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Norsarahaida S Amin
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Name: Norsarahaida Saidina Amin, Prof. Dr.
Post : Professor / Head, Department of Mathematics
Area of Interest :
  • Applied Mathematics (Fluid Mechanics and Heat Transfer) Mathematical Modelling of non-Newtonian Fluids : Modelling of Non-Newtonian Blood Flow in a Stenosed Artery, non-Newtonian Convcetive Boundary Layer Flows, Modelling of Fluid Flow and Heat Transfer under Low-Gravity Conditions
  • Engineering Mathematics - Mathematics Education for Engineers and Industry
Room : C22 430 - 01 / C17 Level 3, Faculty of Science
Phone : 07-5534267, 012-7097905,
Email : This e-mail address is being protected from spambots. You need JavaScript enabled to view it


Education

PhD (Applied Mathematics)
University of East Anglia, Norwich, England, 1989
PhD Thesis : Oscilation  Induced Mean Flows and Heat Transfer

M.S. (Applied Mathematics)
Northwestern University, Evanston, Illnois, USA, 1984

B.Sc (Hons) (Applied Mathematics)
University of Adelaide, Adelaide, Australia, 1983

Matriculation,Unley High School, Adelaide, Australia, 1978

MCE, Sekolah Tun Fatimah, Johor Bahru, 1972-1977


Teaching

Undergraduate Subjects :
1. Ordinary and Partial Differential Equations
2. Engineering Mathematics
3. Fluid Mechanics
4. Computational Fluid Dynamics

Post-graduate Subjects :
1. Fluid Mechanics and Heat Transfer
2. Advanced Mathematical Methods for Scientists and Engineers
3. Computational Fluid Dynamics
4. Mathematical Modelling
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Supervisions

PhD Students
1.Roslinda Mohd Nazar, PhD, Mathematical Models for Free and Convective Boundary Layer in Micropolar Fluids, 2004
2.Mohamed M.S. Nasser, PhD, Boundary Integral Equation Approach For Numerical Solution of The Riemann Problem, 2005 (co-supervised        with PM Dr Ali Hassan Mohamed Murid)
3.Tan Wooi Nee, PhD, Mathematical Modelling of Surface Waves using Wave Group, 2006 (co-supervised with PM Dr Zainal Abdul Aziz)
4.Sharidan Shafie, PhD,  Mathematical  Models For g-Jitter Induced Flows And Heat Transfer, 2006.
5.Lok Yian Yian, PhD, Mathematical Modelling of Stagnation Point   Flows In  Micropolar Fluids, 2007
6.
Norzieha Mustafa, Numerical Modelling and Simulation of Blood Flow through a Multi-Irregular Stenosed Artery, 2009
7.Ilyani Abdullah, Mathematical Modelling of Micropolar Blood Flow Through an Arterial Stenosis,  VIVA 2009
8.Anati Ali, Numerical Solutions of Unsteady Boundary Layer Flow And Heat Transfer in Micropolar Fluids, VIVA 2009
9.Nur Ilyana Anwar Apandi, Mixed Convection Boundary Layer of a Viscoelastic Fluid Near a Stagnation Point, 2007-ongoing
10.Nursalasawati Rusli, Biomagnetic fluid flow, 2007-ongoing
11.Rozila Yasin, Mathematical Modelling of non-Newtonian Fluid Flows with Fluid Structure Interaction, 2008-ongoing

12.Faizal Salah, Exact Solution of Accelerated Non-Newtonian Fluids, co-supervisor

M.Sc Students
1.Sharidan Shafie, MSc, Horizontal Free-Convection, 1996
2.Tan Wooi Nee, MSc, The Solution Of Laplace Equation Using Boundary Element , 1996
3.Saras Krishnan, MSc, The Solution Of Advection-Diffusion Equation Forsolute Transport In Groundwater Problems, 1998
4.Lok Yian Yian, MSc,Non-Isothermal Free Convection Boundary Layers, 2002
5.Phang Piau, MSc, Non-Similar Free Convection Over  Vertical Cylinders, 2002
6.Azizah Mohd Rohni, MSc, Free Convection Over A Vertical Plate With A Step Change In Surface Temperature, 2002
7.Mohd Zuki Salleh, MSc, Mathematical Model For The Boundary –Layer Flow Over A Moving Plate In Micropolar Fluids, 2004
8.Norsiah Hashim, MSc,Perturbation Solutions Of Nonlinear Oscillatory Problems Using Maple, 2003
9.Nor Fadiya Mohd Nor, MSc, Exact Solution of The Navier-Stokes Equations, 2005
10.Zuhaila Ismail, MSc, Non-Newtonian model of blood flow in a stenosed artery, 2006
11.Raja Mohd Taufika, MSc, Mathematical Modelling of Boundary Layer Flow And Heat Transfer In Forced Convection, 2006.
12.
Mohd Azmeel Adli Amiruddin, Mathematical Modelling of Forced Convection in Nanofluids, 2009.
13.Iskandar Waini, Mathematical Modelling of Convection Boundary Layers over Surfaces in Nanofluids, 2009 - ongoing.

