Part-I: Odd Semester (Exam 2011)

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Part-I: Odd Semester (Exam 2011)

ENG1111 Technical English

50 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]

0.5 Unit, 2 credits, 3 periods/ week, Lectures: 33, Exam. Time: 3 hours

Section-A

1. Grammar: Grammatical principles, modals, phrases & idioms, prefixes & suffixes, sentence structures, wh & yes/ no questions, conditional sentences.

2. Vocabulary: Technical & scientific vocabulary, defining terms.

3. Spoken English: Introduction to phonetic symbols, dialogue, responding to particular situations, extempore speech.

Section-B

1. Reading: Comprehension of technical & non-technical materials-skimming, scanning, inferring & responding to context.

2. Technical Writing: Paragraph & composition writing on scientific & other themes, report writing, research paper writing, library references.

3. Professional communication: Business letter, job application, memos, quotations, tender notice.

Books Recommended:

1. John M. Lennon : Technical Writing

2.A.J. Thomson and A.V. Martinet : A Practical English Grammar

3. A. Ashley : Oxford Handbook of Commercial Correspondence 4. J. Swales : Writing Scientific English

5. Robert J. Dixson : Complete Course in English

6. Rajendra Pal & J. S. Korlahalli : Essentials of Business Communications.

MATH1111 Algebra, Trigonometry and Vector Analysis

75 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]

0.75Unit, 3 credits, 5periods/week, Lectures: 55, Exam. Time: 4 hours

Section-A

1. Algebra of sets, De Morgan's rule, Relation & Function. Determinants: Properties and Cramer's rule.

2. Theory of Equations: Theorem, and relation between roots and coefficients. Solution of cubic equations.

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3. De Moivre's theorem. Deduction from De Moivre's theorem.

Section-B

4. Functions of complex arguments. Gregory's series. Summation of series. Hyperbolic functions.

5. Vector Addition, Multiplication & Differentiation.

6. a. Definitions of line, Surface and Volume Integral, Gradient of Scalar Function, Divergence and Curl of Vector function.

b. Physical Significance of Gradient, Divergence and Curl. Integral forms of Gradient, Divergence and Curl, Divergence theorem, Stoke’s theorem, Green’s theorem and Gauss’s theorem. .

Books Recommended:

Text Books:

1. H. S. Hall and S.R. Knight : Higher Algebra 2. B. C. Das and B.N.Mukherjee : Higher Trigonometry 3. M. R. Spiezel : Vector Analysis Reference Books:

1. Barnside and Panton :Theory of Equations 2. Barnside and Child : Higher Algebra 3. M. A. Sattar : Higher Trigonometry 4. M. A. Sattar : Vector Analysis

CHEM1111 Physical and Inorganic Chemistry

0.75Unit, 3 credits, 5 periods/week, Lectures: 55, Exam.Time: 4 hours

Section-A

1 Electrochemistry (10 Lectures): Conductors, Electrolytes and Electrolysis; Faradays Laws of Electrolysis and their significance. Ohm’s law and electrolytic conductances; Theories for electrolytic conductance ( Arrhenius & Debye-Hükel). Ionic mobility, Kohlrausch’s law, Tranference Number and its determination; Activities, activity coefficient and Debye-Hükel limiting law.Electrochemical cells(Electrolytic and Galvanic/Voltaic):Electrode reaction and potentials. Reference electrodes;

Reversible and concentration cells,Storage Batteries(or accumulators).

2 Chemical Equilibrium and Kinetics (10 lectures): Equilibrium and Equilibrium constants, Kc, Kp, Kx. Rate of reaction and rate constants; Le Chatelier principle and its application. Order and molecularity of a reaction; integrated rate expressions & half- lives of zeroeth, first and second order reactions. Determination of order & temperature dependence of a reaction; energy of activation and Arrhenius equation. Transition-state theory of reaction rates. Characteristics of catalysis, promoters and inhibitors.

3 Surface Chemistry and Colloids (10 lectures): Adsorption and sorption; Characteristics of physical and chemical adsorptions. Fruendlich, Langmuir and Gibb’s Adsorption isotherms; The BET equation.

Crystalloids, Colloids and their classification, preparation, properties (kinetic, colligative, optical &

electrical) and importance,=. Original pf charge and stability of colloids (sols), Gold number; colloidal electrolytes. Elementary idea about emulsions and gels.

