Dr. Farooq  Ahmad Gujar

Dr. Farooq Ahmad Gujar

Professor and Vice Principal
Govt. Islamia College Civil Lines, Pakistan


Highest Degree
Ph.D. in Mathematics from Bahauddin Zakariya University, Multan, Pakistan

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Biography

Dr. Farooq Ahmad Gujaris is currently working as Associate Professor at Mathematics Department, Faculty of Science, College of Science Majmaah University Al-Zulfi, KSA. He has completed his Ph.D. in Mathematics from Bahauddin Zakariya University, Multan, Pakistan. He supervised 3 M.Phil thesis. Previously he was served as Faculty member of University of Sargodha Pakistan, Vice Principal, G. Degree College Isa Khel & G.I.C. Mankera, Associate Professor of Mathematics/ Head of Institution/ Principal (BS-19), Govt. College Darya Khan. He is also serving as reviewer and editor for number of journals Konuralp Journal of Mathematics, International Journal of Modern Mathematical Sciences, International Journal of Mathematical Education, Journal Computers and Mathematics with Applications, SIAM Journal on Optimization, Journal of Computational and Applied Mathematics, World Applied Science Journal, Arabian Journal for Science and Engineering, Journal Applied Mathematics Letters, Bulletin of the Malaysian Mathematical Sciences Society and many others. His main area of research interest focuses on Inequalities, Fluid Mechanics, Heat and Mass transfer, Optimization, and Iterative Methods for solving Nonlinear Equations. He has published 62 publications in journals as author/co-author.

Area of Interest:

Mathematics
100%
Inequalities
62%
Fluid Mechanics
90%
Heat and Mass Transfer
75%
Iteration
55%

Selected Publications

  1. Waqas, H., S. Rafique, S. Khalid, F. Ahmad and S. Hussain, 2017. Thermal radiation effects on unsteady MHD flow of casson fluids through porous medium over a permeable shrinking sheet. J. Applied Environ. Biol. Sci., 7: 201-209.
  2. Waqas, H., A. Mariam, S. Khalid, F. Ahmad and S. Hussain, 2017. Radiation effects and chemical reaction on boundary layer flow of electrically conducting casson fluids owing to porous shrinking sheet. J. Applied Environ. Biol. Sci., 7: 117-125.
  3. Tariq, M.A., F. Ahmad and N.B. Jumani, 2017. A study to investigate the reflective activities of in-service teachers for professional development in Pakistan: A mixed methods approach. J. Applied Environ. Biol. Sci., 7: 199-208.
  4. Tahir, A.G., S.A.A. Rizvi, M.B. Khan and F. Ahmad, 2017. Keys of educational marketing. J. Applied Environ. Biol. Sci., 7: 180-188.
  5. Shah, N.H., F. Ahmad, N.B. Jumani and M.A. Tariq, 2017. Influence of organization commitment turnover intention of private secondary school teachers. J. Applied Environ. Biol. Sci., 7: 244-251.
  6. Waqas, H., M.A. Kamal, F. Ahmad, S. Khalid and S. Hussain, 2016. The radiation effect on Mhd stagnation point flow of micropolar fluids due to a porous shrinking sheet with heat generation. Sci. Int. (Lahore), 28: 4271-4275.
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  7. Shalini, K., Abdullah and F. Ahmad, 2016. Existence and stability of L4 of the r3bp when the smaller primary is a heterogeneous triaxial rigid body with N layers. J. Applied Environ. Biol. Sci., 6: 249-257.
  8. Shaikh, H., R.A. Memon, M.E. Baloch, A. Baloch and F. Ahmad, 2016. Influence of local inertia in the forward step channel filled with porous media. J. Applied Environ. Biol. Sci., 6: 177-184.
  9. Sarikaya, M.Z., Z. Dahmani, M.E. Kiris and F. Ahmad, 2016. (k,s)-Riemann-Liouville fractional integral and applications. Hacettepe J. Math. Stat., 45: 1-13.
  10. Rasheed, S., M. Shakeel, M. Gulistan, M. Shahzad and F. Ahmad, 2016. Some characterizations of ag-groupoid by their generalized fuzzy soft quasi ideals. Sci. Int. (Lahore), 28: 851-858.