B.Sc Project Students
1.Noraima Abu Bakar, Introduction To Pertubation Techniques, 1991
2.Siew Chee Kong, Mathematical Model For Blood Flow And Circulation, 1993
3.Chok Loo Sze, Mathematics Education For Engineers, 1993
4.Ong Show Cheer, Introduction To Boundary-Layer Theory, 1993
5.Majenah Lass, Introduction To Population Dynamics, 1992
6.Haron Mohamed, Mathematics For Industries, 1994
7.Resham Singh, Mathematical Modelling For Engineers, 1994
8.Manisah Mohd Shah, Mathematica Package For Multiple Integration, 1995
9.Mohd Zin Mokhtar, A Computer Package For Vector Integrals, 1995
10.Justine Salim, A Courseware For Double Integration, 1998
11.Irwan Othman, A Courseware For Triple Integrals, 1998
12.Ahmad Fauzi Samad, The Solution Of Non-Homogeneous Heat Equation, 1999
13.Weng Eu Gene, A Mathematica Package For The Solution Of Heat Equation, 1999
14.Siti Asmah Abu Bakar, Fibonacci Sequence, 1999
15.Mohd Azmi Saleh, A Teaching And Learning Package For Triple Integrals, 1999
16.Azmah Mohd, Fundamental Concepts In Boundary Layers, 2000
17.Chung Kui Chai, The Solution Of Boundary-Layer Equations, 2000
18.Khairunnisak Alimun, Function Of Several Variables, 2000
19.Mohamad Hanif  Hamali, Kepler’s Law And Newton’s Gravitational Theory, 2000
20.Nor Rashidah Wahab, The Solution Of Laplace Equation In Cylindrical Coordinates, 2000
21.Wong Pui Sing, A Mathematical Model For Hyperthermia, 2000
22.Lai Yen Ling, Penyelesaian Persamaan Tak Linear Peringkat  Kedua Dengan Kaedah Usikan, 2001
23.Lim Nguok Yen, Penyelesaian Persamaan Aljabar Dan Persamaan Transenden Dengan Kaedah Usikan, 2001
24.Mohd Termizi Ali Affandi, Vector Fields, 2001
25.Ting Mui Chin, Penyelesaian Persamaan Terbitan Dengan Kaedah Usikan, 2001
26.Norhasriza Mohamed, Fungsi Vektor, 2002
27.Nur Ilyana Anwar Apandi, Penyelesaian Persamaan Terbitan Biasa Dengan Kaedah Usikan, 2002
28.Siti Sulaiha Mohamad, Pembelajaran Kamiran Ganda Dua Berbantukan Komputer,  2002
29.Frida Nyambar, Penyelesaian Persamaan Haba Menggunakan Kaedah Jelmaan Laplace, 2003
30.Jastina Aida Abdul Aziz, The Solution of Heat Equation Using Fourier Transform,  2003
31.Mohd Hamim Yasiran, The Lanchaster Model For Warfare, 2004
32.Ahmad Shahrol Mokhtar, Pakej Pengajaran Dan Pembelajaran Kamiran Berganda, 2004
33.Marhazielawati Ahmad, Penyelesaian Persamaan Gelombang Menggunakan Kaedah D’Alembert, 2003
34.Auni Aslah Mat Daud, Mathematical Modeling of Blood Flow in Capillaries, 2005
35.Norliana Muslim, The Navier-Stokes Equations, 2005
36.Nor Zakiah Yahya, Mathematical Modeling of  Newtonian Blood Flow, 2006
37.Mohd Anuar Jamaludin, Model Matematik bagi Aliran Darah melalui Arteri, 2006
38.Azwani Alias, Arterial Flow Dynamics, 2007
39.Yeung Lai Chee, Mathematical Modelling of Arterial Blood Flow, 2007
40.Mutiah Salim, Similarity solution for blast wave problem, 2008
41.Wang, Numerical Solution of Navier-Stokes Equation Using Pressure-Correction Technique, 2008
42.Hafizah Farhah bt Saipan@Saipol, Variable accelerated flows of an Oldroyd-B fluid in a porous medium, 2009 - ongoing
43.Nur Adilah Liyang bt. Hj. Aladdin, Flow induced by a constantly accelerating plate in an Oldroyd-B fluid, 2009 - ongoing.



