http://www.iaeme.com/IJME International Journal of Mecha Volume 9, Issue 12, December 2 Available online at http://www.ia ISSN Print: 0976-6340 and ISSN © IAEME Publication ON THE ADV PARTICIPA ENGINE INTE Department Aw Department of Physi Department of Mecha Auckland ABSTRACT The possibility of attain narrow. The introductio propounded via the result solve the microscopic com role of AIPR in the magne system needs logical answ the paramagnetic susceptib implies that an improved  determines the carrier co was found to differ from copper-oxide plane was interval (reversed time) s oxygen or copper domin property which can be individual cuprates family be achieved by hybridizati Keywords: Cuprates, cr electron interaction, Fermi ET/index.asp 366 ed anical Engineering and Technology (IJMET) 2018, pp. 366–382, Article ID: IJMET_09_12_040 aeme.com/ijmet/issues.asp?JType=IJMET&VType= N Online: 0976-6359 Scopus Indexed VANCEMENT OF ACTIV ATION RATE IN CUPRA EERING THE ELECTRO ERACTION DYNAMICS Emetere M.E, Ijeh I.B of Physics, Covenant University, Ota, Nigeri wojoyogbe O.B, Uno U.E, Isah K.U ics, Federal University of Technology, Minna Emetere M.E anical Engineering Science, University of Joh Park Kingsway, Johannesburg South Africa ning an experimental room temperature cupr on of the active ionic participation rat ts from the T 1 relaxation from the Bloch flo mplexities of the cuprates. However, salient eto resistance, transport and thermodynamics wer. The factor responsible for the dwindlin bility (∆  ) was found to be dependent on AI   is dependent on the active ionic participa oncentration. However, the M vs H relations the oxygen. The intra and inter electron int examined. The Fermi velocity (v F ) in the shows that the inter electron-interaction sho nance. The electron pair possesses a un associated with AIPR. This property di y. Hence, this finding is an evidence that an in ion or molecular self-assembly method. ritical temperature, active participation, i velocity PACS: 74.25.nj, 74.70.Ad. ditor@iaeme.com 0 =9&IType=12 VE ION ATES: ON ia a, Nigeria hannesburg, rates seems very e (AIPR) was ow equations to question on the s of the cuprates ng anisotropy of IPR. This simply ation rate which ship for copper teraction in the e negative time ows neither the nique electronic istinguishes the ncreased   can Magnetization,