  11. Khalid, S., S. Hussain, H. Waqas and F. Ahmad, 2016. Numerical solution of Mhd flow and heat transfer in porous medium over a porous shrinking surface with radiation and viscous dissipation. Sci. Int. (Lahore), 28: 4297-4302.
  12. Hussain, S., F. Ahmad, A.S. lfahaid and A.A. Alsaqyani, 2016. Application of differential transform method to magnetohydrodynamic flow of newtonian fluids over a stretching sheet. J. Applied Environ. Biol. Sci., 6: 152-157.
  13. Hussain, F., H.A. Wahab, A. Khatoon, M. Gulistan and F. Ahmad, 2016. An application of hpm to steady third grade non-newtonian fluid. Sci. Int. (Lahore), 28: 4315-4319.
  14. Gulistan, M., S. Ahmad, M. Azam, S. Nawaz and F. Ahmad, 2016. Regular ag-groupoids in terms of hesitant fuzzy sets. Sci. Int. (Lahore), 28: 3277-3282.
  15. Gulistan, M., M. Shahzad, F. Ahmad, M. Azam and S. Nawaz, 2016. Hesitant fuzzy abel-grassmann's groupoids. Sci. Int. (Lahore), 28: 19-25.
  16. El-Hakiem, M.A., M.A. Kamal, F. Ahmad, K. Nimer and S. Hussain, 2016. Heat and mass transfer for mhd mixed convection stagnation point flow over a vertical non-linearly stretching surface. J. Applied Environ. Biol. Sci., 6: 220-230.
  17. Bilal, M., S.A.A. Rizvi and F. Ahmad, 2016. Theory verses practice in science teacher education: Perceptions of student teachers and teacher educators in Pakistan. J. Applied Environ. Biol. Sci., 6: 117-126.
  18. Azam, M.K., S. Hussain and F. Ahmad, 2016. Longitudinal flow of a second grade fluid in a cylinder. Sci. Int. (Lahore), 28: 59-63.
  19. Azam, M.K., M.A. Rehman, F. Ahmad, M. Imran and M.T. Yaqoob, 2016. Integral transforms of K-weyl fractional integrals. Sci. Int. (Lahore), 28: 3283-3286.
  20. Azam, M.K., M.A. Rehman, F. Ahmad, G. Farid and S. Hussain, 2016. Applications of K-weyl fractional integral. Sci. Int. (Lahore), 28: 3369-3372.
  21. Azam, M.K., F. Ahmad and M.Z. Sarikaya, 2016. Applications of Integral Transforms on some k-fractional Integrals. J. Applied Environ. Biol. Sci., 6: 127-132.
  22. Ahmad, S., H.A. Wahab, F. Ahmad, M. Shahzad and B. Ullah, 2016. A ham solution of non-linear convection-radiative heat transfer equation. Sci. Int. (Lahore), 28: 4321-4324.
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  23. Ahmad, F., S. Hussain and O.A. Alturigi, 2016. MHD flow in a viscous fluid near a stagnation point over plane porous stretching sheet. J. Applied Environ. Biol. Sci., 6: 143-151.
  24. Ahmad, F., 2016. Stretching, fixed and porous media fins in double pipe and parallel plates with optimum design for thermal performance. Sci. Int. (Lahore), 28: 851-858.
  25. Abbas, Q., F. Ahmad and M. Imran, 2016. Variable learning rate based modification in backpropagation algorithm (MBPA) of artificial neural network for data classification. Sci. Int. (Lahore), 28: 2369-2380.
  26. Ul Haq, W., F. Ahmad and A. Ghafoor, 2015. Harmite-hadamard type inequalities for functions whose first derivative in absolute value are pre-invex. Sci. Int. (Lahore), 27: 5041-5046.
  27. Solangi, M.A., M.A. Uqail, R.A. Memon, A.L. Qureshi, F. Ahmad and A. Baloch, 2015. Analysis of recirculation flow rate in partially plaque deposited capillaries by power law model. J. Applied Environ. Biol. Sci., 5: 254-259.
  28. Khan, A.R., J. Iqbal, N. Parveen and F. Ahmad, 2015. Brick kilns and sugar mill: Severe environmental health hazards cause respiratory diseases in Tehsil Darya Khan, District Bhakkar, Punjab, Pakistan. J. Applied Environ. Biol. Sci., 5: 31-38.
