000			02141cam a2200325 a 4500
003			EG-GiCUC
005			20250223031218.0
008			150422s2014 ua dh f m 000 0 eng d
040			_aEG-GiCUC _beng _cEG-GiCUC
041	0		_aeng
049			_aDeposite
097			_aM.Sc
099			_aCai01.12.17.M.Sc.2014.Mo.O
100	0		_aMohamed Tantawy Elsaid Tantawy
245	1	0	_aOn the application of the unified method to solve some nonlinear evolution equations with emphasis to the DNA dynamics / _cMohamed Tantawy Elsaid Tantawy ; Supervised H. I. Abdelgawad
246	1	5	_aحول تطبيقات الطريقة الموحدة لإيجاد حلول بعض معادلات التطور مع التركيز على ديناميكا الحمض النووى
260			_aCairo : _bMohamed Tantawy Elsaid Tantawy , _c2014
300			_a126 P. : _bcharts , facsimiles ; _c25cm
502			_aThesis (M.Sc.) - Cairo University - Faculty of Science - Department of Mathematics
520			_aThe dynamics of DNA have been the objective of varieties of works in the literature very recently. Different model equations were suggested, which are based on two main geometrical structure of chains A first model equation, where the chains are considered as strands, were proposed in [1- 3]. A second type of model equations takes into account of helical- geometry of DNA were also suggested in [4-6]. In these equations the dynamics of DNA are described via transverse, longitudinal or tensional motions. The solution of this model equation in the both two types, that is in the double-stranded and double {u2013}helical model are of major contribution to better understanding many aspects related to the dynamics of DNA. In the literature, attention was focused to find the solitary, soliton or breathes solutions
530			_aIssued also as CD
653		4	_aDNA Dynamics
653		4	_aMathematics
653		4	_aNonlinear evolution equations
700	0		_aH. I. Abdelgawad , _eSupervisor
856			_uhttp://172.23.153.220/th.pdf
905			_aNazla _eRevisor
905			_aSoheir _eCataloger
942			_2ddc _cTH
999			_c50569 _d50569