Mechatronic Engineering

Culture & Science City
Higher Institute of Engineering, 6 October City
Egypt.


Mechatronics Engineering

First Level (General for all Departments)

المادة	HOURS		Cr. Ho	Prerequisite	Subject		Code	No
	Tut/ Lab	Lect
لغة انجليزية(1)	-	4	2		English I	IR	BAS101	1
تفاضل و تكامل(1)	2	4	3		Calculus I	IR	BAS111	2
فيزياء(1)	2	4	3		Physics I	IR	BAS112	3
برمجة الحاسب(1)	2	4	3		Computer Programming I	IR	ICE101	4
هندسة التصنيع	2	4	3		Manufacturing Engineering I	IR	IME101	5
هندسة و صفية ورسم هندسي(1)	4	2	3		Descriptive Geometry & Engineering Drawing  I	IR	CBE111	6
	12	22	17	Total 1st Semesters

المادة	HOURS		Cr. Ho	Prerequisite	Subject		Code	No
	Tut/ Lab	Lect
لغة أنجليزية (2)	-	2	1		English II	IR	BAS102	7
تفاضل و تكامل (2)	2	4	3		Calculus II	IR	BAS115	8
فيزياء (2)	2	4	3	BAS112*	Physics II	IR	BAS116	9
معمل فيزياء	3	-	1	BAS116*	Physics Laboratory	IR	BAS117	10
كيمـيـاء	2	4	3		Chemistry	IR	BAS113	11
معمل كـيـميـاء	3	-	1		Chemistry Laboratory	IR	BAS114	12
تكنولوجيـا و ثقـافة	2	4	3		Technology & Culture	E	BAS202	13
هندسة و صفية ورسم هندسي(2)	3	-	1	CBE111	Descriptive Geometry &Engineering Drawing2	IR	CBE112	14
	17	18	16	Total 2nd  Semesters
	29	40	33	Total First level

MECHATRONIC ENGINEERING (MTE)

First Year (3rd & 4th  Semesters)

المادة	HOURS		Cr. Ho	Prerequisite	Subject		Code	No
	Tut/ Lab	Lect
ميكانيكا هندسية ( إستاتيكا )	4	2	3	BAS112, BAS 11	Engineering Mechanics(Statics)	D	CBE200	1
معادلات تفاضلية	2	4	3	BAS115	Differential Equations	IR	BAS211	2
ديناميكا حرارية	2	4	3	BAS112	Thermodynamics	D	MTE221	3
علم المواد	2	4	3	BAS112, BAS113	Material Science	IR	BAS214	4
أدوات ودوائر الكترونية	2	4	3	ICE116	Electronic Circuits	D	ICE212	5
معمل إلكترونيات أساسية	3	0	1	ICE116	Basic Electronics Laboratory	IR	ICE213	6
	15	18	16	Total 1st Semesters

المادة	HOURS		Cr. Ho	Prerequisite	Subject		Code	No
	Tut/ Lab	Lect
اختياري (تفكير علمي)	2	4	3	BAS202	Electivex=1,2,3,4,6,7,8“301”	E	BAS30x	7
جبر خطي	2	4	3	BAS115	Linear Algebra	IR	BAS212	8
ميكانيكا الموائع	2	4	3	BAS211, BAS112	Fluid Mechanics	IR	BAS215	9
مقدمة في النظم الديناميكية	2	4	3	BAS211, BAS116	Introduction to System Dynamics	IR	MTE231	10
قياسات و أجهزة	2	4	3	BAS116	Measurement&Instrumentation	IR	MTE211	11
معمل موائع حرارية	3	0	1	BAS213,BAS215*	Thermo fluid Laboratory	IR	BAS216	12
	13	20	16	Total 2nd  Semesters
	28	38	32	Total second level

MECHATRONIC ENGINEERING (MTE)

Second Year (5th   & 6th  Semesters)

