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Обзоры актуальных проблем


Маятник с вибрирующим подвесом


Развитие механики несомненно тесно связано с изучением маятника. После того как Галилей обратил внимание на изохронность его колебаний, появилась возможность создать весьма совершенный механизм для измерения времени-маятниковые часы, точность которых только недавно была превзойдена кварцевыми часами. Благодаря изучению маятника были найдены методы так же точно измерять время, как измерялись длина и масса, что было необходимо, чтобы развитие механики могло итти по твёрдому пути.

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DOI: 10.3367/UFNr.0044.195105b.0007
URL: https://ufn.ru/ru/articles/1951/5/b/
Цитата: Капица П Л "Маятник с вибрирующим подвесом" УФН 44 7–20 (1951)
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  2. Schmidt-Kaler F D F, Bode N R et al Applied Physics Letters 128 (3) (2026)
  3. Lazarus A, Trélat E Phys. Rev. E 113 (3) (2026)
  4. Xiedeng D, Celli P, Porfiri M Nat Commun (2026)
  5. Araújo G C, Neto José Laudelino de Menezes et al J Dyn Diff Equat (2025)
  6. Kilin A, Karavaev Yu Theor appl mech (Belgr) 52 (2) 233 (2025)
  7. Schindler S T, Herzig Sh H Photon. Res. 13 (4) 905 (2025)
  8. Araujo G C, J de Andrade Keity Murielly, de Menezes N J L Regul. Chaot. Dyn. (2025)
  9. Volodin I, Alabuzhev A Microgravity Sci. Technol. 37 (5) (2025)
  10. Ha E Journal of Undergraduate Research in Physics and Astronomy 35 (1) (2025)
  11. Levenshtam V B J Math Sci 292 (6) 746 (2025)
  12. HE Zhangming, ZHAI Dexun et al Acta Phys. Sin. 74 (11) 110501 (2025)
  13. Kolmychek I A, Karashtin E A et al Phys. Rev. B 111 (4) (2025)
  14. Luo Ya, Sheng K Int. J. Bifurcation Chaos 35 (12) (2025)
  15. Belichenko M V, Kholostova O V Regul. Chaot. Dyn. 30 (5) 847 (2025)
  16. Tovstik T P, Belyaev A K Vestnik St.Petersb. Univ.Math. 58 (4) 594 (2025)
  17. Kryukov N, Oks E Eur. Phys. J. Plus 139 (10) (2024)
  18. Makhlin Yu, Zorin A B Žurnal èksperimentalʹnoj i teoretičeskoj fiziki 166 (1) 98 (2024)
  19. Kuzmanovski D, Schmidt J et al Phys. Rev. X 14 (2) (2024)
  20. Semenov M E, Borzunov S V, Meleshenko P A Nonlinear Dyn 112 (21) 18685 (2024)
  21. Karashtin E A, Murzina T V Phys. Rev. B 109 (2) (2024)
  22. Yerzhakov H, Yeh T-T, Balatsky A Phys. Rev. B 110 (14) (2024)
  23. Sennitskii V L jour 166 (1) 99 (2024)
  24. Burov A A, Nikonov V I Acta Mech 235 (7) 4091 (2024)
  25. Shukrinov Yu M, Botha A E Phys. Part. Nuclei 55 (5) 1352 (2024)
  26. Judi A, Banazadeh A, Asghari IJMO 14 (4) 142 (2024)
  27. Demidenko G V, Myagkikh K S Lobachevskii J Math 44 (3) 883 (2023)
  28. Eroshenko Yu N Успехи физических наук 193 (09) 1023 (2023) [Eroshenko Yu N Phys. Usp. 66 (09) 964 (2023)]
  29. Jiang J, Bernhart E et al Phys. Rev. Lett. 131 (3) (2023)
  30. Belyaev A K, Polyakova O R, Tovstik T P Advanced Structured Materials Vol. Solid Mechanics, Theory of Elasticity and CreepThe Effect of Longitudinal Oscillations Resonance on Stability and Domains of Attraction in the Generalized Kapitsa Problem185 Chapter 7 (2023) p. 93
  31. Kilin A A, Pivovarova E N Mathematics 11 (18) 3948 (2023)
