PACS numbers

01.50.Pa Laboratory experiments and apparatus 41.20.Cv Electrostatics; Poisson and Laplace equations, boundary-value problems 45.50.−j Dynamics and kinematics of a particle and a system of particles
  1. G.N. Gaidukov, I.N. Gorbatyy “Electromagnetic analogies in electro- and magnetostatics problems62 413–420 (2019)
    03.50.De, 41.20.Cv, 41.20.Gz (all)
  2. O.G. Ryazhskaya “Creation of the FIAN Neutrino Laboratory and underground laboratories61 912–920 (2018)
    01.50.Pa, 01.60.+q (all)
  3. E.A. Arinstein “Relation between energy conservation and dynamics (Comment on "Analytical mechanics and field theory: derivation of equations from energy conservation" by N.A. Vinokurov (Usp. Fiz. Nauk 184 641 (2014) [Phys. Usp. 57 593 (2014)]))58 309–310 (2015)
    02.30.Em, 02.30.Hq, 45.20.−d, 45.50.−j (all)
  4. N.A. Vinokurov “Relation between energy conservation and equations of motion (A reply to the comment by E A Arinshtein (Usp. Fiz. Nauk 185 333 (2015) [Phys. Usp. 58 (3) (2015)]) on "Analytical mechanics and field theory: derivation of equations from energy conservation" (Usp. Fiz. Nauk 184 641 (2014) [Phys. Usp. 57 593 (2014)]))58 311–312 (2015)
    45.20.−d, 45.20.Jj, 45.20.dh, 45.50.−j (all)
  5. A.I. Zhakin “Electrohydrodynamics of charged surfaces56 141–163 (2013)
    41.20.Cv, 67.25.−k, 68.03.Hj (all)
  6. R.Z. Muratov “Some useful correspondences in classical magnetostatics, and the multipole representations of the magnetic potential of an ellipsoid55 919–928 (2012)
    41.20.Cv, 41.20.Gz (all)
  7. V.A. Saranin “Electrostatic oscillators55 700–708 (2012)
    01.50.Pa, 41.20.Cv, 45.50.−j (all)
  8. V.B. Shikin “Instability and reconstruction of a charged liquid surface54 1203–1225 (2011)
    41.20.Cv, 67.25.−k, 68.03.Hj (all)
  9. S.P. Kuznetsov “Dynamical chaos and uniformly hyperbolic attractors: from mathematics to physics54 119–144 (2011)
    05.45.−a, 45.50.−j, 84.30.−r (all)
  10. M.Ya. Agre “Multipole expansions in magnetostatics54 167–180 (2011)
    41.20.Cv, 41.20.Gz (all)
  11. V.A. Saranin, V.V. Mayer “Interaction of two charged conducting balls: theory and experiment53 1067–1074 (2010)
    01.50.My, 01.55.+b, 41.20.Cv (all)
  12. G.A. Markov, A.S. Belov “Demonstration of nonlinear wave phenomena in the plasma of a laboratory model of an ionospheric-magnetospheric density duct53 703–712 (2010)
    01.50.Pa, 52.35.−g, 94.20.−y (all)
  13. V.P. Kazantsev, O.A. Zolotov, M.V. Dolgopolova “The interaction energy of electric multipoles in a plane and a point-multipole approximation for the electric field of conductors49 517–522 (2006)
    03.50.De, 41.20.Cv (all)
  14. I.I. Sobel’man, V.N. Sorokin “On experiments in search of the T-odd electric dipole moment of atomic 129Xe48 939–952 (2005)
    06.20.−f, 11.30.Er, 32.10.Dk, 32.60.+i, 41.20.Cv (all)
  15. E.V. Kholopov “Convergence problems of Coulomb and multipole sums in crystals47 965–990 (2004)
    41.20.Cv, 61.50.Lt, 75.10.−b, 81.40.Rs (all)
  16. S.I. Blinnikov, L.B. Okun, M.I. Vysotskii “Critical velocities c/sqrt{3} and c/sqrt{2} in the general theory of relativity46 1099–1103 (2003)
    03.30.+p, 45.50.−j (all)
  17. V.A. Saranin “Electric field strength of charged conducting balls and the breakdown of the air gap between them45 1287–1292 (2002)
    41.20.Cv, 52.80.−s (all)
  18. N.S. Stepanov, A.V. Shisharin “Errata to the paper by N S Stepanov and A V Shisharin ’Measuring the gravitational constant in a university laboratory’ [Physics-Uspekhi, May 2002, 45 (5) 561-564]45 791–791 (2002)
    01.50.Pa, 04.80.Cc, 06.20.Jr (all)
  19. N.S. Stepanov, A.V. Shisharin “Measuring the gravitational constant in a university laboratory45 561–564 (2002)
    01.50.Pa, 04.80.Cc, 06.20.Jr (all)
  20. V.P. Kazantsev “An example illustrating the potentiality and peculiarities of a variational approach to electrostatic problems45 325–330 (2002)
    03.50.De, 41.20.Cv (all)
  21. V.A. Saranin “On the interaction of two electrically charged conducting balls42 385–390 (1999)
    41.20.Cv
  22. M.L. Martinson, A.V. Nedospasov “On the charge density inside a conductor carrying a current36 (1) 23–24 (1993)
    41.20.Cv
  23. L.N. Kryzhanovskii “Pieter van Musschenbroek (on the tercentenary of his birth)34 (3) 265–268 (1991)
    01.60.+q, 41.20.Cv, 41.20.Gz (all)
  24. M.A. Miller “Charge and current electrostatics. Nonstationary sources of static fields27 69–75 (1984)
    41.20.Cv
  25. B.Sh. Perkal’skis, V.L. Larin et alClassroom installation for the observation of the Doppler phenomenon with the aid of a laser15 121–123 (1972)
    07.60.Ly, 42.79.Bh, 42.60.Jf, 01.50.Pa (all)
  26. V.S. Khristosenko, A.A. Nedel’ko “Study of the properties of ferromagnetic films in a special physics laboratory course10 405–408 (1967)
    01.50.Qb, 01.50.Pa, 75.70.Ak, 75.60.Ch, 75.60.Ej (all)
  27. T.S. Velichkina, O.A. Shustin, I.A. Yakovlev “Gas laser—lecture demonstrations of its operation and its use in physics teaching laboratories9 301–303 (1966)
    42.55.Lt, 01.50.My, 42.60.Da, 42.60.Jf, 01.50.Pa (all)
  28. V.P. Skripov, E.N. Sinitsyn “Experiments with a superheated liquid7 887–888 (1965)
    01.50.Pa, 47.80.−v (all)
  29. L.N. Kaptsov “Lecture demonstration of ponderomotive forces in electrostatics with the aid of a soap film6 324–324 (1963)
    47.55.D−, 41.20.Cv (all)
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