Research Projects

1. Mathematical Modelling of Low - Gravity Fluid Flows and Heat Transfer
Scientific Advancement Grant Allocation(SAGA), Project Head, RM 94,200, December 2004 - July 2007

2. Mathematical Modelling of Physiological Fluid Flows
Project FRGS, Vot 78087, Project Head, RM 44,000, February 2007 – Feb 2010,ongoing

3. High Performance Temperature Prediction for Electronic System Using a Distributed Parallel Computer System
Vot 79217, Project Member, RM 130,800, Sept 2000- March 2009, ongoing.

4. Mathematical Modelling of Forced Convection Boundary Layer Flow Past a Sphere in Micropolar Fluid

Project FRGS, Vot 78087
, Project Head, RM 44,000, February 2007 – Feb 2010,ongoing.

5. Mathematical Modeling of Boundary Layer Flow and    Heat Transfer of Viscoelastic
Project FRGS, Vot 78338, Project Member, RM 96,500.00, 1 November 2008 - 31 Oktober 2010.


6. Lie Symmetries and their Novel Combination with Homotopy Analysis Mehtod (HAM) for Fluid Flow Problems
Project FRGS, Vot 78344, Project Member, RM 94,500.00, 1 November 2008 - 31 Oktober 2010.


7. Flow about Submerged Cylinders
CICHE Project 632 Computational Fluid Dynamics,  Participating institutions: University of East Anglia and City University, UK, Marine Technology Directorate, UK, 1996-1998


8. Axisymmetric Free Convection
CICHE Project 625 Fluid Mechanics, Participating institutions : University of East Anglia, UK, 1994-1996.


9. Mathematical Modelling of Surface Waves using Wave Group
IRPA 7th Malaysia Plan Project, Vot No. 72359, RM 36,000 Participating institutions: ITB,Bandung,University of Twente, Netherlands, 2000-2001.


10. Mathematical Modelling of Free Convective Heat Transfer in Micropolar Fluids
IRPA 8th Malaysia Plan Project, Vot 74046, RM 79,000 Participating Institutions: University of Bath, UK and University of Cluj, Romania, 2001–2004.


11. Mathematical Modelling of Low - Gravity Fluid Flows and Heat Transfer
Scientific Advancement Grant Allocation(SAGA), RM 94,200, December 2004–December 2007.


12. Boundary Integral Method for External Potential Flows
UTM Short term Project, Vot 75118, 2003-2004.


13. The Development of Coursewares for Mathematics Education
Research and Consultancy Unit UTM Project, Vot 61864, 1994 –1995.


14. The Solution of Partial Differential Equations using Boundary Element
Research and Consultancy Unit UTM , Vot 61691, 1995-1996.

 

 

 




Publications

International Journals

(2009)

1. Unsteady boundary layer flow induced by accelerating motion near the rear stagnation point in a micropolar fluid, International Journal of Fluid Mechanics Research, Vol. 36, Issue 1, 30-42, (2009),
with Y.Y. Lok and I.Pop.

2. Mixed convection flow of a micropolar fluid near a non-orthogonal stagnation-point on a stretching vertical sheet, International Journal of Numerical Methods for Heat & Fluid Flow, Vol. 19 No.3/4, 459-483, (2009),
with Y.Y. Lok, I.Pop and D.B. Ingham.

3. Unsteady magnetohydrodynamic blood flow through irregular multi-srtenosed arteries, Computers in Biology and Medicine, (2009), Article in Press, with Mustapha N., Chakravarty, S.and Mandal, P.K.

4. Numerical simulation of generalized newtonian blood flow past a couple of irregular arterial stenoses, Numerical Methods for Partial Differential Equations, 2009, Accepted for Publ., with Norzieha Mustapha and Tasawar Hayat.


