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Mixed convection flow over a vertical power-law stretching sheet
P. M. Patil
, S. Roy
, Ali J. Chamkha
J.S.S's Banashankari Arts
Indian Institute of Technology Madras
The Public Authority of Applied Education and Training
Research output
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Contribution to journal
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Article
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peer-review
46
Citations (Scopus)
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Keyphrases
Power Law
100%
Buoyancy Parameter
100%
Mixed Convection Flow
100%
Exponent Parameter
100%
Power-law Stretching Sheet
100%
Design Methodology
50%
Two Dimensional
50%
Heat Transfer Rate
50%
Quasilinearization
50%
Non-similar
50%
Convective Flow
50%
Skin Friction
50%
Finite Difference Method
50%
Semi-infinite
50%
Stretching Sheet
50%
Prandtl number
50%
Stretching Surface
50%
Free Stream Velocity
50%
Implicit Iterative Algorithm
50%
Reference Velocity
50%
Mixed Convective Flow
50%
Infinite Power
50%
Variable Wall Temperature
50%
Engineering
Mixed Convection
100%
Convective Flow
100%
Illustrates
50%
Two Dimensional
50%
Finite Difference Method
50%
Free Stream Velocity
50%
Heat Transfer Rate
50%
Skin-Friction Coefficient
50%
over-Stretching
50%
Prandtl Number
50%
Reference Velocity
50%
Mathematics
Stretching Sheet
100%
Power Law
100%
Convective Flow
50%
Free Stream
25%
Finite Difference Method
25%
Stream Velocity
25%
Friction Coefficient
25%
Prandtl Number
25%
Heat Transfer Rate
25%
Material Science
Mixed Convection
100%
Finite Difference
50%
Chemical Engineering
Mixed Convection
100%
Prandtl Number
50%