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Section-B

1. Atomic structure and Periodic Table (10 lectures): Modern concept of atomic structure and Periodic Table; related principles and Laws. Constitution and Periodic properties of elements (ionization potential, electronigativety, electron affinity, atomic and ionic radii). Grouping of elements, their properties and uses.

Isotopes and radioactivity.

2. Electronic Theory of Valency and Chemical Bonding ( 8 lectures): Different types of bonds (ionic, covalent, co-ordinate, hydrogen and metallic) Classification of solids on the basis of bonding and their properties. Atomic orbitals and their hybridization; valency bond and Molecular orbital theories.

3. Chemistry of Transition Elements, Lanthanides and Actinides (7 lectures): Definitions, electronic configurations, preparations (nuclear transformations), general properties and uses.

Recommended Books:

Text Books:

1. R. D. Madan : Modern Inorganic Chemistry 2. M.M. Haque and M.A. Nawab : Principles of Physical Chemistry

3. E.S Gilreath : Fundamental Concepts in Inorganic Chemistry.

Reference Books:

1. G.M. Barrow : Physical Chemistry

2. W.J.Moore : Physical Chemistry

3. K.J. Laidler and J.H. Meiser : Physical Chemistry

4. S.R. Palit : Elementary Physical Chemistry

5. S. Z. Haider : Modern Inorganic Chemistry

6. Companion : Chemical Bonding

7. Cotton, Wilkinson & Jones : Basic Inorganic Chemistry

8. D. K. Sebera : Electronic Structure and Chemical Bonding

APEE1111 Applied Electricity, Magnetism & Networks

1Unit, 4 credits, 6 periods/week, Lectures: 66, Exam.Time: 4 hours Section-A

1. Electrostatic and Steady Electric Current: Gauss's Law and its application, Electric field in dielectric media, Energy in an electrostatic field, Concept of electric current; Current density;

Resistivity and Conductivity; Electrostatic force, Electromotive force.

2. Networks Analysis: Kirchhoff's laws; Wheatstone bridge, Superposition theorem; Millman’s theorem; Reciprocity theorem, Thevenin's theorem, Norton's theorem, Maximum power transfer theorem, Mesh and Node circuit analysis, Reduction of complicated networks, T and -section network.

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3. Varying Current: Circuit elements, Transients in RC, RL and RLC circuits, Steady state sinusoidal analysis, Phasor diagrams, and polyphase circuit.

4. Chemical Effects of Current: Faraday's law's of electrolysis, Applications: Storage cells, Charging system, Electroplating.

Section-B

5. Magnetic Field and Its Interaction: Magnetic induction, Magnetic force on a charge, Lorentz force, and its application in CRT, Magnetic field of a current, Torque on a current Loop, Moving coil galvanometer, Biot-Savart law and its applications, Ampere's law, Measurement of electrical quantities; Ammeter, Voltmeter, Wattmeter & other meters.

6. Electromagnetic Induction: Faraday's law of electromagnetic induction, Lenz's law, Induced current and voltage, Self inductance and mutual inductance, Inductor, Ideal transformer, Energy stored in a magnetic field. Solving electromagnetic circuit.

7. Alternating Current: General AC theory; AC power, Average and RMS value of AC voltage and current, Use of complex quantities in AC circuits, Resonant circuits, Q-value and bandwidth.

8. Thermoelectricity: Thermal electromotive forces, Seebeck effect and Peltier effect, Laws of addition of thermal electromotive forces, Thermoelectric equations and power, Practical thermocouple, Illumination laws, Various kinds of lamp.

Books Recommended.

Text Books:

1. D.R. Resnick and D. Halliday : Physics, Part-II

2. B. L. Theraza : Electrical Technology

1. D. Elwell & A.J. Pointon : Classical Thermodynamics

2. A.R. Rafiqullah , A. K Roy & M.S Huq : Concepts of Electricity and Magnetism.

3. B. Grobe : Basic Electronics.

4. Arthur kip : Fundamentals of Electricity and Magnetism.

6. J. D. Ryder : Networks, Lines and Fields 7. J. A. Edminister : Electric Circuits.

8. P. A. Tipler : Physics for Scientists & Engineers.

APEE1121 Thermodynamics, Refrigeration and Air-conditioning 100 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]

1Unit, 4 credits, 6 periods/week, Lectures: 66, Exam.Time: 4 hours

Section-A

1. First law of thermodynamics: Thermodynamic systems; The first law of thermodynamics, Heat capacity, Specific heat capacity, Consequences of first Law, Energy equation, Internal energy of gases.

