Knowledge (XXG)

437:. Any economic theory deals with the interpretation of economic processes based on the law of production of value, and various scientific approaches differ in the choice of factors of production that determine, in the end, the creation of wealth. Marxists insist that only labor creates value, neoclassicists believe that, in addition to labor, capital must also be taken into account as the important source of value. Econodynamics demonstrates, and this is an achievement of V.N. Pokrovskii, that the observed substitution of labour by capital is, in fact, the substitution of labour by work of external energy sourses, and the statement about the productive power of capital is a hoax that hides the real role of labor and energy in the production of value. Human effort and the work of external energy sources appears to be the true sources of value; productivity of capital is eventually productivity of working people and substitutive work. It has led to the understanding of the role of energy and, eventually, to the generalization of the 284:, Moscow region) where in positions of Senior Research Fellow was engaged in studying of suspensions and polymers. He received the first Russian scientific degree (Candidate of Sciences, 1968) and the second Russian Degree (Doctor of Sciences, 1977) in Physics and Mathematics. Since 1980 Vladimir Nikolaevich has managed the Department of Applied Mathematics of the Altai Polytechnic Institute (now 25: 404:, diffusion and a number of other features of polymeric materials. The Pokrovskii's monograph is included into the Sunfoundry list of the best books on dynamics of polymers. The theory is concerned with linear macromolecules, and one needs in the extension of the theory to macromolecules of different structures (in a form of a comb, a star, and others). 296:(МЭСИ, the Russian abbreviation). He works on methods of modelling of economic processes and undertakes the studies in the field of the mathematical description of economic growth which has led to the understanding of the role of energy and, eventually, to the formulation of the generalized labour theory of value. 497:, as a sum of products of thermodynamic forces and fluxes, are consequences (valid only in linear area and for steady-state situations) of fundamental principles of thermodynamics. Among the numerous applications of non-equilibrium thermodynamics, it appears to be a description of 485:, work of internal variables is introduced and internal thermal energy of non-equilibrium systems is taken into account. It is shown that the requirement that the thermodynamic system cannot fulfil any work via internal variables is equivalent to the conventional formulation of the 399: 489:. These statements, in line with the axioms introducing internal variables can be considered as basic principles of nonequilibrium thermodynamics. It is shown that known linear parities between 332:, suspensions of rigid or semi-rigid particles were used as simple heuristic models that allowed to connect the properties of moving systems with structural characteristics. The 806: 303:. He gives lectures on statistical physics and is engaged in research work. He now (2021) lives with his wife in Moscow, and writes about his life in 'Notes' 292:, Russia), and in 1981 he was appointed Professor of Applied Mathematics. From 1987-1995 he was Professor and Head of the Department of Applied Mathematics at 252: 53: 33: 441:. Econodynamics offers a more adequate interpretation of economic growth and other phenomena. Econodynamics is based on the achievements of classical 434: 261: 164: 469: 360: 928:"Equations of motion of viscoelastic systems as derived from the conservation laws and the phenomenological theory of non-equilibrium processes" 293: 1098: 839: 126: 1024: 272: 107: 285: 79: 1103: 482: 626: 86: 470: 277: 57: 49: 486: 273: 545: 1083: 93: 38: 645: 42: 265: 75: 383:, could be explained by a special movement of long macromolecule among other macromolecules like a snake (via 380: 376: 1093: 490: 438: 345: 337: 333: 269: 183: 800: 478: 474: 454: 311: 300: 329: 1088: 1043: 942: 826:. Springer Series in Chemical Physics. Vol. 95. Springer, Dordrecht-Heidelberg-London-New York. 738: 696: 682:"A justification of