المادة	HOURS		Cr. Ho	Prerequisite	Subject		Code	No
	Tut/ Lab	Lect
إختياري (إقتصاد)	2	4	3	---	Electivex=2,3,4,5,6,7,8“305”	E	BAS30x	1
مجالات كهرومغناطيسية وطاقة	2	4	3	BAS115, BAS 11	Electromagnetic Fields	D	BAS316	2
ديناميكا أجسام جاسئة	2	4	3	BAS112	Dynamics of Rigid Bodies	D	MTE342	3
ميكانيكا المواد	2	4	3	BAS214	Mechanics of Materials	D	MTE341	4
دوائر الكترونية متقدمة	2	4	3	ICE212	Advanced Electronic Circuits	D	ICE310	5
معمل تواجهات الحاسب	3	0	1	ICE314, ICE316	Computer Interfacing Lab.	D	ICE317	6
	13	20	16	Total 1st Semesters

المادة	HOURS		Cr. Ho	Prerequisite	Subject		Code	No
	Tut/ Lab	Lect
إختياري (تكنولوجيا المواد)	2	4	3	BAS214	Elective(E)x=1,2,3,4,6,“305”	D	IME30x	7
إختياري (تكاليف و تمويل)	2	4	3	---	Elective x=2,3,4,6,7,8“306”	E	BAS30x	8
تصميم ميكانيكي	4	2	3	CBE112, MTE341	Mechanical Design	D	MTE201	9
نظم تشغيل	2	4	3	ICE344	Operating Systems	D	ICE345	10
الآلات الكهربائية	2	4	3	BAS316	Electrical Machines	D	MTE311	11
معمل النظم الكهروميكانيكية والطاقة	3	0	1	BAS316,MTE311*	Energy and Electromechanical Systems Lab.	D	MTE312	12
	15	18	16	Total 2nd  Semesters
	28	38	32	Total Third level

MECHATRONIC ENGINEERING (MTE)

Third Year ( 7th   & 8th  Semesters)

المادة	HOURS		Cr. Ho	Prerequisite	Subject		Code	No
	Tut/ Lab	Lect
إختياري (3)	2	4	3	---	Elective(E)x=1,2,3 .“403”	E	BAS40x	1
التصميم بمعاونة الحاسب	2	4	3	MTE201, ICE101	Computer Aided Design	D	MTE301	2
ديناميكا وكينما يتكا الآلات	2	4	3	MTE341,MTE342	Kinematics and Dynamics of Machines	D	MTE441	3
إختياري (1)	2	4	3	MTE441	Elective(E)x=1,2,3,4.“444”	E	MTE44x	4
النظم الرقمية	2	4	3	ICE312*	Digital Systems	D	MTE415	5
معمل نظم رقمية	3	0	1	ICE311	Digital Systems Laboratory	E	ICE312	6
	13	20	16	Total 1st Semesters

المادة	HOURS		Cr. Ho	Prerequisite	Subject		Code	No
	Tut/ Lab	Lect
إختياري	2	4	3	---	Elective(E)x = 1,2,3.“421”	E	IME42x	7
تصميم ميكانيكي (2)	4	2	3	MTE301	Mechanical Design II	D	MTE401	8
مبادىء نظم التحكم	2	4	3	MTE231	Control System Principles	D	MTE431	9
إختياري (4)	2	4	3	IME101	Elective(E) x =1,3,5,6“306”	E	IME30x	10
إختياري (2)	2	4	3	BAS316	Electrodynamics	E	MTE411	11
معمل نظم التحكم	3	0	1	MTE431*	Control Systems Laboratory	D	MTE432	12
	15	18	16	Total 2nd  Semesters
	28	38	32	Total Fourth level

MECHATRONIC ENGINEERING (MTE)

Fourth Year ( 9th   & 10th  Semesters)

المادة	HOURS		Cr. Ho	Prerequisite	Subject		Code	No
	Tut/ Lab	Lect
إختياري (5) ( غير موجود)	2	4	3	---	Elective(E)x=0,1,3,4,5,6,7,8,9	E	MTE53x	1
إختياري (7) ( غير موجود)	2	4	3	---	Elective x=1,2,3,4,5,6“2or3”	E	MTE52x	2
إختياري (8) (نظم الوقت الحقيقي)	2	4	3	ICE316,317	Real Time Systems	D	ICE512	3
التحكم في التجارب باستخدام الحاسب	2	4	3	MTE431,MTE415	Computer Controlled Experimentation	D	MTE532	4
مشروع (1)	8	0	4	Senior Standing	Senior Thesis 1	IR	MTE598	5
	16	16	16	Total 1st Semesters

