27/05/2019 YamEen Uncategorized

ENG – 212 BUSINESS COMMUNICATION

ENG – 212 BUSINESS COMMUNICATION

COURSE CONTENTS:

1. COMMUNICATION PROCESS.

1.1. PURPOSES OF COMMUNICATION.

1.2. COMMUNICATION PROCESS.

1.3. DISTORTIONS IN COMMUNICATION.

1.4. COMMUNICATION FLOW.

1.5. CONSOLIDATION OF COMMUNICATION.

1.6. COMMUNICATION FOR SELF DEVELOPMENT.

2. COMMUNICATION SKILLS

2.1. SIGNIFICANCE OF SPEAKING.

2.2. VERBAL AND NON-VERBAL MESSAGES.

2.3. STRATEGIC STEPS OF SPEAKING.

2.4. CHARACTERISTICS OF EFFECTIVE ORAL MESSAGES.

2.5. COMMUNICATION TRAFFICKING.

2.6. ORAL PRESENTATION.

3. QUESTIONING SKILLS

3.1. NATURE AND TYPES OF QUESTIONS.

3.2. CHARACTERISTICS OF A GOOD QUESTIONS.

3.3. QUESTIONING STRATEGY.

4. LISTENING SKILLS

4.1. PRINCIPLES OF ACTIVE LISTENING.

4.2. SKILLS OF ACTIVE LISTENING.

4.3. BARRIERS TO LISTENING.

4.4. REASONS OF POOR LISTENING.

4.5. GIVING FEEDBACK.

5. INTERVIEWING SKILLS

5.1. SIGNIFICANCE OF INTERVIEWS.

5.2. CHARACTERISTICS OF INTERVIEWS.

5.3. ACTIVITIES OF AN INTERVIEWING SITUATION.

5.4. TYPES OF INTERVIEWING STRATEGY.

6. REPORT WRITING

6.1. GOALS OF REPORT WRITING.

6.2. REPORT FORMAT.

6.3. TYPES OF REPORTS.

6.4. REPORT WRITING STRATEGY.

7. READING COMPREHENSION

7.1. READING PROBLEMS.

7.2. FOUR READING SKILLS.

8. GROUP COMMUNICATION

8.1. PURPOSES OF CONDUCTING MEETINGS.

8.2. PLANNING A MEETING.

8.3. TYPES OF MEETINGS.

8.4. SELECTION OF A GROUP FOR MEETING.

8.5. GROUP LEADERSHIP SKILLS.

8.6. RUNNING A SUCCESSFUL MEETING.

8.7. ACTIVE PARTICIPATION.

BOOKS

1. EFFECTIVE BUSINESS COMMUNICATION AND REPORT WRITING, SH. ATA-UR-REHMAN.

2. TECHNICAL REPORTING, ULMAN J.N. COULD JR.

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27/05/2019 YamEen Uncategorized

COMP – 224 ANALOGUE ELECTRONICS

COMP – 224 ANALOGUE ELECTRONICS

COURSE CONTENTS:

1. RECTIFICATION

1.1. HALF WAVE.

1.2. FULL WAVE.

1.3. BRIDGE RECTIFICATION.

1.4. THE TRANSFORMER ACTION.

2. SPECIAL DIODES

2.1. THE ZENER DIODE.

2.2. ZENER DIODE AS A RECTIFIER.

2.3. LIGHT EMITTING DIODE(LED).

2.4. PHOTO DIODE.

2.5. SCHOTTKY DIODE.

3. TRANSISTOR

3.1. THEORY OF BJT OPERATION.

3.2. WHAT ARE THE CHARACTERISTICS OF A DEVICES.

3.3. COMMON BASE CHARACTERISTICS.

3.4. COMMON EMITTER CHARACTERISTICS.

3.5. COMMON COLLECTOR CHARACTERISTICS.

3.6. COMMON BASE BIAS CIRCUITS.

3.7. CE BIAS CIRCUIT.

3.8. CC BIAS CIRCUIT.

3.9. THE TRANSISTOR AS A SWITCH.

4. OSCILLOSCOPE

4.1. OSCILLOSCOPE BASICS.

4.2. THE CRT.

4.3. THE BLOCK DIAGRAM OF THE OSCILLOSCOPE.

4.4. MEASUREMENT WITH OSCILLOSCOPE.

4.5. VOLTAGE MEASUREMENT.

4.6. CURRENT MEASUREMENT.

4.7. TIME AND FREQUENCY MEASUREMENT.

4.8. RISE AND FALL TIME MEASUREMENT.

5. AMPLIFIERS

5.1. SMALL SIGNAL BJT AMPLIFIER.

5.2. AC AMPLIFIER FUNDAMENTALS.

5.3. GAIN.

5.4. COUPLING CAPACITORS.

5.5. LINEARITY AND DISTORTION.

5.6. FREQUENCY RESPONSE.

5.7. DIFFERENTIAL AMPLIFIERS.

5.8. INTRODUCTION TO OPERATIONAL AMPLIFIERS.

5.9. THE IDEAL OP-AMP.

5.10. THE INVERTING AMPLIFIER.

5.11. THE NON-INVERTING AMPLIFIER.

5.12. REEDBACK THEORY.

5.13. FEEDBACK IN INVERTING AND NON-INVERTING AMPLIFIERS.

5.14. FREQUENCY RESPONSE.

5.15. STABILITY.

6. CONVERSION

6.1. WHAT IS DIGITAL?

6.2. RAMP GENERATOR.

6.3. VOLTAGE COMPARATOR.

6.4. A/D CONVERTER.

6.5. D/A CONVERTER.

6.6. THE RAMP ADC.

6.7. DUAL SLOPE ADC.

6.8. FLASH CONVERTER.

7. POWER ELECTRONICS

7.1. SCR’s.

7.2. POWER CONTROL BY SCR’s.

7.3. DIAC AND TRIAC.

7.4. OPTO ELECTRONIC DEVICES.

7.5. PHOTO CONDUCTIVE CELLS.

7.6. PHOTO TRANSISTOR.

7.7. SOLAR CELLs.

7.8. OPTO COUPLERS.

7.9. LCD.

7.10. UJT.

8. TROUBLE SHOOTING

8.1. TROUBLE SHOOTING CONCEPTS.

8.2. AN OPEN DEVICE.

8.3. A SHORTED DEVICE.

8.4. POWER SUPPLY TROUBLE SHOOTING.

8.5. ZENER TROUBLE SHOOTING.

8.6. AMPLIFIER TROUBLE SHOOTING.

BOOKS

1. ELECTRONIC DEVICES AND CIRCUITS, R. BOGART.

2. ELECTRICAL INSTRUMENTATION AND MEASUREMENT,

R. ASTON.

3. ELECTRONIC PRINCIPLES, 3Ed. MALVINO.

3. POWER ELECTRONICS, P.C.SEN.

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27/05/2019 YamEen Uncategorized

COMP – 123 GENERAL ENGINEERING WORKSHOP

COMP – 123 GENERAL ENGINEERING WORKSHOP

COURSE CONTENTS:

1. SOLDERING

1.1. USE OF BASIC TOOLS.

1.2. USE OF SOLDERING AND DESOLDERING TOOLS.

1.3. SOLDERING TECHNIQUES.

2. PCB DESIGN

2.1. PCB DESIGNING.

2.2. SELECTION OF PCB.

2.3. CUTTING SHEETS.

2.4. TRANSFER OF CIRCUIT.

2.5. CHEMICAL ETCHING PROCESS.

2.6. IDENTIFICATION AND CODES.

2.7. MOUNTING AND SOLDERING COMPUNENTS.

2.8. PCB TESTS.

3. BASIC WIRING

3.1. INTRODUCTION TO ELECTRICAL WIRING.

3.2. WIRING STANDARD AND SYMBOLS.

3.3. TYPES AND SIZES OF WIRING CABLES.

3.4. WIRING SYSTEM.

3.5. WIRING.

3.6. WIRING ACCESSORIES.

3.7. EARTHING.

4. SIMPLE WIRING CIRCUITS

4.1. SIMPLE LAMP CIRCUIT.

4.2. STAIR CASE WIRING CIRCUIT.

4.3. TWO LAMP IN PARALLEL.

4.4. TELEPHONE WIRING.

4.5. COLOUR CODE.

5. JOINTS

5.1. TEE JOINT.

5.2. SIMPLE JOINT.

5.3. DUPLEX JOINT.

5.4. MULTI JOINT.

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27/05/2019 YamEen Uncategorized