  32. Blaclard G, Quéré F et al Phys. Rev. E 107 (3) (2023)
  33. Fedoreshchenko N V jour 27 (1) 61 (2023)
  34. Ramachandran R, Nosonovsky M Applied Mechanics 4 (1) 248 (2023)
  35. Polekhin I Meccanica 58 (7) 1205 (2023)
  36. Perestyuk M O, Slyusarchuk V Yu J Math Sci 270 (2) 335 (2023)
  37. Kryukov N, Oks E Dynamics 2 (2) 73 (2022)
  38. Kozhevnikov V S, Ponomarev R S, Shmyrova A I Instrum Exp Tech 65 (6) 924 (2022)
  39. Golovinski P A, Dubinkin V A Russ Phys J 65 (1) 21 (2022)
  40. Korolkov S D, Izmodenov V V Monthly Notices of the Royal Astronomical Society 518 (3) 4422 (2022)
  41. Nesterov S V, Baydulov V G Processes in GeoMedia—Volume IV Springer Geology Chapter 32 (2022) p. 311
  42. Shukrinov Yu M Успехи физических наук 192 (04) 345 (2022) [Shukrinov Yu M Phys.-Usp. 65 (4) 317 (2022)]
  43. Daqaq M F, Alhadidi A H, Khazaaleh Sh Nonlinear Dyn 110 (4) 3001 (2022)
  44. Korolev I, Aliev T A et al J. Phys. Chem. B 126 (16) 3161 (2022)
  45. Gloy J F, Siemens A, Schmelcher P Phys. Rev. E 105 (5) (2022)
  46. Kryukov N, Oks E Foundations 2 (1) 105 (2022)
  47. Kryukov N, Oks E OJM 11 (03) 27 (2021)
  48. Sabbouh M, Nikitina A et al Ultrasonics Sonochemistry 80 105817 (2021)
  49. Kryazhev Yu A, Gorin E Yu Russ. Engin. Res. 41 (11) 1054 (2021)
  50. Sennitskii V L Thermophys. Aeromech. 28 (3) 347 (2021)
  51. Cubero D, Renzoni F Phys. Rev. E 103 (3) (2021)
  52. Semenov M E, Solovyov A M et al Mechanisms and Machine Science Vol. Vibration Engineering and Technology of MachineryStabilization of a Flexible Inverted Pendulum via Hysteresis Control: The Bouc-Wen Approach95 Chapter 17 (2021) p. 267
  53. Ilgamov M A, Shakiryanov M M Dokl. Phys. 66 (2) 51 (2021)
  54. Ciȩżkowski M Journal of Sound and Vibration 491 115761 (2021)
  55. Kilin A, Pivovarova E 2021 International Conference "Nonlinearity, Information and Robotics" (NIR), (2021) p. 1
  56. Oks E New Astronomy 89 101646 (2021)
  57. Petrov A G Vestnik St.Petersb. Univ.Math. 54 (3) 273 (2021)
  58. Belyaev A K, Morozov N F et al Acta Mech 232 (5) 1743 (2021)
  59. Vetchanin E V 2021 International Conference "Nonlinearity, Information and Robotics" (NIR), (2021) p. 1
  60. Kryukov N, Oks E Open Physics 19 (1) 11 (2021)
  61. Oks E Dynamics 1 (1) 95 (2021)
  62. Petrov A G Vestnik St.Petersb. Univ.Math. 54 (2) 151 (2021)
  63. (PROCEEDINGS OF THE SCIENTIFIC CONFERENCE ON RAILWAY TRANSPORT AND ENGINEERING (RTE 2021)) Vol. PROCEEDINGS OF THE SCIENTIFIC CONFERENCE ON RAILWAY TRANSPORT AND ENGINEERING (RTE 2021)Comparing the various defuzzification methods operation in the Mamdani type fuzzy controllers in automatic control systemsI. V.Kulikova2389 (2021) p. 040002
  64. Garai S, Guha P Nonlinear Dyn 103 (3) 2257 (2021)
  65. Porfiri M, Jeter R, Belykh I Phys. Rev. Research 3 (2) (2021)
  66. Alhadidi A H, Khazaaleh Sh, Daqaq M F Phil. Trans. R. Soc. A. 379 (2198) (2021)
  67. Yao N Y, Nayak Ch et al Nat. Phys. 16 (4) 438 (2020)
  68. Taha H E, Kiani M et al Sci. Robot. 5 (46) (2020)
  69. Guha P Acta Mech 231 (2) 815 (2020)
