Engineering
Mixed Convection
100%
Nanofluid
100%
Stagnation Point
100%
Nanoparticle
50%
Fourth Order
25%
External Flow
25%
Heat Transfer Rate
25%
Temperature Profile
25%
Skin-Friction Coefficient
25%
Kutta Method
25%
Copper (Cu)
25%
Titanium Oxide (Tio2)
25%
Aluminum Oxide (al2o3)
25%
Boundary Value
25%
Boundary Condition
25%
Velocity Profile
25%
Prandtl Number
25%
Initial Value
25%
Similarity Method
25%
Exponential Function
25%
Mathematics
Dual Solution
100%
Shrinking Sheet
100%
Nanofluid
100%
Volume Fraction
50%
Equation System
25%
Exponential Function
25%
Solution Exists
25%
Boundary Condition
25%
Shooting Method
25%
Runge-Kutta Method
25%
Fourth-Order
25%
Initial-Value Problem
25%
Stretching Velocity
25%
Two-Point Boundary Value Problem
25%
Non-Linear Ordinary Differential Equations
25%
Friction Coefficient
25%
Prandtl Number
25%
Heat Transfer Rate
25%
Similarity Method
25%
Keyphrases
Exponentially Stretching
100%
Stagnation Point
100%
Wall Temperature
33%
Local Similarity
33%
Stretching Wall
33%
Copper-water Nanofluid
33%
Two-point Boundary Value Problem
33%
Stretching Speed
33%
Water Base Fluid
33%
Flow Stretching
33%
Chemical Engineering
Mixed Convection
100%
Nanoparticle
66%
Titanium Dioxide
33%
Prandtl Number
33%
Titanium Oxide
33%