(2008)

1. A Power-Law model of blood flow through a tapered artery with an overlapping stenosed artery, Journal of Applied Mathematics and Computation 195, 669-680, (2008), with Zuhaila  Ismail, Ilyani Abdullah, Norzieha Mustapha

2. Mixed convection boundary layer flow of a viscoelastic fluid over a horizontal circular cylinder, International Journal of Non-Linear Mechanics, Vol 43, pp814-821, (2008) with Ilyana Anwar and Pop Ioan

3. Unsteady response of blood flow through a couple of irregular arterial constrictions to body acceleration, Journal of Mechanics in Medicine and Biology Vol 8, No. 3, pp395-420, 2008 with Mustapha N., Chakravarty, S. and , Mandal, P.K.


(2007)
1. The unsteady boundary layer flow past a circular cylinder in micropolar fluids, International Journal of Numerical Methods for heat & Fluid Flow, 17(7)( 2007), 692-714 with  Anati Ali

2. g-Jitter free convection flow in the stagnation-point region of a three-dimensional body, Mechanics Research Communication. 2007 Vol. 34, No. 2, pp 115-122 with  S.Sharidan and I.Pop

3. Effect of Body Acceleration on Unsteady Pulsatile Low of Non-Newtonian Fluid through a Stenosed Artery, Applied Mathematics and Computation 189, 766-779 (2007). with Mandal, P.K.Chakravarty S., Mandal, A.

4. Comments on the paper “Steady Two-dimensional Oblique Stagnation Point Flow Towards a Stretching Surface” by M. Reza and A.S. Gupta, published in Fluid Dynamic Research 37 (2005) 334-340”, Fluid Dynamics Research, vol.39, 00. 505-510, 2007.

5. Mixed Convection Flow near a Non-orthogonal Stagnation Point Towards a Stretching Vertical Plate, International Journal of Heat and Mass Transfer, vol. 50, pp 4855-4863, 2007


(2006)
1.A boundary integral equation for the 2D external potential flow, International Journal of Applied Mechanics and Engineering, Vol 11, No.1, (2006), 61-7
with M.M.S. Nasser and A.H.M. Murid

2.Unsteady boundary layer due to a stretching sheet in a porous medium using Brinkman equation model. International Journal of Heat and Technology 24(2)( 2006), 111-117 with S.Sharidan, and I.Pop 

3.Non Orthogonal Stagnation Point Flow Towards a Stretching Sheet, International Journal of Non-Linear Mechanics, 41(2006) 622-627. with Y.Y. Lok and I.Pop

4.The effect of g-jitter on heat transfer from a sphere with constant heat flux, Journal of Energy, Heat and Mass Transfer.28(2006), 1 – 18. with S.Sharidan,and I.Pop

5.g-Jitter free convection adjacent to a vertical stretching sheet, Microgravity sci. Techno.18, (2006), 5-14.with  S. Sharidan & I. Pop.

6.Unsteady Mixed Convection Flow of Micropolar Fluid Near the Stagnation Point on a Verticle Surface. International Journal of Thermal Sceinces, Vol.45, No.12, 1149-1157, 2006. With Lok Yian Yian and I.Pop

7.Mixed Convection near a Non-orthogonal Stagnation Point Flow on a Verticle Plate with Uniform Surface Heat Flux, Acta Mechanica, vol. 186, 99-112, 2006. With Lok Yian Yian and I.Pop


(2005)
1.Steady Mixed Convection Flow of a Micropolar Fluid Near The Stagnation Point on a Vertical surface, International Journal of Numerical    Methods for Heat & Fluid Flow 15(7)(2005), pp 654-670 with Y.Y. Lok, D.Compean and I.Pop

2.g-Jitter fully developed combined heat and mass transfer by mixed convection flow in a vertical channel International Communications in Heat    and Mass Transfer. 32 (2005) , 657-665 with S.Sharidan and I.Pop

3.g-Jitter induced free convection near a two-dimensional stagnation point  in  micropolar fluids. International Journal of Applied Mechanics and    Engineering 10(3) (2005), 311-328.with S.Sharidan and I.Pop

4.The effect of g-Jitter on double diffusion by natural convection from a sphere.  International Journal of Heat and Mass Transfer. 48,    (2005),4526-4540. with S.Sharidan and I.Pop

5.g-Jitter micropolar fluids near a three-dimensional stagnation point. International Journal Fluid Mechanics Research. 32(3)(2005). with    S.Sharidan and I.Pop


(2004)
1.Mixed convection boundary layer flow from a horizontal circular cylinder with a constant surface heat flux, Heat and Mass Transfer, 40,    219-227, 2004 with R. Nazar.and I. Pop

