Mechanical dimensionality for electrodynamical quantities
J.G. Kluyshin, 192242. St. Petersburg, Russia,
Budapest str.5-3-241
St. Petersburg State University
Faculty of Applied Mathematics
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E-mail: http//www physical-congress spb.ru Klyushin & shaping.org
Abstract. New approach for gravitational field investigation gives a possibility to express electrodynamical quantities in orthodox mechanical meaning.
In his paper (1) the author proposed equations describing gravitational field in terms of Maxwell concept for electromagnetic one. One of the corrolaries of the proposed approach gives a possibility to tie mass and electris charge. The results of the experience on ratio berween electric repulsion and gravitational attraction of two electrons were used to find value for electric charge:
å = 7,3
× 10-10 kg/s (1)Electric charge characterize mass magnitude passing through rotating thor section per a second. Hence
1 C = 4,6
× 109 kg/s (2)If electric charge has dimension kg/s then electric field has dimension of velocity m/s and magnetic field is nondimensional and apparently describes rotation angle. Let us find electric constant quantity. Experiments with static charges show that
and taking (2) into account
e
î = 1,87 × 108 êg/m3 (3)In all appearance this constant charactetize the substance filling the space. Let us call this substance physical vacuum. Now we can find magnetic constant
(4)
1/m î – opens to be volume compression module for physical vacuum.
Physical vacuum impedance
(5)
It is known that this quantity is equal to 377 W . Hence
1 W = 4,75 × 10-20 m2s/kg (6)
m o in (4) was found using e î value got in static experiments with charges. Let us try to find it proceeding from “magnetic” reasons. Experiments with parallel currents show that
But according to definition ampere is numerically equal to coulomb. Hence
(7)
Different experiments lead us to the same quantity for m î.
Let us find mechanical dimensions for some other electrodynamical quantities.
1V = 10 W × 1 A = 2,19 × 10-10 m2/s
Voltage dimension naturally coincides with electric potential one.
1 F = 1 C /1V = 2,1× 1019êg/m2
1 Wb = 1 C × 1 W = 2,2 × 10-10 m2
1 H = 1 Wb / 1A = 4,48 × 10-20 m2s2/êg
1/1 H = 2,1 × 1019êg/m2s2 , i. e
1/F is numerical unity elements can be found analogically.
References
Kluyshin J.G On the Maxwell approach to gravity, St. Petersburg, Russia, 1993, Web site: http//www physical-congress spb.ru
Ñorrespondence:
J.G. Kluyshin, Russia,
192242. St. Petersburg,
Budapest str.5-3-241