Masood Khan mainly focuses on Mechanics, Flow, Homotopy analysis method, Classical mechanics and Newtonian fluid. The various areas that Masood Khan examines in his Mechanics study include Partial differential equation and Thermodynamics. His Flow study combines topics in areas such as Mathematical analysis, Differential equation, Magnetohydrodynamic drive, Magnetohydrodynamics and Constant.
His studies in Classical mechanics integrate themes in fields like Deborah number and Pressure gradient. His Newtonian fluid study incorporates themes from Non-Newtonian fluid, Compressibility, Viscoelasticity and Open-channel flow. His research in Boundary layer tackles topics such as Nusselt number which are related to areas like Nanofluid and Carreau fluid.
His primary areas of investigation include Mechanics, Heat transfer, Flow, Materials science and Nanofluid. Masood Khan combines subjects such as Nusselt number, Magnetohydrodynamics, Homotopy analysis method and Classical mechanics with his study of Mechanics. His Heat transfer research incorporates elements of Carreau fluid and Ordinary differential equation.
In his work, Herschel–Bulkley fluid and Burgers vortex is strongly intertwined with Mathematical analysis, which is a subfield of Flow. His work on Thermophoresis as part of general Nanofluid research is frequently linked to Brownian motion, bridging the gap between disciplines. He studied Boundary layer and Boundary value problem that intersect with Differential equation.
His main research concerns Mechanics, Nanofluid, Materials science, Heat transfer and Flow. His Mechanics research is multidisciplinary, incorporating elements of Nusselt number, Ordinary differential equation and Thermal radiation. His Nanofluid research is multidisciplinary, incorporating perspectives in Thermal conductivity, Prandtl number and Boundary layer.
His work carried out in the field of Prandtl number brings together such families of science as Weissenberg number and Carreau fluid. Masood Khan has researched Heat transfer in several fields, including Deborah number and Work. The Flow study combines topics in areas such as Partial differential equation, Mathematical analysis, Homotopy analysis method and Buoyancy.
Masood Khan mainly focuses on Mechanics, Nanofluid, Heat transfer, Flow and Thermophoresis. Masood Khan integrates Mechanics and Materials science in his research. Masood Khan has included themes like Combined forced and natural convection, Work, Thermal radiation, Boundary layer and Nusselt number in his Nanofluid study.
Many of his research projects under Heat transfer are closely connected to Radiative transfer with Radiative transfer, tying the diverse disciplines of science together. Masood Khan combines subjects such as Partial differential equation and Mathematical analysis with his study of Flow. His studies deal with areas such as Boundary value problem and Homotopy analysis method as well as Partial differential equation.
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Homotopy analysis of MHD flows of an Oldroyd 8-constant fluid
T. Hayat;M. Khan;S. Asghar.
Acta Mechanica (2004)
HOMOTOPY SOLUTIONS FOR A GENERALIZED SECOND-GRADE FLUID PAST A POROUS PLATE
Tasawar Hayat;Masood Khan.
Nonlinear Dynamics (2005)
On the explicit analytic solutions of an Oldroyd 6-constant fluid
T. Hayat;M. Khan;M. Ayub.
International Journal of Engineering Science (2004)
Lignite-Derived Humic Acid Effect on Growth of Wheat Plants in Different Soils
M.M. Tahir;M. Khurshid;M.Z. Khan;M.K. Abbasi.
Exact solution for MHD flow of a generalized Oldroyd-B fluid with modified Darcy’s law
M. Khan;T. Hayat;S. Asghar.
International Journal of Engineering Science (2006)
Calretinin and Other CaBPs in the Nervous System
John Rogers;Masood Khan;Jon Ellis.
Advances in Experimental Medicine and Biology (1990)
Couette and Poiseuille flows of an oldroyd 6-constant fluid with magnetic field
T. Hayat;Masood Khan;M. Ayub.
Journal of Mathematical Analysis and Applications (2004)
Impact of nonlinear thermal radiation and gyrotactic microorganisms on the Magneto-Burgers nanofluid
M. Khan;M. Irfan;W.A. Khan.
International Journal of Mechanical Sciences (2017)
Creatinine clearance as a predictor of ultrafilterable platinum disposition in cancer patients treated with cisplatin: relationship between peak ultrafilterable platinum plasma levels and nephrotoxicity.
P A Reece;I Stafford;J Russell;M Khan.
Journal of Clinical Oncology (1987)
Influence of Hall current on the flows of a generalized Oldroyd-B fluid in a porous space
M. Khan;K. Maqbool;T. Hayat.
Acta Mechanica (2006)
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