  70. Shevchenko I I Astrophysics and Space Science Library Vol. Dynamical Chaos in Planetary SystemsChaotic Behaviour463 Chapter 1 (2020) p. 3
  71. Medvedskii A L, Meleshenko P A et al J. Comput. Syst. Sci. Int. 59 (4) 533 (2020)
  72. Rudenko O V Dokl. Phys. 65 (9) 317 (2020)
  73. Kryukov N, Oks E Eur. Phys. J. D 74 (5) (2020)
  74. Hasan M S, Nosonovsky M Phys. Rev. Fluids 5 (5) (2020)
  75. Aretxabaleta X M, Gonchenko M et al Mathematics 8 (4) 509 (2020)
  76. Guha P Eur. Phys. J. D 74 (5) (2020)
  77. Kumar P, Benzi R et al Phil. Trans. R. Soc. A. 378 (2175) 20190403 (2020)
  78. Semenov M E, Meleshenko P A et al Trends in Mathematics Vol. Extended Abstracts Spring 2018Stabilization of Unstable Periodic Solutions for Inverted Pendulum Under Hysteretic Control: The Magnitskii Approach11 Chapter 36 (2019) p. 245
  79. Hassan A M, Taha H E J Nonlinear Sci 29 (4) 1379 (2019)
  80. Lazarus A Physica D: Nonlinear Phenomena 386-387 1 (2019)
  81. Oks E Atoms 7 (3) 83 (2019)
  82. Taha H E, Kiani M AIAA Scitech 2019 Forum, (2019)
  83. Zheltikov A Opt. Express 27 (6) 8246 (2019)
  84. Semenov M E, Pigarev A E et al Journal of Siberian Federal University. Engineering & Technologies 694 (2019)
  85. Peretz O, Gat A D Journal of Fluids and Structures 85 138 (2019)
  86. Morozov N F, Belyaev A K et al Dokl. Phys. 64 (8) 335 (2019)
  87. Kulizhnikov D B, Tovstik P E, Tovstik T P Vestnik St.Petersb. Univ.Math. 52 (3) 309 (2019)
  88. SOROKIN VLADISLAV, BLEKHMAN ILIYA Eur. J. Appl. Math 30 (5) 986 (2019)
  89. Bellegarda G, Talele N, By K 2018 IEEE International Conference on Robotics and Automation (ICRA), (2018) p. 3130
  90. Depetri G I, Pereira F A C et al Chaos: An Interdisciplinary Journal of Nonlinear Science 28 (3) (2018)
  91. Demidov I, Sorokin V (AIP Conference Proceedings) Vol. 1959 (2018) p. 080013
  92. Il’in V A, Ponomareva L A J Appl Mech Tech Phy 59 (2) 197 (2018)
  93. Martin J, Georgeot B et al Phys. Rev. A 97 (2) (2018)
  94. Morozov N F, Belyaev A K et al Dokl. Phys. 63 (9) 380 (2018)
  95. Belyaev A K, Morozov N F et al (AIP Conference Proceedings) Vol. 1959 (2018) p. 020001
  96. Sanchez B, Ordaz P, Poznyak A 2018 15th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE), (2018) p. 1
  97. Klimenko L, Lyubimov D Microgravity Sci. Technol. 30 (1-2) 77 (2018)
  98. Belyaev A K, Morozov N F et al Vestnik St.Petersb. Univ.Math. 51 (3) 296 (2018)
  99. Bukov M Phys. Rev. B 98 (22) (2018)
  100. Wan Yu, Moessner R Phys. Rev. B 98 (18) (2018)
  101. Luca R D, Mauro M D, Naddeo A Eur. J. Phys. 39 (5) 055008 (2018)
  102. Taha H, Kiani M, Navarro J IEEE Robot. Autom. Lett. 3 (2) 643 (2018)
  103. Blekhman I I, Sorokin V S Nonlinear Dyn 93 (2) 767 (2018)
  104. Shukrinov Yu M, Mazanik A et al EPL 122 (3) 37001 (2018)
  105. Markeev A P Mech. Solids 53 (5) 573 (2018)
  106. Guha P Eur. Phys. J. Plus 133 (12) (2018)
  107. Hassan A M, Taha H E Journal of Guidance, Control, and Dynamics 41 (2) 542 (2018)
  108. Taha H, Kiani M, Navarro J 2018 Annual American Control Conference (ACC), (2018) p. 6445
  109. Маркеев А П Доклады Академии Наук (5) 542 (2017)
  110. Fernandez J, Sánchez P S et al Microgravity Sci. Technol. 29 (5) 351 (2017)