المادة	HOURS		Cr. Ho	Prerequisite	Subject		Code	No
	Tut/ Lab	Lect
إختياري  (6)   (×)	2	4	3	---	Elective(E) x=0,1,3,4,5,6,7,8,9	E	MTE53x	6
إختياري  (9)   (×)	2	4	3	---	Elective(E) x=0,1,3,4,5,6,7,8,9	E	MTE53x	7
إختياري (10)  (×)	2	4	3	---	Elective(E) x=0,1,3,4,5,6,7,8,9	E	MTE53x	8
إختياري (11)  (×)	2	4	3	---	Elective(E)x=0,1,3,4,5,6,7,8,9	E	MTE53x	9
مشروع  (2)   (×)	8	0	4	MTE598	Senior Thesis II	IR	MTE599	10
	16	16	16	Total 2nd  Semesters
	32	32	32	Total Fifth level

Mechanical Engineering Text

07-Mec-A1 Applied Thermodynamics and Heat Transfer

Moran, M.J., H.N. Shapiro, B.R. Munson and D.P. DeWitt, Introduction to Thermal Systems

Engineering: Thermodynamics, Fluid Mechanics, and Heat Transfer. John Wiley and Sons, 2002.

07-Mec-A2 Kinematics and Dynamics of Machines

Inman, D.J., Engineering Vibrations, 2nd Edition. Prentice-Hall, 2000, ISBN 978-0137261420.

Waldron, K.J., and Kinzel, G.L., Kinematics, Dynamics and Design of Machinery. John Wiley &

Sons, 2004, ISBN 0471244171

07-Mec-A3 System Analysis and Control

Bissell, C.C., Control Engineering, 2nd Edition. Taylor & Francis, 1996, ISBN 978-

0412577109.

Franklin, Feedback Control of Dynamic Systems, 2006. ISBN 978-0131499324.

07-Mec-A4 Design and Manufacture of Machine Elements

Juvinall, Robert C., and Kurt M. Mershek, Fundamentals of Machine Component Design, 4th

Edition. Wiley, 2005. ISBN: 0-471-66177-5.

Groover, Mikell P., Fundamentals of Modern Manufacturing: Materials, Processes, and Systems,

3rd Edition. Wiley, 2006. ISBN: 0-471-74485-9.

07-Mec-A5 Electrical and Electronics Engineering

Edminister, J. A., and M. Nahvi, Electric Circuits, 4th Edition. Schaum's Outlines, 2003.

Nasar, S., Electric Machines and Electromechanics, 2nd Edition. Schaum's Outlines, 1998

Rizzoni, G., Principles and Applications of Electrical Engineering, 5th edition. McGraw Hill,

2007.

07-Mec-A6-1 Fluid Machinery

Dixon, S.L., Fluid Mechanics and Thermodynamics of Turbomachinery, 5th Edition. Butterworth-

Heinemann, 2005.

Finnemore, E.J. & J.B. Franzini, Fluid Mechanics with Engineering Applications, 10th Edition.

McGraw-Hill, 2002.

07-Mec-A6-2 Advanced Strength of Materials

Ugural, Ansel, & Saul Fenster, Advanced Strength & Applied Elasticity, 4th Edition. Prentice Hall

Englewood Cliffs New Jersey 07632 2003.

Budynas, R.G., Advanced Strength & Applied Stress Analysis, 2nd Edition. McGraw-Hill, 1998.

Boresi, A.P., and R.J. Schmidt, Advanced Mechanics of Materials, 6th Edition. John Wiley & Sons,

2003.

07-Mec-B1 Advanced Machine Design

Shigley and Mischke, Mechanical Engineering Design, 5th edition (metric/english edition) McGraw

Hill. ISBN 0-07-056899-5.

07-Mec-B2 Environmental Control in Buildings

F.C. McQuinston & G.D. Parker, Heating, Ventilating, & Air Conditioning – Analysis & Design, 5th

edition. John Wiley & Sons, 1994. ISBN # 0471-581070.

Jennings, Environmental Engineering, International Test Book Co.; Carrier & Trane System

Manuals; ASHRAE Handbooks; ASHRAE Environmental Control Principles & Education

Supplement to ASHRAE Handbook Fundamentals Volume.

