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Issue Date	Title	Author(s)
2019-03	Investigation of Optical and Electrical Properties of Cobalt-doped Ge-Sb-S Thin Film	Musa, Ishaq; Qamhieh, Zaid; Mahmoud, Saleh; El-Shaer, Mohamad; Ayesh, Ahmad; Qamhieh, Naser
2019-02	STUDY OF OPTICAL ENERGY GAP AND QUANTUM CONFINMENT EFFECTS IN ZINC OXIDE NANOPARTICLES AND NANORODS	Musa, Ishaq; QAMHIEH, Naser
2019-04-04	Inequalities for Contraction Matrices	Abu-Asa'd, Ata
2019	Logistic Regression Based Model for Improving the Accuracy and Time Complexity of ROI's Extraction in Real Time Traffic Signs Recognition System	Qararyah, Fareed; Daraghmi, Yousef-Awwad; Daraghmi, Eman
2019	A Small World Load-Balancing Approach for Queues based Systems	Yuan, Shyan-Ming; Daraghmi, Eman
2019-11-12	On the Convexity of Functions	Abu-Asa'd, Ata; Hirzallah, omar
2019-06-05	Crystal interactions, computational, spectral and thermal analysis of (E)-N'-(thiophen-2-ylmethylene)isonicotinohydrazide as O-N-S-tridentate schiff base ligand	Warad, Ismail; Bsharat, Odey; Tabti, Salima; Djedouani, Amel; Al-Nuri, Mohammed; Al-Zaqri, Nabil; Kumara, Karthik; Lokanath, Neartur; Amereih, Sameer; Abu-Reidah, Ibrahim
2019-03	Investigation of optical and electrical properties of Cobalt-doped Ge-Sb-S thin film	Musa, Ishaq; Qamhieh, Zaid; Mahmoud, Saleh; El-Shaer, Mohamad; Ayesh, Ahmad; Qamhieh, Naser
2019-04-24	Germanium antimony Quantum Dots Morphology and Raman spectroscopy fabricated by inert gas condensation	Musa, Ishaq; QAMHIEH, Naser; Said, Khadija
2019-03	In this study, we consider two coupled pendulums (attached together with a spring) having the same length while the same masses are attached at their ends. After setting the system in motion we construct the classical Lagrangian, and as a result, we obtain the classical Euler-Lagrange equation. Then, we generalize the classical Lagrangian in order to derive the fractional Euler-Lagrange equation in the sense of two different fractional operators. Finally, we provide the numerical solution of the latter equation for some fractional orders and initial conditions. The method we used is based on the Euler method to discretize the convolution integral. Numerical simulations show that the proposed approach is efficient and demonstrate new aspects of the real-world phenomena.	Owaidat, M Q; Asad, J. H.; Tan, Z Z