  111. Kugushev E I, Levin M A, Popova T V Journal of Applied Mathematics and Mechanics 81 (5) 360 (2017)
  112. Lyubimova T P Eur. Phys. J. Spec. Top. 226 (6) 1263 (2017)
  113. Kochmann D M, Bertoldi K Applied Mechanics Reviews 69 (5) (2017)
  114. Markeev A P Dokl. Phys. 62 (12) 555 (2017)
  115. Semenov M E, Meleshenko P A et al 2017 Progress In Electromagnetics Research Symposium - Spring (PIERS), (2017) p. 1123
  116. Fernández J, Tinao I et al Physics of Fluids 29 (2) (2017)
  117. Shukrinov Yu M, Rahmonov I R et al Applied Physics Letters 110 (18) (2017)
  118. Esirkepov T Zh, Bulanov S V Physics Letters A 381 (32) 2559 (2017)
  119. Druzhinina O V, Sevastianov L A et al J. Phys.: Conf. Ser. 937 012011 (2017)
  120. Hassan A M, Taha H E AIAA Guidance, Navigation, and Control Conference, (2017)
  121. Shevchenko I I AJ 153 (6) 273 (2017)
  122. Pyragas K, Tass P A Lith. J. Phys. 56 (4) 223 (2017)
  123. Manita L A, Ronzhina M I J Math Sci 221 (1) 137 (2017)
  124. Kirillov O, Levi M Nonlinearity 30 (3) 1109 (2017)
  125. Semenov M E, Meleshenko P A et al 2016 Progress in Electromagnetic Research Symposium (PIERS), (2016) p. 1938
  126. Ramachandran R, Nosonovsky M Biomimetics 1 (1) 4 (2016)
  127. Guzev M, Dmitriev A Math. Mech. Compl. Sys. 4 (2) 139 (2016)
  128. Kurkov M A Eur. Phys. J. C 76 (6) (2016)
  129. Rylyuk V M Phys. Rev. A 93 (5) (2016)
  130. Wildemann V E, Lomakin E V, Tretyakov M P Dokl. Phys. 61 (3) 147 (2016)
  131. Belichenko M V Mech. Solids 51 (6) 632 (2016)
  132. Bartkowiak R Proc Appl Math and Mech 16 (1) 261 (2016)
  133. Ramachandran R, Maani N et al Phil. Trans. R. Soc. A. 374 (2073) 20160133 (2016)
  134. Kuzyakov O N, Andreeva M A IOP Conf. Ser.: Mater. Sci. Eng. 142 012105 (2016)
  135. Semenov M E, Solovyov A M, Meleshenko P A Nonlinear Dyn 82 (1-2) 677 (2015)
  136. Semenov M E, Meleshenko P A et al Springer Proceedings in Physics Vol. Structural Nonlinear Dynamics and DiagnosisHysteretic Nonlinearity in Inverted Pendulum Problem168 Chapter 22 (2015) p. 463
  137. Citro R, Dalla T E G et al Annals of Physics 360 694 (2015)
  138. Nikolai B, Gabin A M, Jimenez R Z Int. J. Appl. Mechanics 07 (06) 1550088 (2015)
  139. V P S J. Phys. B: At. Mol. Opt. Phys. 47 (20) 204001 (2014)
  140. (Nonlinear Optics and Its Applications VIII; and Quantum Optics III) Vol. Nonlinear Optics and Its Applications VIII; and Quantum Optics IIIOptical four-wave mixing and generation of squeezed light in an optomechanical cavity driven by a bichromatic fieldBenjamin J.EggletonAlexander L.GaetaNeil G. R.BroderickAlexander V.SergienkoArnoRauschenbeutelThomasDurtRafaelGarcésGermán J.de Valcárcel9136 (2014) p. 91362C
  141. Ramachandran R, Nosonovsky M Soft Matter 10 (26) 4633 (2014)
  142. Semenov M E, Shevlyakova D V, Meleshenko P A Nonlinear Dyn 75 (1-2) 247 (2014)
  143. Semenov M E, Grachikov D V et al MATEC Web of Conferences 16 05009 (2014)
  144. Gabuda S P, Kozlova S G et al J Struct Chem 54 (S1) 119 (2013)
  145. Casic N, Quintero N et al Phys. Rev. Lett. 110 (16) (2013)
  146. Mau Ya, Haim L et al Phys. Rev. E 88 (3) (2013)