07-Mec-B3 Energy Conversion and Power Generation

Weston, K.C., Energy Conversion. West Publishing Co., 1992. (available as an online ebook at

http://onlinebooks.library.upenn.edu/webbin/book/lookupid?key=olbp33597)

Khartchenko, Nikolai, Advanced Energy Systems. Crc Press Llc, 1998. ISBN #1560326115.

07-Mec-B4 Integrated Manufacturing Systems

Groover, Mikell P., Automation, Production Systems, and Computer-integrated Manufacturing, 2nd

Edition. Prentice Hall, 2001. ISBN-10: 0130889784.

07-Mec-B5 Product Design and Development

Prime Texts:

Ulrich, Karl T. & Steven D. Eppinger, Product Design and Development, 4th Edition. McGraw Hill,

2008. ISBN: 13 9780073101422.

Boothroyd, G., W.A. Knight & Peter Dewhurst, Product Design for Manufacture and Assembly, 2nd

Edition. Marcel Dekker Inc. 2002. ISBN-10: 082470584X.

Supplementary Texts:

Ullman, David G., The Mechanical Design Process, 3rd Edition. McGraw Hill, 2003. ISBN:

0072373385.

07-Mec-B6 Advanced Fluid Mechanics

White, F.M., Fluid Mechanics, 6th Edition. McGraw-Hill, 2006.

07-Mec-B7 Aero and Space Flight

Anderson, J.D., Introduction to Flight, 4th edition. McGraw Hill, 2000, ISBN 007109282X.

Barnes W. McCormick Aerodynamics, Aeronautics & Flight Mechanics 2nd Edition. Wiley, 1995.

07-Mec-B8 Engineering Materials

Prime Text:

Ashby, Michael and D.R.H. Jones, Engineering Materials 1: An Introduction to Properties,

Applications and Design, 3rd Edition. Butterworth-Heinemann, 2005. ISBN-10: 0750663804.

Ashby, Michael and D.R.H. Jones, Engineering Materials 2:An Introduction to

Microstructures, Processing and Design, 3rd Edition. Butterworth-Heinemann, 2005. ISBN-10:

0750663812.

Supplementary Texts:

Courtney, Thomas H., Mechanical Behavior of Materials, 2nd Edition. Waveland Pr. Inc., 2005. I S

B N-10: 1577664256.

Ashby, Michael, Materials Selection in Mechanical Design, 3rd Edition. Butterworth-

Heinemann, 2005. ISBN-10: 0750661682.

07-Mec-B9 Advanced Engineering Structures

Prime Text:

Dowling, Norman E., Mechanical Behavior of Materials, 3rd Edition. Prentice Hall, 2006. ISBN-10:

0131863125.

Megson, T.H.G., Aircraft Structures for Engineering Students, 3rd Edition. Butterworth-

Heinemann, 1999. ISBN-10: 0340705884.

Supplementary Texts:

LeMaitre, J., Handbook of Materials Behavior Models. 3 vol. Set. Elsevier, 2001. ISBN 0-12-

443341-3.

Bruhn, E.F., Analysis and Design of Flight Vehicle Structures. Jacobs Pub, 1973. ISBN-10:

0961523409.

Reddy, J.N., Mechanics of Laminated composite Plates and Shells: Theory and Analysis, 2nd

Edition. CRC Press, 2003. ISBN: 0849315921.

Dutton, Stuart, Donald Kelly, and Alan A. Baker (Editors), Composite Materials for Aircraft

Structures, 2nd Edition. American Institute of Aeronautics & Ast., 2004. ISBN-10: 1563475405.

07-Mec -B10 Finite Element Analysis

Cook, R.D., Finite Element Modeling for Stress Analysis. John Wiley & Sons, Toronto, 1995.

Frank L. Stasa, Applied Finite Elements for Engineers, Holt, Reinhart, 1985,

ISBN #0-03-062737-0.

Logan, A First Course in Finite Element Method, P.W.S. Engineering, 2nd edition, 1992. W.

Bickford, A First Course in Finite Element Method, Irwin, 1990.

