Dr. Mahinder Singh Bhardwaj
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Dr. Mahinder Singh Bhardwaj

Assistant Professor
Govt. Post Graduate College, India


Highest Degree
Ph.D. in Mathematics from Govt. Post Graduate College, India

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Biography

Dr. Mahinder Singh Bhardwaj is currently working as Assistant Professor at Govt. Post Graduate College, India. He obtained his Ph.D. in Mathematics from same Institute. His main area of interest related to Magneto Hydrodynamics (Fluid Dynamics). His main area of expertise includes Newtonian / Non Newtonian Fluids, Instability Problems, Rayleigh-Taylor Instability, Kuviniski Fluids, Tripple-Diffusive Effective, Benard Convection/ Thermal Instability, Suspended Particles, Magnetic Field, Permeability, Thermosolutal Instability, Couple-Stress Fluid, Rivlin-Ericksen Fluid, Wave, Porous Medium, Walters B Fluids, Maxwellian fluids, and Double-Diffusive Effect. He has published 29 articles in journals as author/co-author. He also participated in 7 workshops. He is life member of Ramanujan Mathematical Society, Indian Mathematical Society, and Rajasthan Ganita Parishad. He is also serving as reviewer in Applications and Applied Mathematics, an International journal (AAM) Prairie View A & M University, Texas, USA, International Journal of transform in Porous Medium, University of California, and World Academy of Science and Engineering, USA.

Area of Interest:

Mathematics
100%
Applied Mathematics
62%
Mathematical Analysis
90%
Fluid Dynamics
75%
Thermal Instability
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
0
Abstracts
0

