# | Title | Journal | Year | Citations |
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1 | Objectifying content validity: Conducting a content validity study in social work research | Social Work Research | 2003 | 825 |
2 | A sine-cosine method for handlingnonlinear wave equations | Mathematical and Computer Modelling | 2004 | 608 |
3 | A reliable modification of Adomian decomposition method | Applied Mathematics and Computation | 1999 | 493 |
4 | The tanh method for traveling wave solutions of nonlinear equations | Applied Mathematics and Computation | 2004 | 457 |
5 | A new algorithm for calculating adomian polynomials for nonlinear operators | Applied Mathematics and Computation | 2000 | 450 |
6 | Distributed Construction of Connected Dominating Set in Wireless Ad Hoc Networks | Mobile Networks and Applications | 2004 | 341 |
7 | Linear and Nonlinear Integral Equations | | 2011 | 338 |
8 | LMX differentiation: A multilevel review and examination of its antecedents and outcomes | Leadership Quarterly | 2009 | 309 |
9 | A new algorithm for solving differential equations of Lane–Emden type | Applied Mathematics and Computation | 2001 | 305 |
10 | Design approaches to experimental mediation | Journal of Experimental Social Psychology | 2016 | 284 |
11 | The extended tanh method for new solitons solutions for many forms of the fifth-order KdV equations | Applied Mathematics and Computation | 2007 | 239 |
12 | A new modification of the Adomian decomposition method for linear and nonlinear operators | Applied Mathematics and Computation | 2001 | 238 |
13 | Multiple-soliton solutions for the KP equation by Hirota’s bilinear method and by the tanh–coth method | Applied Mathematics and Computation | 2007 | 237 |
14 | The tanh–coth method for solitons and kink solutions for nonlinear parabolic equations | Applied Mathematics and Computation | 2007 | 222 |
15 | Hospital Nurses' Perceptions of the Ethical Climate of Their Work Setting | Journal of Nursing Scholarship | 1998 | 220 |
16 | A new method for solving singular initial value problems in the second-order ordinary differential equations | Applied Mathematics and Computation | 2002 | 220 |
17 | Adomian decomposition method for a reliable treatment of the Bratu-type equations | Applied Mathematics and Computation | 2005 | 209 |
18 | New solitary-wave special solutions with compact support for the nonlinear dispersive K(m,n) equations | Chaos, Solitons and Fractals | 2002 | 201 |
19 | The extended tanh method for abundant solitary wave solutions of nonlinear wave equations | Applied Mathematics and Computation | 2007 | 193 |
20 | Solving the $$\mathbf{(3+1) }$$ ( 3 + 1 ) -dimensional KP–Boussinesq and BKP–Boussinesq equations by the simplified Hirota’s method | Nonlinear Dynamics | 2017 | 178 |
21 | Neuro-heuristics for nonlinear singular Thomas-Fermi systems | Applied Soft Computing Journal | 2018 | 176 |
22 | Adomian decomposition method for a reliable treatment of the Emden–Fowler equation | Applied Mathematics and Computation | 2005 | 173 |
23 | Analytical approximations and Padé approximants for Volterra's population model | Applied Mathematics and Computation | 1999 | 156 |
24 | The tanh and the sine–cosine methods for a reliable treatment of the modified equal width equation and its variants | Communications in Nonlinear Science and Numerical Simulation | 2006 | 155 |
25 | The Balanced Inventory of Desirable Responding Short Form (BIDR-16) | SAGE Open | 2015 | 154 |
26 | Multiple-soliton solutions for the Boussinesq equation | Applied Mathematics and Computation | 2007 | 150 |
27 | A comparison between the variational iteration method and Adomian decomposition method | Journal of Computational and Applied Mathematics | 2007 | 149 |
28 | The combined Laplace transform–Adomian decomposition method for handling nonlinear Volterra integro–differential equations | Applied Mathematics and Computation | 2010 | 145 |
29 | Construction of soliton solutions and periodic solutions of the Boussinesq equation by the modified decomposition method | Chaos, Solitons and Fractals | 2001 | 143 |
30 | New extended Kadomtsev–Petviashvili equation: multiple soliton solutions, breather, lump and interaction solutions | Nonlinear Dynamics | 2021 | 142 |
31 | The modified decomposition method and Padé approximants for solving the Thomas–Fermi equation | Applied Mathematics and Computation | 1999 | 141 |
32 | Creating a More Complete and Current Picture | Violence Against Women | 2012 | 140 |
33 | The Hirota’s direct method for multiple-soliton solutions for three model equations of shallow water waves | Applied Mathematics and Computation | 2008 | 138 |
34 | The extended tanh method for the Zakharov–Kuznetsov (ZK) equation, the modified ZK equation, and its generalized forms | Communications in Nonlinear Science and Numerical Simulation | 2008 | 138 |
35 | The sine–cosine method for obtaining solutions with compact and noncompact structures | Applied Mathematics and Computation | 2004 | 137 |
36 | The modified decomposition method for analytic treatment of differential equations | Applied Mathematics and Computation | 2006 | 131 |
37 | (3+1)-dimensional Jimbo–Miwa equations">Multiple-soliton solutions for extended (3+1)-dimensional Jimbo–Miwa equations | Applied Mathematics Letters | 2017 | 130 |
38 | The tanh and the sine–cosine methods for compact and noncompact solutions of the nonlinear Klein–Gordon equation | Applied Mathematics and Computation | 2005 | 129 |
39 | Multiple-front solutions for the Burgers equation and the coupled Burgers equations | Applied Mathematics and Computation | 2007 | 128 |
40 | Sweet taste preferences and experiences predict prosocial inferences, personalities, and behaviors. | Journal of Personality and Social Psychology | 2012 | 125 |
41 | Bright and dark soliton solutions for a equation with t-dependent coefficients | Physics Letters, Section A: General, Atomic and Solid State Physics | 2009 | 123 |
42 | Solitary wave solutions for modified forms of Degasperis–Procesi and Camassa–Holm equations | Physics Letters, Section A: General, Atomic and Solid State Physics | 2006 | 121 |
43 | The Hirota’s direct method and the tanh–coth method for multiple-soliton solutions of the Sawada–Kotera–Ito seventh-order equation | Applied Mathematics and Computation | 2008 | 121 |
44 | The variational iteration method for rational solutions for KdV, | Journal of Computational and Applied Mathematics | 2007 | 119 |
45 | A general bilinear form to generate different wave structures of solitons for a (3+1)‐dimensional Boiti‐Leon‐Manna‐Pempinelli equation | Mathematical Methods in the Applied Sciences | 2019 | 119 |
46 | A comparison between Adomian decomposition method and Taylor series method in the series solutions | Applied Mathematics and Computation | 1998 | 108 |
47 | Construction of solitary wave solutions and rational solutions for the KdV equation by Adomian decomposition method | Chaos, Solitons and Fractals | 2001 | 108 |
48 | A study of nonlinear dispersive equations with solitary-wave solutions having compact support | Mathematics and Computers in Simulation | 2001 | 107 |
49 | Exact solutions to the double sinh-gordon equation by the tanh method and a variable separated ODE method | Computers and Mathematics With Applications | 2005 | 107 |
50 | An efficient algorithm to construct multi-soliton rational solutions of the (2+ 1)-dimensional KdV equation with variable coefficients | Applied Mathematics and Computation | 2018 | 107 |