07-Mec-B11 Acoustics and Noise Control

Prime Text:

Barron, Randall F., Industrial Noise Control and Acoustics. Marcel Dekker, 2002. ISBN 0-8247-

0701-X

Supplementary Texts:

Bell, Lewis H. and Douglas H. Bell, Industrial Noise Control: Fundamentals and Applications,

2nd Edition, Marcel Dekker, 1993. ISBN 0-8247-9028-6

Irwin, J.D., Industrial Noise and Vibration Control. Prentice-Hall, 1979. ISBN 0-13-461574-3

Wilson, Charles E., Noise Control: Measurement, Analysis, and Control of Sound and Vibration.

Krieger, 1994. ISBN 0-89464-879-9

07-Mec-B12 Robot Mechanics

Paul, R.P., Robot Manipulators - Mathematics, Programming and Control. MIT Press, 1981.

ISBN 026216082X (out of print, but could be borrowed from libraries)

Craig, J.J., Introduction to Robotics: Mechanism and Control. Addison-Wesley Publishing Co.,

2005. ISBN 0201543613

07-Mec-B13 Biomechanics (04-Bio -A4)

Berger, S.A., W. Goldsmith and E.R. Lewis, Introduction to Bioengineering. Oxford University

Press, 2000.

Nordin, Margareta and Victor H. Frankel, Basic Biomechanics of the Musculoskeletal System.

Lippincott Williams&Wilkins, 3rd edition, 2001.

