOO [April 15, 



21. Nodal Coordination. 



We see, therefore, from Notes 17-20, that the five nodal positions, which 

 are of the greatest photodynamic importance in the solar system, show- 

 successive coordinating influences of universal sethereal oscillation ; for, if 



designate nascent velocity \'o~) by V, 



V„, or the sum of the reactionary gravitating impulses at Sun's surface 

 during a half-rotation, is the velocity of light. 



Va, or the sum of the reactionary gravitating impulses at Earth's surface 

 during a half rotation, is due to the sum of the reactionary impulses at 



Sun's surface during the time of communicating orbital velocity, -y^—- ; 



part of the velocity being compensatory of orbital subsidence, and the rest 

 giving axial rotation. 



Vfl, or the sum of the reactionary gravitating impulses at Venus's sur- 

 face during a half-rotation, is due to the belt-rupturing impulses of the re- 

 actionary impulses at Earth's surface. 



V^, or the sum of the reactionary gravitating impulses at Jupiter's sur- 

 face during a half-rotation, is due, in part, to the sum of the reactionary 

 impulses at Sun's surface during the time of communicating orbital veloc- 

 ity, and in part to the acceleration of Sun's atmospheric condensation to 

 the locus of nebular rupture. 



V^, ©r the sum of the reactionary gravitating impulses at Saturn's sur- 

 face during a half- rotation, is the incipient velocity which, when acceler- 

 ated by solar atmospheric subsidence to the rupturing locus of its belt, be- 

 came equivalent to the sum of the reactionary impulses at Sun's surface 

 during the time of communicating orbital velocity. 



The joint relations of Earth's eccentricity, Earth's semi-axis major, Sun's 

 semi-diameter, the velocity of light, planetary velocity, nascent velocity of 

 Sun and Earth, and Sun's equatorial velocity of rotation, which are shown 

 in Note 17, are wholly inexplicable upon any hypothesis which fails to 

 recognize the equal actions and reactions of an elastic medium. They are 

 all, however, simple and natural results of photodynamic influence. Sun's 

 nascent velocity is the velocity of light, Yq ; the limit of circular- orbital 



4 



velocity (Vi= (/5'r)o = 270.68 miles), is equivalent to Vq h- (1 + e)^ Tzn ; 



Earth's nascent velocity ( -^ j == 261.82 miles, is equivalent to Y^ -^ 



(1 -(- e)^ ; Sun's equatorial velocity of rotation (V2 = 1.233 miles), is 



(1 + «)3 /gt\ 

 equivalent to — X V "o" ) • 



n \ /i / a 



22. Boundaries of the Dense Belt. 



The uncertainty of Mercury's mass makes any attempt to determine its 

 nascent velocity merely provisional. It seems probable, however, that it 

 bears the same proportion to Earth's nascent velocity as Mercury's radius 