2. Second law of thermodynamics: The second law of thermodynamics & its consequences, Entropy, Combined first law and second law.

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3. Kinetic Theory of gas: Introduction, Basic assumption, Collisions with the walls, Equation of state of an ideal gas, Collisions with a moving wall, The Clausius equation of state, The van der Waals equation of state

4. Statistical Mechanics: Statistical distributions, Quantum statistics, Maxwell-Boltzmann statistics, Fermi-Dirac statistics, Bose-Eienstein statistics.

Section-B

5. Thermal Radiation: Kirchoff's law, Black body radiation, Stefan's law, Wien's displacement law, Rayleigh-Jean’s law, Plank's radiation law, Experimental verification and its comparison with others.

6. Refrigeration: Principles of refrigeration, Types of refrigeration system, Load calculation, Uses and application in industry.

7. Air-conditioning: Principles of air-conditioning, Types of air-conditioning system, Load calculation, Applications.

8. Vacuum Technique: Production of vacuum, Exhaust pump, Rotary pump, Vapour pump, Ion pump, Measurement of vacuum and Vacuum gauges, Vacuum leaks and their detection.

Books Recommended.

Text Books:

1. F. W. Sears : Thermodynamics

2 N.C. Harris & E.M.Hemmerling : Introductory Applied Physics 3. J. Yarwood : Introduction to High Vacuum.

4. A. Beiser : Modern Physics

1. D. Elwell & A.J. Pointon : Classical Thermodynamics 2. R. J. Dossat : Principle of Refrigeration.

3. W.E.Severn and J.R. Fellow : Air-conditioning and Refrigeration.

APEE1172 Engineering graphics

25 Marks [60% Practical & Report, 30% Viva Voce, 10% Class Attendance]

0.25 Unit, 1 credit, 3 periods/week

Introduction Orthographic projections: Scale drawing, Sectional view, Isometric views.

Missing line, Auxiliary view, Pictorial views.

Drawing standards and practices: Interpenetrating of surfaces, Development of surfaces, Machine drawings, Technical sketching.

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Introduction to computer aided design (CAD):.Project on Engineering Drawing and CAD using Contemporary packages.

Books Recommended:

1.Frede Rick E Giesecke, Alva Mitchell, Henry C. Spencer, Ivan L. Hill, Robert O.

Loving and John Thomas Dygdon

: Engineering Graphics 3^rd Edition

2. Frank Zozzora : Engineering Drawing 2^nd Edition

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Part-I: Even Semester ( Exam 2011)

ECON1211 Economics

0.5 Unit, 2 credits, 3 periods/week, Lectures: 33, Exam. Time: 3 hours

Section-A

1. Basic Concepts of Economics: Definition and subject matter of Economics;

Microeconomics vs macroeconomics; Law of Economics; Central economic problems of every society; Different economic systems; Economics and Engineering.

2. Theory of Demand, Supply and Consumer Behavior: Law of Demand; Demand schedule and demand curve; Supply law, supply schedule and supply curve; Shift in demand and supply; Equilibrium in the market; Elasticity of demand and supply; Marshallian utility analysis; Total and marginal utility; Law of diminishing marginal utility; Law of equi- marginal utility.

3. Theory of Production and Costs: Meaning of production; factors of production; Production possibility frontier; Law of variable proportion; Returns to scale; isoquants; Concepts of total, average and marginal costs, fixed and variable costs; Isocost curve; Least cost combinations of factors.

4. Theory of the Firm: Perfect competition and monopoly; Total, average and marginal revenue of a firm; Average and marginal revenue under perfect competition and monopoly;

Firm’s Equilibrium; Equilibrium of firm under perfect competition and monopoly.

Section-B

5. Linear Programming and Input-Output Analysis: Meaning of linear programming; Its components; duality of a problem in linear programming; graphical, feasible and optimal solutions; The simplex method; Meaning of input-output analysis; Input-output analysis model; balance equation; coefficient matrix; Determination of final demand vector.

6. Basic Concepts of Macroeconomics: Growth; Unemployment; Inflation; Philips Curve, Business cycle; Circular flow of economics; Two, three and four sector economics.

7. National Income accounting and determination: Concepts of GNP, GDP and national income; Methods of national income accounting; problems of national income accounting;

Keynesian model of national income determination; The multiplier; Effect of fiscal policy in the Keynesian model.