============================

Fundamentals of Engineering (FE) MECHANICAL Engineering

I. Mathematics 15%

A. Analytic geometry

B. Integral calculus

C. Matrix operations

D. Roots of equations

E. Vector analysis

F. Differential equations

G. Differential calculus

II. Engineering Probability and Statistics 7%

A. Measures of central tendencies and dispersions (e.g., mean, mode, standard deviation)

B. Probability distributions (e.g., discrete, continuous, normal, binomial)

C. Conditional probabilities

D. Estimation (e.g., point, confidence intervals) for a single mean

E. Regression and curve fitting

F. Expected value (weighted average) in decision-making

G. Hypothesis testing

III. Chemistry 9%

A. Nomenclature

B. Oxidation and reduction

C. Periodic table

D. States of matter

E. Acids and bases

F. Equations (e.g., stoichiometry)

G. Equilibrium

H. Metals and nonmetals

IV. Computers 7%

A. Terminology (e.g., memory types, CPU, baud rates, Internet)

B. Spreadsheets (e.g., addresses, interpretation, “what if,” copying formulas)

C. Structured programming (e.g., assignment statements, loops and branches, function calls)

V. Ethics and Business Practices 7%

A. Code of ethics (professional and technical societies)

B. Agreements and contracts

C. Ethical versus legal

D. Professional liability

E. Public protection issues (e.g., licensing boards)

VI. Engineering Economics 8%

A. Discounted cash flow (e.g., equivalence, PW, equivalent annual FW, rate of return)

B. Cost (e.g., incremental, average, sunk, estimating)

C. Analyses (e.g., breakeven, benefit-cost)

D. Uncertainty (e.g., expected value and risk)

VII. Engineering Mechanics (Statics and Dynamics) 10%

A. Statics

1. Resultants of force systems

2. Concurrent force systems

3. Equilibrium of rigid bodies

4. Frames and trusses

5. Centroid of area

6. Area moments of inertia

7. Friction

B. Dynamics

1. Linear motion (e.g., force, mass, acceleration, momentum)

2. Angular motion (e.g., torque, inertia, acceleration, momentum)

3. Mass moments of inertia

4. Impulse and momentum applied to: a. particles

b. rigid bodies

5. Work, energy, and power as applied to:

a. particles

b. rigid bodies

6. Friction

VIII. Strength of Materials 7%

A. Shear and moment diagrams

B. Stress types (e.g., normal, shear, bending, torsion)

C. Stress strain caused by:

1. axial loads

2. bending loads

3. torsion

4. shear

D. Deformations (e.g., axial, bending, torsion)

E. Combined stresses

F. Columns

G. Indeterminant analysis

H. Plastic versus elastic deformation 3

IX. Material Properties 7%

A. Properties

1. chemical

2. electrical

3. mechanical

4. physical B. Corrosion mechanisms and control

C. Materials

1. engineered materials

2. ferrous metals

3. nonferrous metals

X. Fluid Mechanics 7%

A. Flow measurement

B. Fluid properties

C. Fluid statics

D. Energy, impulse, and momentum equations

E. Pipe and other internal flow

XI. Electricity and Magnetism 9%

A. Charge, energy, current, voltage, power

B. Work done in moving a charge in an electric field (relationship between voltage and work)

C. Force between charges

D. Current and voltage laws (Kirchhoff, Ohm)

E. Equivalent circuits (series, parallel)

F. Capacitance and inductance

G. Reactance and impedance, susceptance and admittance

H. AC circuits

I. Basic complex algebra

XII. Thermodynamics 7%

A. Thermodynamic laws (e.g., 1st Law, 2nd Law)

B. Energy, heat, and work

C. Availability and reversibility

D. Cycles

E. Ideal gases

F. Mixture of gases

G. Phase changes

H. Heat transfer

I. Properties of:

1. enthalpy

2. entropy

I. Mechanical Design and Analysis 15%

A. Stress analysis (e.g., combined stresses, torsion, normal, shear)

B. Failure theories (e.g., static, dynamic, buckling)

C. Failure analysis (e.g., creep, fatigue, fracture, buckling)

D. Deformation and stiffness

E. Components (e.g., springs, pressure vessels, beams, piping, bearings, columns, power screws)

F. Power transmission (e.g., belts, chains, clutches, gears, shafts, brakes, axles)

G. Joining (e.g., threaded fasteners, rivets, welds, adhesives)

H. Manufacturability (e.g., fits, tolerances, process capability)

I. Quality and reliability

J. Mechanical systems (e.g., hydraulic, pneumatic, electro-hybrid)

II. Kinematics, Dynamics, and Vibrations 15%

A. Kinematics of mechanisms

B. Dynamics of mechanisms

C. Rigid body dynamics

D. Natural frequency and resonance

E. Balancing of rotating and reciprocating equipment

F. Forced vibrations (e.g., isolation, force transmission, support motion)

III. Materials and Processing 10%

A. Mechanical and thermal properties (e.g., stress/strain relationships, ductility, endurance, conductivity, thermal expansion)

B. Manufacturing processes (e.g., forming, machining, bending, casting, joining, heat treating)

C. Thermal processing (e.g., phase transformations, equilibria)

D. Materials selection (e.g., metals, composites, ceramics, plastics, bio-materials)

E. Surface conditions (e.g., corrosion, degradation, coatings, finishes)

F. Testing (e.g., tensile, compression, hardness)

IV. Measurements, Instrumentation, and Controls 10%

A. Mathematical fundamentals (e.g., Laplace transforms, differential equations)

B. System descriptions (e.g., block diagrams, ladder logic, transfer functions)

C. Sensors and signal conditioning (e.g., strain, pressure, flow, force, velocity, displacement, temperature)

D. Data collection and processing (e.g., sampling theory, uncertainty, digital/analog, data transmission rates)

E. Dynamic responses (e.g., overshoot/time constant, poles and zeros, stability)

V. Thermodynamics and Energy Conversion Processes 15%

A. Ideal and real gases

B. Reversibility/irreversibility

C. Thermodynamic equilibrium

D. Psychrometrics

E. Performance of components

F. Cycles and processes (e.g., Otto, Diesel, Brayton, Rankine)

G. Combustion and combustion products

H. Energy storage

I. Cogeneration and regeneration/reheat

VI. Fluid Mechanics and Fluid Machinery 15%

A. Fluid statics

B. Incompressible flow

C. Fluid transport systems (e.g., pipes, ducts, series/parallel operations)

D. Fluid machines: incompressible (e.g., turbines, pumps, hydraulic motors)

E. Compressible flow

F. Fluid machines: compressible (e.g., turbines, compressors, fans)

G. Operating characteristics (e.g., fan laws, performance curves, efficiencies, work/power equations)

H. Lift/drag

I. Impulse/momentum

VII. Heat Transfer 10%

A. Conduction

B. Convection

C. Radiation

D. Composite walls and insulation

E. Transient and periodic processes

F. Heat exchangers

G. Boiling and condensation heat transfer

VIII. Refrigeration and HVAC 10%

A. Cycles

B. Heating and cooling loads (e.g., degree day data, sensible heat, latent heat)

C. Psychrometric charts

D. Coefficient of performance

E. Components (e.g., compressors, condensers, evaporators, expansion valve)

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