OCCUPATIONAL HEALTH, SAFETY AND ENVIRONMENT

OCCUPATIONAL HEALTH, SAFETY AND ENVIRONMENT

COURSE CONTENTS:

1. PROMOTING HEALTH AND SAFETY

1.1- THE OCCUPATIONAL HEALTH AND SAFETY PROGRAM.

1.2- THE COSTS OF OCCUPATIONAL INJURIES.

1.3- THE ESSENTIAL COMPONENTS OF A HEALTH AND SAFETY POLICY.

1.4- THE IMPORTANCE OF HEALTH AND SAFETY TRAINING.

2. SAFETY HAZARDS

2.1- MECHANIAL HAZARDS AND SAFEGUARDING.

2.2- FALLINFG, IMPACT ACCELERATION, AND LIFTING HAZARDS.

2.3- ELECTRICAL HAZARDS.

2.4- CONFINED SPACES.

3. FIRE HAZARDS

3.1- SOURCES OF FIRE HAZARDS.

3.2- THE THREE ELEMENTS TO START AND SUSTAIN FIRE.

3.3- THE FIRE FRIANGLE.

3.4- DIFFERENT CLASSES OF FIRE.

3.5- COMMON HAZARDS PRODUCTS OF COMBUSTION.

3.6- METHODS OF REDUCING FIRE HAZARDS.

3.7- USE OF FIRE EXTINGUISHER.

4. CHEMICAL HAZARDS

4.1- OCCUPATIONAL DISEASES AND ILLNESS.

4.2- AGENTS WHICH CAN CAUSE DISEASE AND ILLNESS.

4.3- CHEMICAL, PHYSICAL, BIOLOGIVCAL AND ERGONOMIC STRESSORS.

4.4- THREE ROUTES OF ENTRY OF CHEMICALS INTO THE BODY.

4.5- MEDICAL MONITORING OF EXPOSURE TO CHEMICAL HAZARD.

5. PHYSICAL HAZARDS

5.1- NOISE.

5.2- VIBRATION.

5.3- HEAT STRESS.

5.4- RADITION.

5.5- LASERS.

5.6- LIGHTING.

6. BIOLOGICAL HAZARDS

6.1- NATURE OF A BIOLOGICAL AGENT.

6.2- TRANSMISSION OF INFECTION AGENTS.

6.3- DISEASES CAUSED BY BACTERIA, VIRUSES, FUNGL, PARASITES.

6.4- RISK FROM EXPLOSURE TO EACH TYPE OF BIOLOGICAL AGENT.

7. ERGONOMICS

7.1- DEFINE THE TERM ERGONOMICS.

7.2- MUSCULOSKELETAL INJURIES.

7.3- ALTERNATIVE NAMES FOR MUSCULOSKELETAL INJUIER.

7.4- SIGNIFICANCE OF BODY POSTURE WHILE DOING THE JOB.

7.5- FORCE REQUIRED TO DO THE JOB.

8. EXPOSURE CONTROLS

8.1- STRATEGIES TO CONTROL EXPOSURE AT THE SOURCE OF THE HAZARD.

8.2- THE MEANING OF “ENGINEERING” CONTROLS.

8.3- CONTROLS “ST THE WORKER”.

8.4- EXAMPLES OF ENGINEERING CONTROLS.

8.5- CONTROL PROCEDURES AT THE WORKER HIMSELF.

9. PERSONAL PROTECTIVE EQUIPMENT

9.1- HEAD PROTECTOR.

9.2- TYPES OF PROTECTION FOR THE FEET.

9.3- PROTECTION FOR HANDS AND ARMS.

9.4- PROTECTION OF THE EYES AND FACE IN VARIOUS APPLICATIONS.

