Introduction …..……………………………………………..……………

4

Author’s foreword ..……………………..………………………………..

10

§ 1. From ball lightning to the model of bead lightning ……………..…...

11

Conclusions ……………………………..…………………………….

19

§ 2. Orbital laws of planets and their moons …...………...……...……….

20

§ 3. The model of natural evolution of the system "Earth–Moon" …….…

30

Conclusions ……………………………………………………………

44

§ 4. On Poincaré transformations in inertial reference frames …………...

45

Basic relations ………………………………………..……………….

45

Reference frames with parallel coordinate axes ……..……….……….

53

Reference frames with the initial shift ………………………………..

61

Poincaré transformations …..…………………………..……………...

62

Conclusions ……………………………………………………………

64

§ 5. A specific form of gauge function in the theory of relativity ….…….

66

Conclusions ……………………………………………………………

81

§ 6. Redshift and cosmic microwave background radiation as the consequence of interaction of photons with new particles …..…………...

84

Redshift ………………………………………………………………..

85

Model of a photon …..…………………………………………………

88

The mechanism of energy loss by photons ….….………..……………

90

Similarity of nuclear and star systems .………………….………….....

91

Redshift and Metagalaxy ……...……………..………….…………….

96

Dark matter …….………………………………..………….…………

100

Apparent stellar magnitudes ...……..…………………………….……

104

Cosmic microwave background radiation (CMBR) ….………………

106

Luminosity of matter in the Metagalaxy …….……………………….

109

Evolution of elementary particles ………………………………….…

110

Conclusions ……………………………………………………….…..

112

§ 7. Model of gravitational interaction in the concept of gravitons ............

114

The inverse-square law ………………………………………...……..

114

The absorption coefficient and gravitational shielding ….……………

120

Strong fields ….……………………………………………………….

122

The motion of energy ………….….………………………………….

123

The law of inertia ………………………………………….………….

129

Alternative derivation of Newton’s formula ….………………………

130

The inertial force …….………………………………………………..

138

The relativity of motion …………..……………...……………………

139

Gravitons and the relativity theory ………….……………...…………

141

Conclusions ………………………………………….………………..

144

§ 8. Mass, momentum and energy of gravitational field ..…….………….

149

Discussion ….………………………………………………………….

153

§ 9. Electromagnetic and gravitational pictures of the world .….………...

156

Relativity and electromagnetism ……….……………………………..

157

Electrodynamics in four-dimensional Minkowski world …..…………

161

General relativity ………..…………………………………………….

166

The Lorentz-invariant theory of gravitation …...…….………...……...

168

LITG in four-dimensional Minkowski world …………………………

172

LITG and general relativity ………………………………………...…

175

Conclusions …………………………….………………………..……

176

§ 10. On the connection of nucleons in deuteron …….…………….….…

181

The characteristics of nucleons rotation ….…………………………...

182

The energy balance ..……………….…………………………………

185

The relation between mass and energy ……………………………….

189

Magnetic forces and torsion in the deuteron ………..…………………

192

The electric quadrupole moment of the deuteron ………….…….……

201

Angular momenta and rotational energies ……...….…………….……

203

Numerical estimates of the forces and energies …..…….…………….

205

Calculations of the equilibrium state of deuteron ….………..………..

208

Diproton and dineutron …...…………………………………………..

216

The annihilation of nucleons …...…………………………….……….

218

Nuclear forces ………...……………………………..………………..

220

The structure of simple nuclei …....……………………………….…..

225

Conclusions …………………………….……………………………..

230

§ 11. The structure of elementary particles and the nature of weak interaction ………………………………………………………………...

235

Neutron stars …….….………………………….……………………..

235

The models of the electromagnetic structure of nucleons ….….……...

240

The decay of the neutron …………...………………………...……….

254

Weak interaction ……….……..………………………………………

259

Conclusions …………………………..…………………….…………

273

§ 12. Quarks as specific quasi-particles ..…...…………………….….…..

275

Quarks in nucleons ..……..……………………………………………

276

Quark construction set …....…………………………………………..

277

The magnetic moments …...………...…………………………………

289

Quarks and bosons in weak interaction ..…….……...………………...

291

Some decay reactions …………………………………………....……

295

Two-particle reactions with pions …….………………………………

301

The features of nucleon resonances ……….……..……………………

313

Regge trajectories ….…………………………………….……………

324

Multiplets …….………………….……………….……………………

329

Conservation laws and symmetries ……………………………..…….

334

Conclusions ……………………………………………………………

344

§ 13. On the issue of the radius of proton .………..……………..…..……

346

The electromagnetic angular momentum ………….……………..…...

348

The gravitational angular momentum …....………..….……….………

359

Conclusions …………………………..……………………………….

368

§ 14. The properties of electron ……………..…….….…………………..

372

Description of the model of the electron ……..……………………….

381

The stability of atoms ……...……….……………...……………..…...

394

On the second postulate of Bohr ……..………………………………..

404

The star analogue of the hydrogen-like atom ……….…………..…….

412

The electrons in helium ……...………………………….………..…...

420

The spin of the electron …...……….……….....………………………

431

The elliptical orbits …..…….….…………………..………..…………

444

The electron  s-states ………….………………..…..…………………

451

The magnetic moments …………………..……..……………….……

458

The energy fluxes ……..………………………...…………………….

469

Multielectron atoms ...…………………………………………………

478

The fine structure and the multiplicity …….…..………………………

487

Relativistic corrections and the Lamb shift …...………………………

498

Magnetomechanical effects ..……….…………………..……………..

504

De Broglie waves .………………..………..………………………….

509

Electron diffraction …….….…………………………………..………

517

The electrons and emission ..……..……………………………………

519

Molecules ..….………………………………………..……………….

529

Results ……...………………………………..………………………..

538

Conclusions …………………………………………………………….…

542

List of references …………………………………………………………

556

About the author ..………………………………………………………...

568