_____________________________________________________________________________ | File Name : COMPULS3.ASC | Online Date : 09/19/94 | | Contributed by : Perry Mick | Dir Category : GRAVITY | | From : KeelyNet BBS | DataLine : (214) 324-3501 | | KeelyNet * PO BOX 870716 * Mesquite, Texas * USA * 75187 | | A FREE Alternative Sciences BBS sponsored by Vanguard Sciences | |---------------------------------------------------------------------------| VI. PROJECTS OF EXPERIMENTAL VERIFICATION OF OUR NEW EXPLANATION OF GRAVITATION AND ITS UTILIZATION IN PRACTICE The experimentum crucis of the first order is the use of gravitational energy by transforming it into another form of energy -- particularly electricity. A detailed project of the solution of the three principal technical problems is proposed and generally characterized. Radiational theory of gravitation for the first time offers the possibility of setting and managing this task, so important for the future of all mankind. Gravitation is an inexhaustible source of energy, omnipresent, permanent, easily available -- without any hard work imposed on man, without greater costs and without any hazards involved. Six projects of experimental verification of the manifestations of the Earth's gravity are set up, i.e. measurement of the mechanical effect of cosmic radiation upon a body placed in a huge radiational shade of the Earth. Details of the first project carried out in 1950 in cooperation with a group of experts from the National Institute of Geophysics in Prague are described. A weight increase was gravimetrically determined in a deep shaft and in adjacent places on all floors. In spite of the fact that the found departures were close to the limit of reliability, this unambiguous result can be regarded as a support of our theory, stating that free arrival of cosmic radiation is felt here. The next group consists of 6 projects concerning cosmological research. The problem is testing the validity of the principle of variable speed of light. VII. RADIATIONAL THEORY OF GRAVITATION AND THE STRUCTURE OF MATTER PROBLEM. The premises of the radiational theory of gravitation and some of the consequences of this new conception are confronted with the findings on the structure of matter. They are the following problems: (1) definition of material radiation, (2) structure of material radiation, (3) interaction between radiation and material macrosystems, (4) role of radiation in interaction between so-called macroworld and atomic microworld, (5) problem of the inner structure of a radiational minisystem, (6) the atom and radiational minisystems, (7) the principle of variable speed of radiation, (8) energy of material radiation, (9) quantum measure of the energy of material radiation, and (10) material radiation and wave properties of matter. Detailed analysis enables the author to make some conclusions and to propose hypothetical suggestions of general nature. The existence of a broad scale of minisystems of material radiation makes it possible not only to solve the problem of space and nature of gravitation but it also contributes to the solution of the problem of the structure of matter. the idea that the so-called elementary particles are indivisible must be given up. On the contrary, interaction between atom and radiation shows that the same universal structural feature of matter underlies both of these areas: aggregation (inner binding) and dissociation of subsystems and minisystems of always a lower order. It was stated by V.I. Lenin at the beginning of this century: "Even the electron is inexhaustible". As it was possible to explain atomic structure and intraatomic events on the grounds of our knowledge of nucleons and electrons, also nucleons, electrons and photons must be supposed and proved to be in fact material minisystems binding (association) in themselves their inner constituents (i.e. minisystems of a lower order). Of the highest importance for understanding the structure of the matter is the finding (derived from the relation between emission and absorption of atomic radiation) that the radiational minisytems and bound atomic particles are either identical or have their inner elements in common. A hypothetical outline of the inner structure of photon, electron (negatron and positron), neutron (two types: totally neutral and balanced), proton, and antiproton, is presented. Photon is a radiational minisystem of the (n-1) order. The term photon is now currently used to design the energetic quantum hv which is variable. In the author's opinion, it would be more logical to restrict it to an individual minisystem of the (n-1) order whose sequence or chain or ray with a number v of photon minisystems gives the quantum hv. In this narrow sense, the photon contains a pair of whirling infraphotons i.e. minisystems of the (n-2) order. Electron is a sequence or ring of individual minisystems as well. It probably is the "planetary" type of a minisystem. Its central constituent (nucleolus) is made up of the aggregation of an infraneutron and infraelectron, its orbiting constituent of an infraelectron carrying an opposite charge. Infraelectrons may be identical with infraphotons. The nucleoli composed of infraneutrons and infraelectrons can be the corner-stones of the neutrons of the atomic nucleus. Neutron is a minisystem of the (n) order. A neutron of balanced electric charge may be a combination of an immense number of infraneutrons, nucleoli of negatrons and nucleoli of positrons. As subsystems of the neutron there may develop whole minisystems of negatrons and positrons. Violent disintegration (the neutron bomb) can, moreover, release a highly penetrant photon and infraphoton radiation. Proton is a neutron devoid of the negatron. Antiproton is a neutron devoid of the positron. Energy is not the antithesis of matter but the measure of the movement of material macrosystems and minisystems of material radiation -- both of the free total movement of the whole system and inner bound motion of its constituents. Photon contains a pair of infraphotons the masses of which are equal (m1 = m2 = m). The system travels at the translational velocity c. The kinetic energy E = 2 x 1/2 mc^2 = mc^2. This relationship is formally identical with the famous Einstein's equation of the equivalence of matter and energy. It is an axiomatic consequence of our theory of material nature of radiational minisytems. It is not evidence of the equivalence of mass and energy or, even, rejection of the concept of matter and its replacement with energy. On the contrary, the formula expresses the kinetic energy of the material minisystem. It can be applied generally to all the systems of matter. The total energy of a sequence v of photon minisystems flying at the speed c is expresses in the relationship E(v) = mc^2v. [In the original text E(v) is written "E subscript v"] Planck's famous equation giving the quantum nature of radiation at v frequency is E(v) = hv. Joining these two equations we obtain the relationship h = mc^2. This means that Planck's elementary quantum of effect h equals kinetic energy of a single photon minisystem. The quantum composition of radiation energy can be explained from the existence of material radiational minisystems. An oscillating pair of infraphotons travelling at the speed c gives waves of the wavelength l and frequency v, while c = lv. [in the original text l is the symbol lambda] The impulse of the whirling infraphoton pair of mass m has the value p = 2mc. The kinetic energy of the pair E = 2 x 1/2 mc^2 = mc^2 = h. Kinetic energy of the whole photon sequence E(v) = mc^2v = hv. Introducing the value mc = h/c from h = mc^2 and substituting c = lv we get the impulse of the whole photon as p(v) = 2mc = 2hv/c = 2hv/lv = 2h/l. The wavelength (the same for both infraphotons) is l = 2h/p(v). For a single infraphoton l = h/p(v), which is deBroglie's wave equation. [In the original text p(v) is p subscript v] The derivation of this formula is a direct consequence of our theory of material radiation. From the explanation of the structure of radiational minisystems it follows that all mass, i.e. every material minisystem and macrosystem, has wave manifestations, too. It is, however, no "material wave associated with mass" but always a manifestation of the inner, bound, oscillating movement of constituents (subsystems, minisystems) of mass, i.e. of systems of a lower order. The premises and consequences of the radiational theory of gravitation do not contradict hitherto findings but, on the contrary, they facilitate new solution of some of the fundamental problems of the structure of matter. -----------------------------------------------------------------------------