This article has examined the Sakiadis and Blasius MHD Micropolar liquid with heated convection and heat dawning or dig. By the use of similarity transformation acquired PDEs like an impulse, intensity equations and it’s transformed into ordinary distinction equations. Solved those equations numerically with the aid of using the use of Runge-Kutta primarily based totally on the shooting method. The ramifications of regulating structural physical quantities the velocity and temperature distribution are illuminated with the aid of using graphically. The Graphical illustration had been acquired with the aid of using MATLAB to look at how velocity, temperature and the other parameters attention are stimulated with the aid of using Blasius and Sakiadis. Also computed where the nearby skin graft coefficient and Nu number for both the Sakiadis and Blasius problems. Finally, it was found that, when compared to the Sakiadis flow scenario, the rate of heat switch in the Blasius and case could be highly excessive.

1.
M.
Seddeek
and
M.
Abdelmeguid
, “
Effects of radiation and thermal diffusivity on heat transfer over a stretching surface with variable heat flux
,”
Physics Letters A
,
348
,
172
179
(
2006
).
2.
H.
Weyl
, “
On the differential equations of the simplest boundary-layer problems
,”
Annals of Mathematics
,
381
407
(
1942
).
3.
H.
Blasius
,
Grenzschichten in Flussigkeiten mit kleiner reibung
, (
Druck von BG Teubner
,
1907
).
4.
B. C.
Sakiadis
, “
Boundary-layer behavior on continuous solid surfaces: I. boundary-layer equations for two-dimensional and axisymmetric flow
,”
AIChE Journal
7
,
26
28
(
1961
).
5.
E.
Magyari
, “
The moving plate thermometer
,”
International journal of thermal sciences
47
,
1436
1441
(
2008
).
6.
L.
Howarth
, “
On the solution of the laminar boundary layer equations
.”
Proceedings of the Royal Society of London. Series A-Mathematical and Physical Sciences
164
,
547
579
(
1938
).
7.
F.
Tsou
,
E. M.
Sparrow
, and
R. J.
Goldstein
, “
Flow and heat transfer in the boundary layer on a continuous moving surface
,”
International Journal of Heat and Mass Transfer
,
10
,
219
235
(
1967
).
8.
C.-H.
Chen
, “
Forced convection over a continuous sheet with suction or injection moving in a flowing fluid
,”
Acta Mechanica
138
,
1
11
(
1999
).
9.
E.
Sparrow
,
R.
Eichhorn
, and
J.
Gregg
, “
Combined forced and free convection in a boundary layer flow
,”
The Physics of Fluids
2
,
319
328
(
1959
).
10.
L.
Erickson
,
L.
Fan
, and
V.
Fox
, “
Heat and mass transfer on moving continuous flat plate with suction or injection
,”
Industrial & Engineering Chemistry Fundamentals
,
5
,
19
25
(
1966
).
11.
M.
Qasim
and
S.
Noreen
, “
Falkner-skan flow of a maxwell fluid with heat transfer and magnetic field
,”
International Journal of Engineering Mathematics
2013
(
2013
).
12.
W. A.
Coppel
, “
On a differential equation of boundary-layer theory
,”
Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences
253
,
101
136
(
1960
).
This content is only available via PDF.
You do not currently have access to this content.