the reptation-tube dynamics of a linear macromolecule in the mesoscopic approach" 654: 608: 502: 357: 855: 425:—a specific concept that is used for description of the processes of creation and distribution of 1059: 1033: 958: 754: 494: 353: 100: 64: 835: 442: 430: 422: 418: 821: 594:"Contribution to the theory of relaxation processes in molecular liquids and liquid crystals" 429:. The theory is formulated as empirical science on the creation, motion and disappearance of 1051: 989: 950: 827: 788: 746: 704: 662: 554: 325: 241: 498: 466: 450: 401: 361: 249: 193: 1047: 946: 742: 700: 658: 612: 449: 392: 388: 681: 395: 1077: 962: 758: 666: 573: 524:"Autobiographical notes in three parts (The Seasons, My Universities, The Returning)" 408: 349: 281: 197: 1063: 773: 558: 723: 593: 248:; born 11 May 1934) is a Russian scientist known for his original contributions to 927: 910: 893: 1055: 792: 708: 831: 750: 523: 341: 260: 446: 396: 387:). V.N. Pokrovskii and his colaborators developed the theory of stochastic 384: 457:. The comprehensive review of the problems of econodynamics is available. 453:. Econodynamics has been proposing methods of analysis and forecasting of 994: 977: 774:"On the difference between weakly and strongly entangled linear polymers" 372: 352:. The usage of rigid ellipsoids model was also helpful in explaining of 954: 628: 289: 978:"A derivation of the main relations of non-equilibrium thermodynamics" 426: 219: 1038: 724:"Reptation and diffusive modes of motion of linear macromolecules" 299: 505:, which allows formulating the thermodynamic equation of growth 1011: 63: 18: 823: 294: 772: 1026: 689: 421: 344: 879: 218: 210: 189: 179: 171: 150: 143: 915:. Springer, Dordrecht-Heidelberg-London-New York. 898:. Springer, Dordrecht-Heidelberg-London-New York. 731:Journal of Experimental and Theoretical Physics 575:Statistical mechanics of the dilute suspensions 912:Econodynamics. The Theory of Social Production 895:Econodynamics. The Theory of Social Production 8: 805:: CS1 maint: multiple names: authors list ( 647:Journal of Applied Mathematics and Mechanics 140: 56:about living persons that is unsourced or 1037: 993: 856:"Best Reference Books – Polymer Dynamics" 481:from the equilibrium state. Considering 461:Dynamics of complex thermodynamic systems 435:technological theory of social production 262:Altayskoye, Altaysky District, Altai Krai 165:Altayskoye, Altaysky District, Altai Krai 127:Learn how and when to remove this message 324:For description of dynamic behaviour of 280:of the Academy of Sciences of the USSR ( 514: 798: 375:, according to earlier hypothesis by 7: 881:. Ashgate Publishing, Aldershot, UK. 276:. In 1964 he moved to the Branch of 214:Physics, Dynamics of complex systems 433:, which can also be considered as 14: 246:Влад’имир Никол’аевич Покр’овский 286:Altai State Technical University 238:Vladimir Nikolajevich Pokrovskii 23: 559:10.1070/PU1972v014n06ABEH004768 483:the first law of thermodynamics 268:), Russia. He graduated from 1013:. IOP Publishing, Bristol, UK. 1: 1099:Tomsk State University alumni 1009:Pokrovskii, Vladimir (2020). 976:Pokrovskii, Vladimir (2013). 909:Pokrovskii, Vladimir (2018). 892:Pokrovskii, Vladimir (2018). 877:Pokrovskii, Vladimir (1999). 820:Pokrovskii, Vladimir (2010). 477:that describe deviations of 471:nonequilibrium thermodynamics 278:Institute of Chemical Physics 16:Russian scientist (born 1934) 667:10.1016/0021-8928(86)90138-3 581:(in Russian). Nauka, Moscow. 503:an open thermodynamic system 487:second law of thermodynamics 274:Tomsk Polytechnic University 34:biography of a living person 1056:10.1016/j.physa.2018.08.094 793:10.1016/j.jnnfm.2004.05.001 781:J. Non-Newtonian Fluid Mech 709:10.1016/j.physa.2005.10.028 61:must be removed immediately 1120: 722:Pokrovskii, V. N. (2008). 680:Pokrovskii, V. N. (2006). 493:and fluxes and also the 266:Алтайское, Алтайского края 926:Pokrovskii, V.N. (1970). 832:10.1007/978-90-481-2231-8 751:10.1134/S1063776108030205 592:Pokrovskii, V.N. (1976). 572:Pokrovskii, V.N. (1978). 245: 231: 203: 473:, using the concept of 381:Pierre-Gilles de Gennes 320:Dynamics of suspensions 1104:People from Altai Krai 547:Soviet Physics Uspekhi 522:Pokrovskii, Vladimir. 