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P. K 19.The law of interaction of objects through their fields
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P. K 19. The law of interaction of objects through their fields
The same-type fields of interacting material objects always and necessarily change the configurations of each other, which is the primary cause of the forces of their interaction. (K 1. 6) K 19
SECOND GREAT SIMILARITY
The laws of mechanics and the laws of electrodynamics have a certain similarity, since mass (inertial mass) and electric charge (annihilation mass) are different sides of the same primary substance, necessary for any quantum of matter. From the tables of dimensions of physical quantities 1 and 2, it is clearly seen that inert and annihilation masses are the same mass, but possessing different (electrical and inert) properties. The ratio of the electron charge to its inert mass (specific charge of the electron) k Q / M is a constant value.
kQ / M = - e / me = 1. 7588 × 10 11 C / kg.
The rest mass of an electron (it is also its inert mass, it is also its annihilation mass) me = 9. 109534 × 10 -31 kg.
1 C is a unit charge QU = 6, 242 × 10 18 – e, therefore the annihilation mass of 1 C is:
MC = 9. 109534 × 10 -31 kg × 6, 242 × 10 18 = 5, 686 × 10 - 12 kg.
Basic and derived units of mass, space and time
Table 1
| L0 | L1 | L2 | L3 | L4 | L5 | |
| Т-5 | Мощность ватт N Вт = Дж / с | |||||
| Т-4 | 1. Давление паскаль Па кг/м × с 2 Н/м 2 2. Механ. напряжен. кг/м× с 2 | Поверхн. натяжение Н/м | Сила F ньютон Н = кг× м/с 2 | 1. Момент силы кг× м 2/с 2 2. Работа, энергия джоуль Дж = Н × м | ||
| Т-3 | Массовый расход кг/сек | 1. Импульс кг × м/с | 1. Момент импульса кг× м 2/ с 2. Пост. Планка h | |||
| Т-2 | 1. Угловое ускорение радиан в секунду рад /с 2 2. Плотность кг/м3 | 1. Ускорение м/с2 2. Напря -жённость гравитац. поля G кг/м 2 | Потенциал гравитац. поля WG кг/м | 1. Масса M килограмм кг 2. Полный поток напр. грав. поля NМ м 3/с 2 | Момент инерции кг × м 2 | |
| Т-1 | 1. Угловая скорость w рад / с 2. Частота герц Гц 1 / с | Скорость v метр в сек. м/с | Скорость изменения площади м 2/ с (И. Кеплер 1609 г. ) | Расход м3/с | ||
| Т 0 | 1. Угол a град, рад. 2. Грав. пост. g | Длина L метр м | Площадь S квадратный метр м 2 | Объём V кубический метр м 3 |
Dimensions of basic and derived units of electric charge
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Table 2
| L0 | L1 | L2 | L3 | L4 | L5 | |
| Т-5 | Мощность N ватт Вт Вт = Дж/с Вт = А × В | |||||
| Т-4 | Сила F ньютон Н = кг× м/с 2 Дж /м Кл × В/м | 1. Работа, энергия джоуль Дж Н × м Кл × В | ||||
| Т-3 | 1. Напр. магнитного поля Є А / м 2. Намагни-ченность А/м | 1. Электри-ческий ток I ампер А 2. МДС ампер А | 1. Механич. импульс кг × м/с 2. Электр. импульс Кл × м/с | 1. Момент импульса кг× м 2/с 2. Пост. Пл. h 3. Магнитн момент эл. тока А × м 2 | ||
| Т-2 | Угловое ускорение радиан в секунду рад / с 2 | 1. Ускорение м / с 2 2. Напря -жённость эл. поля E В / м | 1. Потенц. электрич. поля WQ, (j ) 2. Разность потенц. эл. поля U вольт В | 1. Электр. зарядQ кулон Кл 6, 242× 10 18 e 2. Полный поток напр. электрич. поля заряда N В× м | Электрич. момент диполя Кл × м | Момент инерции кг × м 2 |
| Т-1 | 1. Угловая скорость w рад / с 2. Магн. индукция тесла Тл=Вб/м2 | Скорость v метр в сек. м/с | 1. Скорость изменения площади м 2/ с 2. Магнитн. поток Ф вебер Вб Вб = В × с | Расход м 3/ с | ||
| Т 0 | 1. Угол a град, рад. 2. Электр. пост. eо | 1. Длина L метр м 2. Электр. ёмкость фарад Ф Ф = Кл/В | Площадь S кв. метр м 2 | Объём V куб. метр м 3 | L -2 × Т 2 Магнитная постоянная m0 Гн / м | L -1 × Т 2 Индуктив-ность генри Гн Гн = Вб/А с 2 /м |
P. K 20
Since the electric charge of an electron is its annihilation mass, the ratio of its charge to its mass k Q / M = 1, 759 × 10 11C / kg is a dimensionless coefficient. The use of this coefficient makes it possible to express the charge in kilograms, and kilograms of the annihilation mass of one sign, respectively, to express in pendants. (K 1. 7) K 20
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This greatly simplifies our understanding of electrical phenomena.
And further.
P. K 23
Since the mass of annihilation and its electric field are one and the same, but existing simultaneously in different spaces, then these entities are always equal to each other. (K 1. 7) K 23
In general, here a complete association of a “hall of mirrors” arises, when one real object appears simultaneously in many forms. Therefore, be careful not to confuse the subject with its reflection.
• You cannot add a pendant to its annihilation mass.
• You cannot add 1 kg of inert mass to 1 kg of its annihilation mass.
• Do not add charge to its electric field.
• You cannot add inert mass to its gravitational field. Otherwise, it will lead to an unjustified doubling of the same entity. For the first time, such a warning was expressed by Niels Bohr in the form of his famous principle of complementarity.
The unit of inert mass (M) kilogram (kg) is the basic SI unit and has an international prototype for the kilogram.
The unit of length (L) meter (m) is the basic SI unit and is equal to the distance traveled in vacuum by a plane electromagnetic wave in 1/299792458 s.
The unit of time (T) second (s) is the basic SI unit and is equal to 9192631770 periods of radiation corresponding to the transition between two hyperfine levels of the ground state of the cesium-133 atom.
The unit of electric charge (Q) (C) - coulomb (1 C = 6, 242 × 10 18 - e) is not the basic SI unit, since today the ampere is considered the basic unit of electricity (1 A = 1 C / 1 s). But now the pendant can also be expressed in units of the annihilation mass MC (1 C = 5, 686 × 10 - 12 kg).
2012-12-15
THIRD GREAT SIMILARITY
Any central field emanating from one material or bodily point represents the full stream of intensity of this field, directed to its material or bodily base. This has already been stated in our ontology.
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