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  29. Khalf, M.M., F. Ahmad and S. Hussain, 2015. Ideal-weak structure space with some applications. J. Applied Environ. Biol. Sci., 5: 321-329.
  30. Hussain, S., U. Rasheed, F. Ahmad and R.A. Memon, 2015. Mhd micropolar fluids flow and heat transfer over a stretching sheet. Sci. Int. (Lahore), 27: 3043-3045.
  31. Hussain, S., M.A. Kamal and F. Ahmad, 2015. Numerical solution for hydromagnatic fluid flow between two horizontal plates. Proc. Pak. Acad. Sci., 52: 135-144.
  32. Hussain, S., F. Ahmad, A.E. Mutairi and F.S. Alfarhood, 2015. Numerical solution of biomagnetic fluid flow in parallel plate channel. J. Applied Environ. Biol. Sci., 5: 15-21.
  33. Hussain, S., B. Ali and F. Ahmad, 2015. MHD boundary layer flow and heat transfer for micropolar fluids over a shrinking sheet. J. Applied Environ. Biol. Sci., 5: 330-338.
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  34. Hussain, S. and F. Ahmad, 2015. Unsteady MHD flow and heat transfer for Newtonian fluids over an exponentially stretching sheet. Sci. Int. (Lahore), 27: 853-857.
  35. Hussain, S. and F. Ahmad, 2015. A note on MHD free convective heat and mass transfer of fluid flow past a moving variable surface in porous media. J. Applied Environ. Biol. Sci., 5: 214-215.
  36. El-Hakiem, M.A., F. Ahmad and S. Hussain, 2015. Effect of magnetic field and double dispersion on mixed convection heat and mass transfer in non-darcy porous medium. Sci. Int. (Lahore), 27: 845-852.
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  37. Ali, M., F. Ahmad and S. Hussain, 2015. Analytical solution of unsteady MHD blood flow and heat transfer through parallel plates when lower plate stretches exponentially. J. Appl. Environ. Biol. Sci., 5: 1-8.
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  38. Ali, B., F. Ahmad, S. Hussain and U. Rasheed, 2015. Mhd flow and heat transfer through porous medium over an exponentially shrinking permeable surface. Sci. Int. (Lahore), 27: 3961-3964.
  39. Ahmad, F., S. Hussain, M.Z. Sarikaya, N.A. Mir and E. Set, 2015. New results in q-inner product. J. Applied Environ. Biol. Sci., 5: 308-311.
  40. Ahmad, F., S. Hussain, M.Z. Sarikaya, N.A. Mir and E. Set, 2015. New results in SQ-inner product. J. Applied Environ. Biol. Sci., 5: 276-279.
  41. Ahmad, F., S. Hussain, J. Alebrahim and A. Mansoor, 2015. Mhd mixed convection boundary layer flow through porous medium due to porous non-linearly shrinking surface. Sci. Int. (Lahore), 27: 5031-5035.
  42. Ahmad, F., S. Hussain and A. Ansari, 2015. Unsteady MHD blood flow with micropolar fluid characteristics and heat source through parallel plate channel. J. Appl. Environ. Biol. Sci., 5: 80-86.
  43. Ahmad, F., N.A. Mir, M.Z. Sarikaya and S. Hussain, 2015. Unsteady mhd flow and heat transfer for newtonian fluids over an stretching sheet. J. Applied Environ. Biol. Sci., 5: 247-253.
  44. Ahmad, F., N.A. Mir and N. Akmal, 2015. Simultaneous methods for determining zeros of nonlinear equations. J. Applied Environ. Biol. Sci., 5: 378-382.
  45. Ahmad, F., 2015. Numerical solution of hydromagnetic boundary layer flow due to shrinking surface with prescribed heat flux. J. Applied Environ. Biol. Sci., 5: 359-362.
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  46. Ahmad, F., 2015. Numerical solution for mhd stagnation point flow towards a shrinking sheet. Sci. Int. (Lahore), 27: 3046-3049.
  47. Ahmad, F. and S. Hussain, 2015. Convective heat transfer for MHD micropolar fluids flow through porous medium over a stretching surface. J. Applied Environ. Biol. Sci., 5: 6-12.