2.Unsteady boundary layer growth due to  a stretching surface in a rotating fluid, Mechanics Research Communications, Vol 31, pp 121-128,    2004 with R. Nazar.and I. Pop

3.Stagnation point flow of a micropolar fluid towards a stretching sheet, International Journal of Non-linear Mechanics , Vol 39, pp 1227-1235,    2004 with R. Nazar.and I. Pop

4.Unsteady mixed convection boundary layer flow near the stagnation point on a vertical surface in a porous medium, International Journal of    Heat and Mass Transfer, Vol 47, Issues 12-13, pp 2681-2688, 2004 with R. Nazar.and I. Pop

5.Mixed convection boundary layer flow from a horizontal circular cylinder with a constant surface heat flux in micropolar fluid, Int. Journal of    Fluid Mechanics Research, vol.31(2), pp144-160, 2004 with R. Nazar.and I. Pop

6.Unsteady boundary layer flow in the region of the stagnation point flow on a stretching sheet,International Journal of  Engineering Sciences,    42, pp1241-1253, 2004 with R. Nazar.and I. Pop


(2003)
1.Mixed convection boundary-layer flow from a horizontal circular cylinder in micropolar fluids: case of constant wall temperature, International    Journal of Numerical Methods for Heat and Fluid Flow,Vol 13, No.1, pp 86-109, 2003 with R. Nazar.and I. Pop

2.Mixed convection boundary layer flow about an isothermal sphere in a micropolar fluid, International Journal of Thermal Sciences, Vol 42,    No.3,pp 283-293, 2003 with R. Nazar.and I. Pop

3.Unsteady boundary layer flow of a micropolar fluid near the forward stagnation point of a plane surface, International Journal of Engineering    Science, pp173-186, Vol 41, Issue 2, 2003 with Lok Y.Y., P. Phang, and I. Pop

4.Unsteady mixed convection near the forward stagnation point of a two-dimensional symmetric body, International Communications in Heat    and Mass Transfer,Vol 30, No.5,pp 673-682, 2003 with R. Nazar.and I. Pop

5.Steady two-dimensional asymmetric stagnation point flow of a micropolar fluid, Z.Angew.Math.Mech. (ZAMM). 83,  No.9, 594-602, 2003 with    Y.Y. Lok and I. Pop

6.The Brinkman model for the boundary layer mixed convection flow past a horizontal circular cylinder in a porous medium, International    Journal of Heat and Mass Transfer 46,pp3167-3178, 2003 with R. Nazar.and I. Pop

7.Unsteady boundary layer flow of a micropolar fluid near the rear stagnation point of a plane surface, Int. J. of Thermal Sci., Vol 42, Issue 11,     pp 995-1001, 2003 with Y.Y. Lok. and I. Pop.


(2002)
1.Free convection boundary layer flow on a horizontal circular cylinder with constant heat flux in a micropolar fluid, International Journal Applied    Mechanics and Engineering, Vol. 7, No2 pp 409-431, 2002 with R. Nazar and I. Pop

2.Free convection boundary layer on an isothermal sphere in a micropolar fluid, International Communication in Heat and Mass Transfer, Vol.    29, No.3, pp 377-386, 2002 with R. Nazar, T. Grosan and  I. Pop

3.Free convection boundary layer on a sphere with constant surface heat flux in a micropolar fluid, International Communications in Heat and    Mass Transfer, Vol 29, No.8, pp1129- 1138, 2002 with R. Nazar, T. Grosan and  I. Pop

4.On the mixed convection boundary layer flow about a solid sphere with constant surface temperature, The Arabian Journal for Science and    Engineering, Vol 27, No.2c, pp 117-135, 2002 with R. Nazar and I. Pop

5.Mixed Convection Boundary Layer Flow About a Sphere in a Micropolar Fluid with Constant Heat Flux, Journal of Energy, Heat and Mass    Transfer ,vol. 24, pp. 195 – 211, 2002 with R. Nazar.and I. Pop


(1988 – 1998)
1.The effect of g-jitter on heat transfer, Proceedings of the Royal Society, London,pp 151-172, Vol. A 419, 1988

2.Low-frequency oscillations of a cylinder in a viscous fluid, Quarterly Journal of Mechanics and Applied Mathematics, pp 195-201, Vol.41, Pt    2, 1988