8. Development Planning in Bangladesh: Need for planning in Bangladesh; Various five year plans in Bangladesh; Development strategies in the five year plans of Bangladesh.

1. Semuelson and Nordhous : Economics

2. Byrons and Stone : Economics

3. Dewett, K. K. : Modern Economic Theory

4. Ahuja, H. L : Advanced Economic Theory

5. Government of Bangladesh : Various Five Year Plans

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MATH1211 Differential and Integral Calculus

0.75Unit, 3 credits, 5 periods/week, Lectures: 55, Exam.Time: 4 hours

Section-A

1. Functions: Domain, Range, Inverse function and graphs of functions, Limits, Continuity, Indeterminate form.

2. Ordinary Differentiation: Differentiability, Differentiation, Successive differentiation and Leibnitz theorem.

3. a. Expansions of functions: Rolle's theorem, Mean value theorem, Taylor's and Maclaurin's formulae.

b. Maximum and minimum of functions of one variable.

4. a. Partial Differentiation: Euler's theorem, Tangents and normal.

b. Asymptotes.

Section-B

5. Indefinite Integrals: Method of substitution, Integration by parts, Special trigonometric functions and rational fractions.

6. Definite Integrals: Fundamental theorem, General properties, Evaluations of definite integrals and reduction formulas.

7. Multiple Integrals: Determination of lengths, Areas and Volumes.

Books Recommended Text Books:

1. B.C. Das and B.N.Mukherjee : Differential Calculus 2. B.C.Das and B.N. Mukherjee : Integral Calculus

1. F. Ayres : Calculus

2.

Joseph Edwards

: Differential Calculus 3.

Benjamin Williamson

: Integral Calculus 4. Muhammad and Bhattacherjee : Differential Calculus 5. Muhammad and Bhattacherjee : Integral Calculus

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STAT 1211

Statistics for Engineers

0.5 Unit, 2 credits, 3 periods/week, Lectures: 33, Exam. Time: 3 hours

Section-A

1. Analysis of statistical data: Location, Dispersion and their measures, Skewness, Kurtosis and their measures, Moment and Cumulants and Practical examples.

2. Probability: Concept of probability, Sample Space, Events union and Intersection of Events.

Probability of events, Loss of probability, Conditional probabilities. Bay’s Theorem, Chebysec’s Inequality and Practical examples.

3. Random variables and probability Distribution: Basic concepts, Discrete and continuous random variables, Density and distributional functions, Mathematical expectation and variance, Joint marginal and conditional density functions. Conditional Expectation and conditional variance. Moments and Cumulant generating functions. Characteristic function.

Study of Binomial Poisson, Normal and Bivariate Normal distribution and Practical examples.

Section-B

4. Linear Regression: Correlation, Rank correlation. Partial and Multiple correlations Linear Regression for two Variables, Principle of Least Squares Method, Lines of best fit, Residual Analysis and examples.

5. Test of Significance: Basic ideas of Null hypothesis, Alternative hypothesis, Type-I error Type- II error level of significance Degree of freedom, Rejection region and Acceptance region. Test of Single mean, Single variance, Two sample means and Variances. Test for 2×2 contingency tables, Independence test and practical examples.

Text Books:

1. P.G.Hoel. : Introductory Statistics

2. S.G. Gupta : Fundamentals of Statistics

1. A. J. B. Anderson. : Interpreting Data.

2. H. Cramer : The Elements of Probability Theory.

3. D. V. Lindley : Introduction to Probability and Statistics 4. S. Lipschutz. : Probability

5. Mosteller, Rourke & Thomas : Probability with Statistical Applications 6. F. L.Wolf. : Elements of Probability and Statistics 7. T. H. Wonnacot & R.J.Wonnacot : Introductory Statistics

8. Yule & M. G. Kendall. : An Introduction to the Theory of Statistics

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PHY1211 Applied Mechanics and Optics

1.0 Unit, 4 credits, 6 periods/week, Lectures: 66, Exam.Time: 4 hours

Section-A

1. Motion of Particles: Linear motion of a body as function of time, Position and velocity, Rotational motion, Relation between linear and angular kinematics, Fly wheel; Collision problem; Simple harmonic motion and its application, Compound pendulum, Damped harmonic motion, Forced oscillation and Resonance. Conservation laws in general, Conservative forces, Non conservative force, Laws of conservation of momentum, Motion of the center of mass, Collision, System of variable mass.