9.5- TYPES OF HEARING PROTECTION.

9.6- AIR PURIFING AND AIR SUPPLYING RESPIRATORS.

10. VENTILATION BASICS

10.1- TECHNIQUE OF DILUTION VENTILATION.

10.2- THE LIMITATIONS OF DILUTION VENTILATION OF CHEMICAL

CONTAMINANTS.

10.3- LIMITED APPLICATIONS OF DILUTION VENTILATION.

10.4- THE MEANING OF “AIR CHANGES PER HOUR”.

10.5- GOOD AND BAD FAN LOCATIONS.

10.6- THE TECHNIQUE OF LOCAL EXHAUST VENTILATION.

11. ACCIDENT PREVENTION

11.1- THE ESSENTIAL FEATURES OF A SITE SURVEY FOR OH&S.

11.2- BASIC FLOOR PLAN OF A WORK AREA.

11.3- SURVEY TABLE IDENTIFYING HAZARDS IN A WORK AREA.

11.4- SHOW ACTIVITIES WITH POTENTIAL HAZARDS ON THE FLOOR PLAN.

11.5- COMPLETE PART OF A SURVEY TABLE EVALUATING THE HAZARDS.

12. FIRST AID

12.1- ABCs OF FIRST AID.

12.2- FIRST AID TRAINING PROGRAM.

12.3- CONTENTS OF A TYPICAL FIRST AID KIT.

12.4- MSDS.

BOOKS

1- CHEMICAL HAZARDS OF THE WORKPLACE, 4Ed. PROCTOR AND HUGES.

2- BASIC INDUSTRIAL HYGIENE-A TRAINING MANUAL, BRIEF ( AIHA ).

3- FUNDAMENTALS OF OCCUPATIONAL OF SAFETY AND HEALTH,

KOHN, FRIEND, WINTERBERGER.

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21/05/2019 YamEen Uncategorized

COMP – 111 COMPUTER APPLICATION SOFTWARE

COMP – 111 COMPUTER APPLICATION SOFTWARE

TOTAL HOURS T – P – C

THEORY : 32 1 – 6 – 3

PRACTICAL : 182

COURSE CONTENTS:

1. INTRODUCTION TO COMPUTER

1.1. BASIC DESIGN OF COMPUTER.

1.2. HIERARCHY OF MEMORY.

1.3. EXTERNAL VIEW OF COMPUTER.

1.4. INPUT AND OUTPUT DEVICES.

2. WINDOWS OPERATING SYSTEM

2.1. COMPUTER BOOTSTRAP.

2.2. WINDOW OBJECTS AND APPLICATION PROGRAMS.

2.3. FILE SYSTEM.

2.4. WINDOWS EXPLORER AND WINDOWS HELP.

3. WORD PROCESSING

3.1. OPENING AND CLOSING WORD PROCESSOR APPLICATION PROGRAM.

3.2. OPENING, SAVING AND CLOSING DOCUMENT.

3.3. EDITING AND NAVIGATING DOCUMENTS.

3.4. DOCUMENT VIEWS AND PRINTING DOCUMENTS.

3.5. FORMATTING DOCUMENT AND INSERTING OBJECTS.

3.6. ENHANCEMENT AND TOOLS AND TABLES.

4. SPREAD SHEET

4.1. OPENING AND CLOSING SPREAD SHEET APPLICATION PROGRAM.

4.2. DATA TYPES.

4.3. ENTERING AND EDITING DATA.

4.4. WORKSHEETS AND WORKBOOKS.

4.5. DATA MANIPULATION.

4.6. PRINTING WORKSHEET.

4.7. FORMATTING CELLS.

4.8. CALCULATION USING FORMULA,

4.9. FUNCTION AND FUNCTION WIZARD.

5. PRESENTATION

5.1. OPENING AND CLOSING PRESENTATION APPLICATION PROGRAM.

5.2. PRESENTATION VIEWS.

5.3. ENTERING AND EDITING PRESENTATION OBJECTS.

5.4. SLIDES AND TRANSITION.

5.5. ANIMATION.

6. NON-PROCEDURAL INTERACTIVE DATABASE

6.1. OPENING AND CLOSING INTERACTIVE GATABASE PROGRAM.

6.2. CREATING DATABASE TABLES.

6.3. SETTING UP DATABASE TABLES.

6.4. CREATING QUERIES FOR TABLES.

6.5. CREATING DATA ENTRY FORMS FOR TABLES.

6.6. GENERATING REPORTS FROM TABLES.

7. INTERNET

7.1. OPENING AND CLOSING INTERNET BROWSER.

7.2. E-MAIL.

7.3. SEARCH ENGINE.

7.4. SURFING THE WWW.

8. GRAPHICS AND IMAGE

8.1. OPENING AND CLOSING SCANNING SOFTWARE.

8.2. SCANNING PICTURES.

8.3. EDITING GRAPHICS.

8.4. SAVING GRAPHICS.

9. VIDEO

9.1. OPENING AND CLOSING VIDEO SOFTWARE.

9.2. PLAYING VIDEO.

BOOKS

1- MICROSOFT OFFICE 6 IN 1, PETER AIKEN.

2- TEACH YOUR SELF WINDOWS IN 24 HOURS, PERRY G.

3- MS OFFICE UNLEASHED, SAMS PUBLISHING.

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21/05/2019 YamEen Uncategorized

COMP – 112 INTRODUCTION TO COMPUTER PROGRAMMING

COMP – 112  INTRODUCTION TO COMPUTER PROGRAMMING

COURSE CONTENTS;