  48. Ahmad, A.F., S. Hussain, A.M. Alanbari and R.S. Alharbi, 2015. MHD flow and heat transfer through a porous medium over a stretching/shrinking surface with suction. Sci. Int., 27: 931-935.
  49. Abdullah, M., G.R. Pasha and F. Ahmad, 2015. Biases in GLS estimators for dynamic panel data models allowing cross- sectional heteroscedasticity. Sci. Int. (Lahore), 27: 5021-5030.
  50. Abdal, S., S. Hussain, F. Ahmad and B. Ali, 2015. Hydromagnetic stagnation point flow of micropolar fluids due to a porous stretching surface with radiation and viscous dissipation effects. Sci. Int. (Lahore), 27: 3965-3971.
  51. Pitafi, A.I., K. SaifUllah, S. Atiq, S. Hussain, F. Ahmad and R.A. Memon, 2014. A comparative study on microwave effective electromagnetic propertiesof metamaterial with spherical inclusions and of sandwich like magnetic composite. J. Basic Applied Sci. Res., 4: 204-214.
  52. Memon, R.A., A.U. Baluch, H.U. Shaikh, F. Ahmad and S. Hussain, 2014. Numerical simulation of rotating mixing in cylindrical vessel with couple of mix rotating stirrers. J. Basic Appl. Sci. Res., 4: 169-173.
  53. Hussain, S., M.A. Kamal, F. Ahmad and M. Shafique, 2014. MHD stagnation point flow of micropolar fluids towards a stretching sheet. Sci. Int. (Lahore), 26: 1921-1929.
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  54. Hussain, S. and F. Ahmad, 2014. Numerical solution of MHD flow over a stretching sheet. J. Basic Applied Sci. Res., 4: 98-102.
  55. Hussain, S. and F. Ahmad, 2014. MHD flow of micropolar fluids over a stretching sheet. J. Basic Applied Sci. Res., 4: 232-237.
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  56. Hussain, S. and F. Ahmad, 2014. MHD flow of micropolar fluids over a shrinking sheet with mass suction. J. Basic Applied Sci. Res., 4: 174-179.
  57. Hussain, S. and F. Ahmad, 2014. Effects of heat source/sink on MHD flow of micropolar fluids over a shrinking sheet with mass suction. J. Basic Applied Sci. Res., 4: 207-215.
  58. Ali, M., F. Ahmad, S. Hussain and M.T. Yahooq, 2014. Solution for MHD flow due to shrinking sheet with mass suction. J. Basic Applied Sci. Res., 4: 174-180.
  59. Ali, M., F. Ahmad and S. Hussain, 2014. Numerical solution of MHD flow of fluid and heat transfer over porous stretching sheet. J. Basic Applied Sci. Res., 4: 146-152.
  60. Ali, M., F. Ahmad and S. Hussain, 2014. Heat transfer on Magnato Hydro Dynamic (MHD) viscous flow over stretching sheet with prescribed heat flux. J. Basic Applied. Sci., 4: 28-35.
  61. Ahmad, F., S. Hussain, S. Hussain and A. Rafiq, 2014. New J-Halley method for solving nonlinear equations. J. Basic Applied Sci. Res., 4: 257-263.
  62. Ahmad, F., S. Hussain and M. Ali, 2014. An analytical solution of MHD flow over porous stretching sheet. J. Basic Applied Sci. Res., 4: 160-167.
  63. Ahmad, F., N.A. Mir and M.Z. Sarakiya, 2014. An inequality of Ostrowski type via variant of Pompeiu's mean value theorem. J. Basic Applied Sci. Res., 4: 204-211.
  64. Ahmad, F. and S. Hussain, 2014. Numerical solution for magnatohydrodynamic stagnation point flow towards a stretching sheet. J. Basic Applied Sci. Res., 4: 331-339.
  65. Ahmad, F. and S. Hussain, 2014. Numerical solution for hydromagnatic fluid flow between two horizontal plates, both the plates being stretching sheets. J. Basic Applied Sci. Res., 4: 181-185.
  66. Ahmad, F. and S. Hussain, 2014. Heat transfer and MHD boundary layer flow over a rotating disk. J. Basic Applied Sci. Res., 4: 327-331.
