As the mobile phone has become more mature, the continuous development of both hardware and software has become increasingly popular. Nowadays the need to develop mobile application that can run over multi-platform is an essential problem because we have to conquer the difficulties of the variety of mobile platform such as building a different application for each platform is very expensive if written in each native language. Because of the availability of web browser in all mobile devices, it is suggested as an environment to run all web application. This research will examine the limitation and resources of mobile web applications for each individual platform then presenting a model that can be run in different platform for developing phase HTML and CSS3 combined with java script languages will be used, the application will be located on remote server that can be accessed using mobile device throughout the internet, to evaluate the application two test will be done to check the functionality and the availability.The mobile technology has developed very fast during the current Volume 8 • Issue 2 • 1000225 J Inform Tech Softw Eng, an open access journal • Threading -Web workers. The most resource-consuming operations are offloaded into a background process, keeping the user interface responsive. Research MethodologyPhase VI: evaluation of application This phase will be performed in order to ensure that the web Volume 8 • Issue 2 • 1000225 J Inform Tech Softw Eng, an open access journal
The preparation and spectral characterization of new ligand containing benzimidazole as organic heterocyclic azo dye compound 2-[6-(benzimidazolyl)azo]-2,4-di chloro phenol (BIADClP) was prepared by coupling reaction benzimidazole diazonium chloride with 2,4-di chloro phenol in alkaline alcoholic solution. The structure of azo dye ligand has been characterize by spectral studies such as 1H-NMR ,mass spectrum ,FT-IR, UV-Visb. and element analysis. New six complexes with Co(II), Ni(II), Cu(II), Zn(II), Cd(II) and Hg(II) ions were prepared and identification by several physiochemical techniques; such as C.H.N element, magnatic susceptibility, atomic absorption, molar conductivity, IR and electronic spectra. The used techniques showed the formation of all complexes 1:2 [M:L] complexes and suggested octahedral geometry with d2sp3 hybridization of Co(III) and sp3d2 with residule chelat complexes.The coordination number of the metal ion is found to be six with binding through the phenolate O, azo N3 and with the imidazole N3 atom.All complexes that non electrolyte and no conductive species excepted the Co(III)-complexes is 1:1 electrolyte
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