Selected Publications

  1. Singh, M., 2016. Effective interfacial tension effect on the instability of streaming Rivlin-Ericksen elastico-viscous fluid flow through a porous medium. Int. J. Applied Mech. Eng., 21: 221-229.
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  2. Mehta, C.B., M. Singh and S. Kumar, 2016. Thermal convection of magneto compressible couple-stress fluid saturated in a porous medium with Hall current. Int. J. Applied Mech. Eng., 21: 83-93.
    CrossRef  |  
  3. Singh, M., 2015. Stability of superposed fluids through magnetic field with suspended particles of different permeability saturated through porous layer. Int. J. Applied Mech. Eng., 20: 889-898.
    CrossRef  |  
  4. Singh, M. and C.B. Mehta, 2015. Hydrodynamic and hydromagnetic stability of two superposed elastic-viscous fluid of different permeability with dust through porous medium. IJAME, 20: 147-157.
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  5. Singh, M. and R.K. Gupta, 2014. On thermosolutal convection in presence of compressible fluid with fine dust. Int. J. Applied Mech. Eng., 19: 133-143.
    CrossRef  |  Direct Link  |  
  6. Singh, M. and R.K. Gupta, 2014. Double-diffusive convection in presence of compressible rivlin-ericksen fluid with fine dust. J. Fluids, Vol. 2014. 10.1155/2014/714150.
    CrossRef  |  
  7. Singh, M. and C.B. Mehta, 2014. Hydrodynamic and hydromagnetic stability of superposed rivlin-ericksen elastico viscous fluid of different permeability with porous medium. J. Bioinformatics Biol. Eng., 2: 13-19.
  8. Singh, M. and R.K. Gupta, 2013. Hall effect on thermal instability of viscoelastic dusty fluid in porous medium. Int. J. Applied Mech. Eng., 18: 871-886.
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  9. Singh, M. and C.B. Mehta, 2013. Thermal instability of magneto rotatory compressible couple-stress fluid. Int. J. Phys. Math. Sci., 4: 401-495.
  10. Singh, M. and C.B. Mehta, 2013. On compressible couple-stress fluid heated and soluted from below in porous medium in presence of rotation and magnetic field. J. Mech. Eng. Technol., 1: 21-33.
    Direct Link  |  
  11. Singh, M. and C.B. Mehta, 2013. Hall effect on Benard convection of compressible viscoelastic fluid through porous medium. J. Fluids, Vol. 2013. 10.1155/2013/910531.
    CrossRef  |  
  12. Singh, M., C.B. Mehta and S. Gangta, 2012. Thermosolutal Convection in Compressible, Rotating Couple-Stress Fluid in the Presence of Magnetic Field. Adv. Appl. Sci. Res., 3: 3459-3468.
    Direct Link  |  
  13. Gupta, R.K. and M. Singh, 2012. Stability of Stratified Rotating Viscoelastic Rivlin-Ericksen Fluid in the Presence of Variable Magnetic Field. Adv. Appl. Sci. Res., 3: 3253-3258.
    Direct Link  |  
  14. Singh, M., 2011. Hall current effect on thermosolutal instability in viscoelastic fluids through porous medium. IJAME, 16: 869-874.
  15. Singh, M., 2011. Hall current effect on thermosolutal instability in a viscoelastic fluid flowing in a porous medium. Int. J. Applied Mech. Eng., 16: 69-82.
    Direct Link  |  
  16. Singh, M. and R.K. Gupta, 2011. Thermal instability of Rivlin-Ericksen elastico-viscous fluid permeated with suspended particles in hydrodynamics in a porous medium. Int. J. Applied Mech. Eng., 16: 1169-1179.
    Direct Link  |  
  17. Singh, M. and P. Kumar, 2011. Magneto and rotatory thermosolutal convection in Couple-stress fluid in porous medium. J. Porous Medium, 14: 637-648.
    CrossRef  |  
  18. Singh, M. and P. Kumar, 2011. Hydrodynamic and hydromagnetic stability of two stratified Walter's B' elastico viscous superposed fluids Int. J. Applied Mech. Eng., 16: 233-241.
  19. Kumar, P. and M. Singh, 2010. Magneto thermal convection in a compressible Couple-stress fluid. Z. Naturforsch., 65: 215-220.
  20. Kumar, P. and M. Singh, 2009. Thermal instability of a compressible electrically conducting Couple-stress fluid in the presence of a uniform magnetic field. Int. J. Applied Mech. Eng., 14: 865-865.
  21. Kumar, P. and M. Singh, 2009. Megneto-thermosolutal convection in a compressible Couple-stress fluid. Z.Naturforch, 64: 1-6.
  22. Kumar, P., M. Singh and G. Singh, 2008. Instability of two rotating maxwellian viscoelastic superposed fluids with variable magnetic field in porous medium Acta Cienc. Indica, 34: 1449-1449.
  23. Kumar, P. and M. Singh, 2008. Rotatory thermosolutal convection in a Couple-stress fluids. Z. Naturforch, 64: 448-454.
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  24. Kumar, P. and M. Singh, 2008. On superposed maxwellian viscoelasticfluids through porous medium in hydromagnetic. IeJEMTA, 3: 158-158.
  25. Kumar, P. and M. Singh, 2008. Instability of two rotating maxwellian viscoelastic superposed fluids with variable magnetic field in porous medium. J. Ganita Sandesh, 21: 147-160.
  26. Kumar, P. and M. Singh, 2008. Thermal instability of kuvshiniski viscoelastic fluid with finite dust in a porous medium. Int. J. Applied Mech. Eng., 13: 193-201.
  27. Kumar, P., M. Singh and R. Lal, 2007. Hydrodynamic and hydromagnetic stability of two stratified Rivilin-ericksen superposed fluids. Int. J. Applied Mech. Eng., 12: 653-653.
  28. Kumar, P. and M. Singh, 2007. Instability of two rotating Visco-elastic (WALTERS B') superposed particles in porous medium. Int. J. Thermal Science, 11: 102-102.
  29. Kumar, P. and M. Singh, 2007. Hydrodynamic and hydro magnetic stability of viscous- viscoelastic superposed fluids in presence of suspended particles. Phys. Separation Sci. Eng., 2007: 1-6.
    CrossRef  |  Direct Link  |  
  30. Kumar, P., M. Singh and P. Sharma, 2006. On the stability of superposed viscous-viscoelastic(couple-stress) fluids through porous medium. J. Ganita Sandesh, 20: 178-178.
  31. Kumar, P. and M. Singh, 2006. On a visco-elastic fluids heated from below in a porous medium. J. Non-Equilib. Thermodyn, 31: 189-203.
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