  67. Shafique, M., F. Ahmad, S. Hussain and S. Hussain, 2013. Numerical solution of uniform suction/Blowing effect on Newtonian fluid flow due to a stretching Cylinder. Int. J. Emerg. Technol. Adv. Eng., 3: 43-57.
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  68. Shafique, M., F. Ahmad, S. Hussain and S. Hussain, 2013. Numerical solution of uniform suction/ injection effect on flow of fluids due to a stretching cylinder. World Applied Sci. J., 24: 667-674.
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  69. Sajjad, H. and F. Ahmad, 2013. The deceleration of a rotating disk in micropolar fluid. Int. J. Modern Math. Sci., 8: 111-122.
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  70. Hussain, S., M.A. Kamal, F. Ahmad, M. Shafique and M. Ali, 2013. Numerical solution for newtonian maganatohydrodynamic boundary layer flow over a rotating disk. Int. J. Applied Math. Mech., 2: 1-10.
  71. Hussain, S., M.A. Kamal, F. Ahmad, M. Ali, M. Shafique and S. Hussain, 2013. Numerical solution for a similar flow between two disks in the presence of a magnetic field. Applied Math., 4: 1163-1167.
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  72. Hussain, S., M.A. Kamal and F. Ahmad, 2013. The accelerated rotating disk in a micropolar fluid flow. Applied Math., 5: 196-202.
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  73. Hussain, S., F. Ahmad, M. Shafique and S. Hussain, 2013. Numerical solution for the deceleration of a rotating disk in a viscous fluid. Int. J. Emerg. Technol. Adv. Eng., 3 : 718-725.
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  74. Hussain, S., F. Ahmad, M. Shafique and S. Hussain, 2013. Numerical solution for accelerated rotating disk in a viscous fluid. Applied Math., 4: 899-902.
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  75. Hussain, S., F. Ahmad and M. Shafique, 2013. Numerical solution for the flow over a stretchable disk. Asia Pacific J. Multidiscip. Res., 1: 51-61.
  76. Ahmad, F., S. Hussain, S. Hussain and A. Rafiq, 2013. New twelfth order J-Halley method for solving nonlinear equations. Open Sci. J. Math. Applic., 1: 1-5.
  77. Ahmad, F., S. Hussain, S. Hussain and A. Rafiq, 2013. New ninth order J-halley method for solving nonlinear equations. Applied Math., 4: 1709-1713.
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  78. Ahmad, F., S. Hussain, S. Hussain and A. Rafiq, 2013. New efficient fourth order method for solving nonlinear equations. APJMR, 1: 198-207.
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  79. Raza, M., F. Ahmad and S. Hussain, 2012. Fourth-order convergent Two-step iterative algorithm for solving Non-linear equations. Acad. Res. Int., 2: 111-116.
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  80. Ahmad, F., S. Hussain and M. Raza, 2012. New derivative free iterative method for solving Non-linear equations. Acad. Res. Int., 2: 117-123.
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  81. Set, E., M.Z. Sarikaya and F. Ahmad, 2011. A generalization of Cebysev type inequalities for first differentiable mappings. Miskolc Math. Notes, 12: 245-253.
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  82. Ahmad, F., M. Raza, S. Hussain, N.A. Mir and A. Rafiq, 2011. Some new iterative scheme using decomposition technique. Int. J. Applied Math., 24: 817-828.
  83. Mir, N.A., F. Ahmad, M. Raza and T. Nawaz, 2010. Fourth order methods for finding multiple as well as distinct zeros of non-linear equations. Tamsui Oxford J. Math. Sci., 26: 321-333.
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  84. Ahmad, F., P. Cerone, S.S. Dragomir and N.A. Mir, 2010. On some bounds of Ostrowski and Cebysev type inequalities. J. Math. Inequalities, 4: 53-65.
  85. Rafiq, A. and F. Ahmad, 2009. On weighted Ostrowski type inequalities in L1 (a, b) spaces. Math. Commun., 14: 27-33.
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  86. Farooq Ahmad, A.R., 2009. Weighted Eebysev type inequalities involving functions whose first derivatives belong to L1 (a, b) spaces. Math. Commun., 14: 27-33.
