Khaled Bataineh scite author profile

Khaled Bataineh

5Publications

72Citation Statements Received

137Citation Statements Given

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136

Affiliations

Jordan University of Science and Technology, New Mexico State University

Publications

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Generating sets of Reidemeister moves of oriented singular links and quandles

Bataineh

Elhamdadi

Hajij

et al. 2018

J. Knot Theory Ramifications

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We give a generating set of the generalized Reidemeister moves for oriented singular links. We then introduce an algebraic structure arising from the axiomatization of Reidemeister moves on oriented singular knots. We give some examples, including some non-isomorphic families of such structures over non-abelian groups. We show that the set of colorings of a singular knot by this new structure is an invariant of oriented singular knots and use it to distinguish some singular links.2000 Mathematics Subject Classification. Primary 57M25.

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Waste minimization in irregular stock cutting

Dalalah

Khrais

Bataineh

2014

Journal of Manufacturing Systems

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Vassiliev invariants of type one for links in the solid torus

Bataineh

Zaytoon

2010

Topology and its Applications

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In Bataineh (2003) [2] we studied the type one invariants for knots in the solid torus. In this research we study the type one invariants for n-component links in the solid torus by generalizing Aicardi's invariant for knots in the solid torus to n-component links in the solid torus. We show that the generalized Aicardi's invariant is the universal type one invariant, and we show that the generalized Aicardi's invariant restricted to n-component links in the solid torus with zero winding number for each component is equal to an invariant we define using the universal cover of the solid torus. We also define and study a geometric invariant for n-component links in the solid torus. We give a lower bound on this invariant using the type one invariants, which are easy to calculate, which helps in computing this geometric invariant, which is usually hard to calculate.

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Combined convection heat transfer in a lid driven cavity filled with nanofluids

2022

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A simulation study is performed of laminar steady combined convection heat transfer in a lid‐driven cavity containing various types of nanofluid (CuO–water nanofluid and Al2O3–water nanofluid) at various boundary conditions. The influence of two different types of temperature distributions applied to the cavity's bottom wall is investigated. There are two types of temperature distributions: constant temperature (Th) and a sinusoidal temperature distribution applied to the bottom wall, which has a higher temperature than the top moving wall (Tc). In both circumstances, the sidewalls are kept adiabatic. The finite element method is utilized for the current issue. The influence of the Richardson number, which ranges from 0.01 to 10, and the volume fraction of nanoparticles, which ranges from 0 to 0.1, on the heat transfer rate has been explored. The influence of the sinusoidal temperature distribution's amplitude and phase angle is also examined. The isotherm and streamline patterns within the cavity are diverse with distinct nanoparticle volume fractions, and the Richardson numbers are presented and analyzed. The numerical findings showed that lowering the Richardson number raises the average Nusselt number. Also, the existence of nanoparticles in pure water increases heat transmission. Additionally, raising the sinusoidal temperature's amplitude increases the average Nusselt number. The results show that the increase of average Nusselt number at (φ = 0, Gr = 104, Pr = 1, Ɣ = 3π/2) for amplitude 0.25, 0.5, 0.75, and 1 is 0.53, 0.9, 1.3, and 1.87, respectively.

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Taylor series coefficients of the HP-polynomial as an invariant for links in the solid torus

Bataineh¹

2013

Appl. Math. Inf. Sci.

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Khaled Bataineh

Generating sets of Reidemeister moves of oriented singular links and quandles

Waste minimization in irregular stock cutting

Vassiliev invariants of type one for links in the solid torus

Combined convection heat transfer in a lid driven cavity filled with nanofluids

Taylor series coefficients of the HP-polynomial as an invariant for links in the solid torus

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