  147. Berdnikov A S, Gall N R J Anal Chem 67 (14) 1069 (2012)
  148. Bulanchuk P O, Petrov A G Dokl. Phys. 57 (2) 73 (2012)
  149. Sudakov M Yu, Apatskaya M V J. Exp. Theor. Phys. 115 (2) 194 (2012)
  150. Kholostova O V Mech. Solids 46 (4) 508 (2011)
  151. Bulanchuk P O, Petrov A G Dokl. Phys. 55 (2) 85 (2010)
  152. Petrov A G Dokl. Phys. 55 (4) 203 (2010)
  153. Sennitskii V L J Appl Mech Tech Phy 50 (6) 936 (2009)
  154. Markeev A P Dokl. Phys. 54 (8) 392 (2009)
  155. Kholostova O V Mech. Solids 44 (2) 184 (2009)
  156. Mailybaev A A, Seyranian A P Journal of Sound and Vibration 323 (3-5) 1016 (2009)
  157. Popruzhenko S V, Mur V D, Popov V S Physics Letters A 372 (31) 5167 (2008)
  158. Shishkina E V, Blekhman I I et al Nonlinear Dyn 54 (4) 313 (2008)
  159. Gjurchinovski A, Urumov V Europhys. Lett. 84 (4) 40013 (2008)
  160. Likhanskii A 37th AIAA Fluid Dynamics Conference and Exhibit, (2007)
  161. Dvornikov M S Phys. Atom. Nuclei 70 (2) 342 (2007)
  162. Кравченко В Ф, Кураев А А, Синицын А К Uspekhi Fizicheskikh Nauk 177 (5) 511 (2007)
  163. Lisovskii F V, Mansvetova E G Bull. Russ. Acad. Sci. Phys. 71 (11) 1500 (2007)
  164. Dergunov S V, Dubinov A E et al Plasma Phys. Rep. 32 (1) 9 (2006)
  165. Lobas L G Int Appl Mech 41 (6) 587 (2005)
  166. Petrov A G Dokl. Phys. 50 (11) 588 (2005)
  167. Seyranian A P, Yabuno H, Tsumoto K Dokl. Phys. 50 (9) 467 (2005)
  168. Vol. 2003 IEEE International Workshop on Workload Characterization (IEEE Cat. No.03EX775)Parametrically induced stochastic synchronizationO.V.SosnovtsevaV.V.AstakhovA.V.ShabuninP.A.Stalmakhov2 (2003) p. 577
  169. Dutta S B, Barma M Phys. Rev. E 67 (6) (2003)
  170. Bulanov V A Liquids Under Negative Pressure Chapter 28 (2002) p. 327
  171. Dubinov A E, Saikov S K, Selemir V D Radiophysics and Quantum Electronics 45 (4) 318 (2002)
  172. Dubinov A E, Saikov S K Plasma Phys. Rep. 28 (5) 398 (2002)
  173. Vakhnenko O O Journal of Mathematical Physics 43 (5) 2587 (2002)
  174. Pavlenko Yu G, Baksheev A I, Toropova A I Russian Physics Journal 44 (1) 71 (2001)
  175. Karimov A R, Shcheglov V A Journal of Russian Laser Research 21 (6) 515 (2000)
  176. Astakhov V, Shabunin A, Anishchenko V Int. J. Bifurcation Chaos 08 (07) 1605 (1998)
  177. Astakhov V V, Anishchenko V S et al Physica D: Nonlinear Phenomena 109 (1-2) 11 (1997)
  178. Landa P S, Zaikin A A J. Exp. Theor. Phys. 84 (1) 197 (1997)
  179. Vol. 1997 1st International Conference, Control of Oscillations and Chaos Proceedings (Cat. No.97TH8329)Stabilization of in-phase motions in symmetrically coupled oscillators by parametric perturbationsV.V.AstakhovV.S.AnishchenkoA.V.Shabunin2 (1997) p. 374
  180. Landa P S, Zaikin A A Phys. Rev. E 54 (4) 3535 (1996)
  181. Antsygina T N, Slyusarev V A Low Temperature Physics 20 (7) 522 (1994)
  182. Vidal J, Wudka J Phys. Rev. A 44 (9) 5383 (1991)
  183. Rabinovich M I, Trubetskov D I Oscillations and Waves Chapter 11 (1989) p. 213
  184. Ivanova A V, Melikyan G G J. Phys. B: At. Mol. Opt. Phys. 21 (17) 3017 (1988)
  185. Pippard A B Eur. J. Phys. 8 (3) 203 (1987)
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