  87. Ahmad, F., S. Hussain, N.A. Mir and A. Rafiq, 2009. New sixth order Jarratt method for solving nonlinear equations. Int. J. Applied Math. Mech., 5: 27-35.
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  88. Ahmad, F., N.S. Barnett and S.S. Dragomir, 2009. New weighted Ostrowski and Cebysev type inequalities. Nonlinear Anal. Theory Methods Applic., 71: e1408-e1412.
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  89. Ahmad, F., N.A. Mir and A. Rafiq, 2009. Weighted Cebysev type inequalities involving functions whose first derivatives belong to Lp(a, b), ∀(1 ≤p < ∞). Kragujevac J. Math., 32: 13-26.
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  90. Ahmad, F. and N.A. Mir, 2009. Weighted Eebysev type inequalities involving functions whose first derivatives belong to Lp (a,b). Kragujevac J. Math., 32: 13-26.
  91. Rafiq, A. and F. Ahmad, 2008. Another weighted Ostrowski-Gruss type inequality for twice differentiable mappings. Kragujevac J. Math., 31: 43-51.
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  92. Ahmad, F. and A. Rafiq, 2008. Fifth-order iterative scheme using decomposition technique. Nonlinear Anal. Forum, 13: 95-102.
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  93. Rafiq, A., S. Hussain, F. Ahmad, M. Awais and F. Zafar, 2007. An efficient Three-step iterative method with Sixth-order convergence for solving nonlinear equations. Int. J. Comput. Math., 84: 369-375.
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  94. Rafiq, A., S. Hussain, F. Ahmad and M. Awais, 2007. New iterative methods. Applied Math. Comput., 189: 1260-1267.
  95. Rafiq, A., N.A. Mir and F. Ahmad, 2007. Weighted Cebysev-Ostrowski type inequalities. Applied Math. Mech., 28: 901-906.
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  96. Rafiq, A., F. Ahmad and S. Hussain, 2007. Some new sixth order variants of Newton's method. Nonlinear Anal. Forum, 12: 85-90.
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  97. Rafiq, A., F. Ahmad and N.A. Mir, 2007. New Ostrowski-Gruss type inequalities. Int. J. Applied Math., 20: 483-493.
  98. Rafiq, A. and F. Ahmad, 2007. Ostrowski gruss eebysev type inequalities for functions whose second derivatives belong to Lp (a,b) spaces and whose modulus of second derivatives are convex. Revista Colombiana de Matematicas, 41: 1-13.
  99. Ahmad, F., A. Rafiq and N.A. Mir, 2007. Open quadrature iterative scheme. Int. J. Applied Math., 20: 787-799.
  100. Ahmad Mir, A.R.N. and F. Ahmad, 2007. Weighted Eebysev-ostrowski type inequalities involving functions whose first derivative belongs to L (a, b). Applied Math. Mech., 28: 901-906.
  101. Rafiq, A., N.A. Mir and F. Ahmad, 2006. Weighted Ostrowski type inequality for differentiable mappings whose first derivatives belong to Lp (a,b). General Math., 14: 91-102.
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  102. Mir, N.A., A. Rafiq and F. Ahmad, 2006. Weighted Ostrowski type inequality for differentiable mappings whose first derivatives belong to L∞ (a, b). General Math., 14: 24-35.
  103. Mir, N.A., A. Rafiq and F. Ahmad, 2006. Weighted Ostrowski type inequality for differentiable mappings whose first derivatives belong to L (a, b). Gen. Math., 14: 27-38.
  104. Mir, N.A., A. Rafiq and F. Ahmad, 2006. Generalization of integral inequalities for functions whose modulus of nth derivatives are convex. Gen. Math., 14: 71-96.
  105. Mir, N.A., A. Rafiq and F. Ahmad, 2006. Generalization of integral inequalities for functions whose modulus nth of derivatives are convex. General Math., 14: 67-92.
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  106. Ahmad, F., A. Rafiq and N.A. Mir, 2006. Weighted Ostrowski type inequality for twice differentiable mappings. Global J. Res. Pure Applied Math., 2: 147-154.
  107. Ahmad, F., A. Rafiq, S. Hussain and N.A. Mir, 2004. New iterative method with sixth order of convergence. Int. J. Comput. Numer. Anal. Applic., 6: 391-399.