3.The effect of bottom topography on channel flow induced by a travelling thermal wave, Mathematika, University College, London, pp 21-42 Jld    37 1990

4.Horizontal free convections, Proceedings of the Royal Society, London, pp 371-384 A 427, 1990 with N. Riley

5.Streaming from a sphere due to a pulsating source, Journal Fluid Mechanics, V210, pp 459-473, 1990  with N. Riley

6.Mixed convection at a stagnation point, Q.JI Mech.appl.Math.,Vol.48, Pt.1, pp 111-121,1995 with N. Riley

7.Free convection at an axisymmetric stagnation point,  J. Fluid Mech.V314-pp 105-112, 1996 with N. Riley

8.High Reynolds number flow about a submerged circular cylinder induced by free surface travelling waves on finite depth, Journal of    Engineering Mathematics, 33: 61-76, 1998 with B. Yan. and N. Riley


National Journals
1.
Pembinaan perisian kursus untuk pengajaran dan pembelajaran matematik, Jurnal Menemui Matematik, Vol. 19, No.1, 13-22, 1997.

2. Local non-similarity solution for vertical free convection boundary layers, Jurnal Matematika, Jilid 18, No.1, 21-31, 2002.


3. Free convection boundary layer over a non-isothermal vertical flat plate, Jurnal Teknologi, No.39(C), 61-74, 2003, with Roslindar Nazar.

4. Boundary layer flow due to a moving flat plate in micropolar fluid, Jurnal Teknologi, Vol 43(C)  Dis 67 - 83, (2003), with Mohd Zuki Saleh, Azizah Mohd Rohni.

5. A Boundary Integral Method for the Planar External Potential Flow  Around  Airfoil,  Jurnal Teknologi C, 42 (2005). pp. 29-42. with A.H.M Murid and M.S.Nasser

6. g-Jitter Induced Free Convection Boundary Layer on heat transfer from a sphere with constant heat flux, Journal of Fundamental Science, Vol 1, No. 1, 44-50, (2005) with S.Sharidan.

7. The unstedy power law blood flow through a multiirregular stenosed artery, Jurnal Matematika, Vol.24 No. 2 Dis 2008, 187–198, with Norzieha Mustapha.

8. Effect of body acceleration on a micropolar blood flow through a mild stenosed artery, Jurnal Matematika Special Edition, Part 1, 135-143, (2008), with Ilyani Abdullah.

9. Mixed convection boundary layer of a viscoelastic fluid near a stagnation point,
Jurnal Matematika Special Edition, Part 1, 199-205, (2008), with Nur Ilyana Anwar and Sharidan Shafie.

10. Unsteady boundary layer flow of a micropolar fluid near the stagnation points a plane semi-infinite wall, Jurnal Matematika Special Edition, Part 1, 199-205, (2008), with Anati Ali and I. Pop.

11. Maximum density effects on g-jitter induced free convection between vertical plates heated asymmetrically, Jurnal Matematika Special Edition, Part 1, 199-205, (2008), with S.Sharidan, N.Amin and I.Pop.


Book Chapters
1. A Micropolar Fluid Model of Blood Flow through a Tapered Artery, Research in Applied Mathematics ed. Zainal Abdul Aziz, 2008

2. Numerical Solution for g-jitter Induced Free Convection Boundary Layer From a Sphere Using Keller-bow Method, Recent Advances in Theoretical and numerical Methods, ed.Yusof Yaacob, 2009


Awards

1. Anugerah Utama Karya Terjemahan, 2001

2. Anugerah Saguhati Karya Terjemahan, 2002

3. Anugerah Perkhidmatan Cemerlang, 2003

4. Anugerah Jasa Bakti, 2004

5. Anugerah Perkhidmatan Cemerlang, 2004

6. Hadiah Penghargaan Pertama Anugerah Kertas Kerja Antarabangsa. 2004

7. Anugerah Highly Commended Award, 2006

8. Hadiah Utama Anugerah Penerbitan bagi kategori Anugerah Kertas Kerja dalam Jurnal   Antarabangsa, 2006

9. Hadiah Utama Kategori Makalah Ilmiah, 2007

10. Anugerah Perkhidmatan CemerlangAnugerah Perkhidmatan Cemerlang, 2008






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Mathematical Modelling of non-Newtonian Fluids : Modelling of Non-Newtonian Blood Flow in a Stenosed Artery, non-Newtonian Convcetive Boundary Layer Flows, Modelling of Fluid Flow and Heat Transfer under Low-Gravity Conditions