439:labour theory of value 346:constitutive equations 336:of the flowing dilute 334:constitutive equations 270:Tomsk State University 184:Tomsk State University 145:Vladimir N. Pokrovskii 48:Please help by adding 479:thermodynamic systems 76:"Vladimir Pokrovskii" 491:thermodynamic forces 54:Contentious material 1048:2018PhyA..512..359Z 995:10.1155/2013/906136 982:ISRN Thermodynamics 947:1970PoMec...6..693P 743:2008JETP..106..604P 701:2006PhyA..366...88P 659:1986JApMM..50..391P 613:1976JETP...44..987P 601:Soviet Physics JETP 1084:Russian physicists 955:10.1007/BF00856197 495:entropy production 475:internal variables 455:economic processes 445:and neo-classical 371:The properties of 354:optical anisotropy 301:Maltese University 935:Polymer Mechanics 841:978-90-481-2230-1 443:political economy 419:empirical science 415:Economic dynamics 330:molecular liquids 326:polymer solutions 235: 234: 205:Scientific career 137: 136: 129: 111: 37:needs additional 1111: 1068: 1067: 1041: 1021: 1015: 1014: 1006: 1000: 999: 997: 988:(ID 906136): 9. 973: 967: 966: 932: 923: 917: 916: 906: 900: 899: 889: 883: 882: 874: 868: 867: 865: 863: 852: 846: 845: 817: 811: 810: 804: 796: 778: 769: 763: 762: 728: 719: 713: 712: 686: 677: 671: 670: 642: 636: 635: 623: 617: 616: 598: 589: 583: 582: 580: 569: 563: 562: 542: 536: 535: 533: 531: 519: 465:To consider the 367:Polymer dynamics 247: 227: 160: 158: 141: 132: 125: 121: 118: 112: 110: 69: 50:reliable sources 27: 26: 19: 1119: 1118: 1114: 1113: 1112: 1110: 1109: 1108: 1074: 1073: 1072: 1071: 1023: 1022: 1018: 1008: 1007: 1003: 975: 974: 970: 930: 925: 924: 920: 908: 907: 903: 891: 890: 886: 876: 875: 871: 861: 859: 854: 853: 849: 842: 819: 818: 814: 797: 776: 771: 770: 766: 726: 721: 720: 716: 684: 679: 678: 674: 644: 643: 639: 625: 624: 620: 596: 591: 590: 586: 578: 571: 570: 566: 544: 543: 539: 529: 527: 521: 520: 516: 511: 499:living organism 467:complex systems 463: 451:economic system 412: 402:viscoelasticity 369: 362:liquid crystals 322: 317: 309: 258: 250:polymer physics 225: 196: 194:polymer physics 180:Alma mater 167: 162: 156: 154: 146: 133: 122: 116: 113: 70: 68: 47: 28: 24: 17: 12: 11: 5: 1117: 1115: 1107: 1106: 1101: 1096: 1091: 1086: 1076: 1075: 1070: 1069: 1016: 1001: 968: 941:(5): 693–702. 918: 901: 884: 869: 847: 840: 812: 787:(2–3): 73–86. 764: 737:(3): 604–607. 714: 672: 653:(3): 391–394. 637: 618: 607:(5): 987–993. 584: 564: 553:(6): 737–746. 537: 513: 512: 510: 507: 462: 459: 411: 406: 393:macromolecules 389:thermal motion 368: 365: 321: 318: 316: 313: 308: 305: 257: 254: 233: 232: 229: 228: 222: 216: 215: 212: 208: 207: 201: 200: 191: 190:Known for 187: 186: 181: 177: 176: 173: 169: 168: 163: 152: 148: 147: 144: 135: 134: 58:poorly sourced 31: 29: 22: 15: 13: 10: 9: 6: 4: 3: 2: 1116: 1105: 1102: 1100: 1097: 1095: 1094:Living people 1092: 1090: 1087: 1085: 1082: 1081: 1079: 1065: 1061: 1057: 1053: 1049: 1045: 1040: 1035: 1031: 1027: 1020: 1017: 1012: 1005: 1002: 996: 991: 987: 983: 979: 972: 969: 964: 960: 956: 952: 948: 944: 940: 936: 929: 922: 919: 914: 913: 905: 902: 897: 896: 888: 885: 880: 873: 870: 858:. 5 July 2017 857: 851: 848: 843: 837: 833: 829: 825: 824: 816: 813: 808: 802: 794: 790: 786: 782: 775: 768: 765: 760: 756: 752: 748: 744: 740: 736: 732: 725: 718: 715: 710: 706: 702: 698: 694: 690: 683: 676: 673: 668: 664: 660: 656: 652: 648: 641: 638: 633: 629: 622: 619: 614: 610: 606: 602: 595: 588: 585: 577: 576: 568: 565: 560: 556: 552: 548: 541: 538: 525: 518: 515: 508: 506: 504: 500: 496: 492: 488: 484: 480: 476: 472: 468: 460: 458: 456: 452: 448: 444: 440: 436: 432: 428: 424: 420: 416: 410: 409:Econodynamics 407: 405: 403: 398: 394: 390: 386: 382: 378: 374: 366: 364: 363: 359: 355: 351: 350:complex fluid 347: 343: 339: 335: 331: 327: 319: 314: 312: 306: 304: 302: 297: 295: 291: 287: 283: 282:Chernogolovka 279: 275: 271: 267: 263: 255: 253: 251: 243: 239: 230: 223: 221: 217: 213: 209: 206: 202: 199: 198:econodynamics 195: 192: 188: 185: 182: 178: 174: 170: 166: 153: 149: 142: 139: 131: 128: 120: 117:February 2023 109: 106: 102: 99: 95: 92: 88: 85: 81: 78: –  77: 73: 72:Find sources: 66: 62: 59: 55: 51: 45: 44: 40: 35: 30: 21: 20: 1029: 1025: 1019: 1010: 1004: 985: 981: 971: 938: 934: 921: 911: 904: 894: 887: 878: 872: 860:. 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