2. Waves: Types of waves, Equation of Waves, Velocity and Energy, Complex waves, Standing waves and resonance, Beats, Sound waves, the Doppler effect.

3. Gravitation: Newton's laws of gravitation, Gravitational fields and potentials, Relation between them, Special cases of attraction and potential, Escape velocity, Kepllar's Law.

4. Elasticity & Fluid Mechanics: Hooke's Law, Different types of elastic constants and their relations, Cantilever. Surface tension and its measurements, Equation of continuity, Bernoulli's theorem, Viscosity, Effects of temperature & pressure on viscous fluid.

Section-B

5. Interference: Huygens’s principle, Interference phenomena, Young's experiment, Michaelson interferometer, Interference involving multiple reflections, Newton's ring, Holography

6. Diffraction : Fraunhoffer and Fresnel diffraction, Diffraction by single slit; Diffraction gratings and its resolving power.

7. Polarization: Polarization of light; Different types of polarized light, Production of plane polarized light, Brewster's Law, Nicol prism, Optical activity; Specific and molecular rotation;

Different types of optical instruments, Polarimeter.

8. Electro-magneto Optics: Zeeman Effect, Faraday effect, Cotton-Mouton effect, Kerr Magneto- optic effect, Kerr electro-optic effect.

Books Recommended.

Text Books:

1. F.W. Constant : Theoretical Physics

2. S. D. Mathur : Mechanics

3. R.A. Jenkins and H.E. White : Fundamental of optics

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1. F.A. Newman and V.H.L. Searle : The General properties of Matter.

2. D.R. Resnik and D. Halliday : Physics Part-I and II 3. Champion and Davy : Properties of matter.

4. Morgan : Introduction to Geometrical & Physical Optics.

5. B.Rossi : Optics.

6. R. N. Ghose : Physical Optics

7. Johnson : Optics and Optical Instruments.

8. Jacobs : Fundamentals of Optical Engineers 9. B. K. Mathur : Principle of Optics.

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APEE1211 Basic Electronics

100 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]

1Unit, 4 credits, 6 periods/week, Lectures: 66, Exam.Time: 4 hours

Section-A

1.

Introduction to Semiconductor: Energy bands in solids, Valence and Conduction band, Classification of solids in terms of energy bands, Work function, Electron emission. Intrinsic and Extrinsic semiconductors, N and P- type semiconductors, PN junction, Variation of Potential barrier under forward and reverse biasing.

2.

Semiconductor Diodes: PN junction diodes and their V-I characteristics; Zener diode; Tunnel diode, Varactor diode; Thermistor, Photodiode and LDR; Transition & Diffusion capacity.

3.

Diode Circuits: Ideal rectifier concept; Half wave and Full wave rectifiers; Filters; Voltage regulators; Voltage doubler, Clippers, Clampers.

4.

Bipolar Junction Transistors: Working principle of PNP and NPN transistor, Transistor as an amplifier, Common-base, Common-emitter and Common Collector Configurations, Input and output characteristics of CB, CE, and CC transistor connections, Load line analysis, Operating point. Performance of transistor operation, Cutoff and Saturation points.

Section-B

5.

Transistor Biasing & Stability: Faithful amplification, Biasing, Stabilization, Stability factor;

Methods of transistor biasing, Design of transistor biasing circuits, Bias compensation.

6.

Single Stage Transistor Amplifiers: Graphical demonstration of a Transistor, amplifier Practical circuit of a transistor amplifier, Phase reversal, D.C and A.C equivalent circuits, Load line analysis (D.C and A.C), Voltage gain, Current gain, Power gain, Classification of amplifiers.

7.

Multistage Transistor Amplifiers: Cascading CE stage, Frequency response, Bandwidth, R-C coupled transistor amplifier, Transformer coupled amplifier, Direct-coupled amplifier.

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8.

Small Signal Analysis: Low Frequency Amplifiers: Transistor equivalent circuits; Hybrid parameters; Analysis of Common emitter, Common base and Common collector amplifiers using h-Parameters, Common emitter amplifier with emitter resistor.

Text Books:

1. V. K. Mehta : Principles of Electronics.

2. Robert Boylsted & Louis Noshelsky : Electronics Device and Circuits Theory

1. S. L. Gupta & V. Kumar : Handbook of Electronics

2. J. J. Brophy : Basic Electronics for Scientists.

3. J. J. Millman & C. C Halkias : Electronics Devices and Circuits 4. েমা: েমাজাফফর েহােসন

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