1.                INTRODUCTION TO COMPUTERS

1.1.              THE HISTORY OF COMPUTERS.

1.2.              COMPUTER GENERATIONS.

1.3.   HARDWARE, SOFTWARE AND PEOPLEWARE.

1.4.              PROGRAMMING LANGUAGES.

1.5.              CATAGORIES OF PROGRAMMING LANGUAGES.

1.6.              MACHINE LANGUAGES.

1.7.              SYMBOLIC OR ASSEMBLY LANGUAGE.

1.8.              HIGH-LEVEL LANGUAGES.

1.9.              FEATURES OF PROGRAMMING LANGUAGES.

2.                THE PROGRAMMING CYCLE

2.1.              DEFINING PROBLEM.

2.2.              PLANNING AND CODING SOLUTION.

2.3.              CHECKING AND DEBUGGING.

2.4.              IMPORTANCE OF READABILITY AND DOCUMENTATION.

2.5.              FLOWCHARTING.

2.6.              FLOWCHART SYMBOLS.

2.7.              ADVANTAGES AND DISADVANTAGES OF FLOW CHARTS.

3.                THE C  INTEGRATED DEVELOPMENT ENVIRONMENT ( IDE ).

3.1.              IDE SETUP AND USE OF IDE.

3.2.              FILES USED IN C  PROGRAM DEVELOPER.

3.3.              THE STRUCTURE OF C  PROGRAMS.

4.                C  BUILDING BLOCKS

4.1.              VARIABLE.

4.2.              INPUT / OUTPUT.

4.3.              OPERATORS.

5.                CONDITIONAL CONTROL CONSTRUCT:  DECISIONS.

5.1.              THE IF STATEMENT.

5.2.              THE IF-ELSE STATEMENT.

5.3.              THE ELSE-IF STATEMENT.

5.4.              THE SWITCH STATEMENT.

5.5.              THE CONDITIONAL OPERATOR.

6.                INTERACTIVE CONTROL CONSTRUCT: LOOPS.

6.1.              THE FOR LOOP.

6.2.              THE WHILE LOOP.

6.3.              THE DO WHILE LOOP.

7.                FUNCTIONS

7.1.              INTRODUCTION.

7.2.              SIMPLE FUCTIONS AND VALUE RETURNING FUNCTIONS.

7.3.              PARAMETER PASSING.

7.4.              USING MULTIPLE FUNCTIONS AND EXTERNAL VARIABLE.

7.5.              PREPROCESSOR DIRECTIVES.

7.6.              RECURSION.

8.                ARRAYS AND STRINGS

8.1.              INTRODUCTION.

8.2.              SINGLE AND TWO DIMENSIONAL ARRAYS.

8.3.              SETTING.

9.                POINTERS

9.1.              INTRODUCTION TO POINTER.

9.2.              RETURNING DATA FROM FUNCTIONS.

9.3.              POINTERS AND ARRAYS.

9.4.              POINTERS AND SETTING.

9.5.              DOUBLE INDIRECTION:  POINTERS TO POINTERS.

10.             STRUCTURES AND UNIONS

10.1           STRUCTURES.

10.2           UNIONS.

10.3           UNIONS OF STRUCTURES.

11.             COLOUR  GRAPHICS

11.1.           MODES.

11.2.           SETTING COLOUR PALETTE AND BACKGROUNDS.

11.3.           DMA AND GRAPHICS DISPLAY.

11.4.           VGA SPECIFIC MODES AND TEXT MODE FUNCTIONS.

11.5.           GRAPHICS MODE FUNCTIONS.

11.6.           TEXT WITH GRAPHICS.

12.             FILES

12.1.           TYPES OF DISK I/O AND STANDARD INPUT/OUTPUT.

12.2.           BINARY AND TEXT MODE.

12.3.           RECORD INPUT/OUTPUT AND RANDOM ACCESS.

12.4.           ERROR CONDITIONS AND REDIRECTION.

13.             LARGER PROGRAMS

13.1.           MAKING STAND-ALONE EXECUTABLES.

13.2.           SEPARATE COMPILATION AND CONDITIONAL COMPILATIONS.

13.3.           MEMORY MODES.

BOOKS

1-TURBO C PROGRAMMING FOR THE PC AND TURBO C++,  ROBER LAFORE.

2-C++ HOW TO PROGRAM, DEITEL AND DEITEL,  PRENTICE, HALL.

3-GUIDE TO C  PROGRAMMING,  JACK PURDUM,  ZIFF-DAVIS PRESS.

4-MASTERING TURBO C, STAN KELLY-BOOTLE, SYBEX COMPUTER BOOKS INC.

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21/05/2019 YamEen Uncategorized

PHY – 112 APPLIED PHYSICS

PHY – 112 APPLIED PHYSICS

COURSE CONTENTS:

1.             MEASUREMENTS

1.1-    FUNDAMENTAL UNITS AND DERIVED UNITS.

1.2-    SYSTEMS OF MEASUREMENT AND  S.I.  UNITS.

1.3-    CONCEPT OF DIMENSIONAL FORMULA.

1.4-    CONVERSION FROM ONE SYSTEM TO ANOTHER.

1.5-    SIGNIFICANT FIGURES.

2.         SCALARS AND VECTORS

2.1-    REVIEW OF HEAD TO TAIL RULE.

2.2-    LAWS OF PARALLELOGRAM, TRIANGLE AND POLYGON OF FORCES.

2.3-    RESOLUTION OF A VECTOR.

2.4-    ADDITION OF VECTORS BY RECTANGULAR COMPONENTS.

2.5-    MULTIPLICATION OT TWO VECTORS, DOT PRODUCT AND CROSS PRODUCT.

3.         MOTION

3.1-    REVIEW OF LAWS AND EQUATIONS OF MOTION.

3.2-    LAW OF CONSERVATION OF MOMENTUM.

3.3-    ANGULAR MOTION.

3.4-    RELATION BETWEEN LINEAR AND ANGULAR MOTION.

3.5-    CENTRIPETAL ACCELERATION AND FORCE.

3.6-    EQUATION OF ANGULAR MOTION.

4.         TORQUE. EQUILIBRIUM AND ROTATIONAL INERTIA

4.1-    TORQUE.

4.2-    CENTRE OF GRAVITY AND CENTRE OF MASS.

4.3-    EQUILIBRIUM AND ITS CONDITIONS.

4.4-    TORQUE AND ANGULAR ACCELERATION.

4.5-    ROTATIONAL INERTIA.

5.         WAVE MOTION

5.1-    REVIEW HOOKE’S LAW OF ELASTICITY.

5.2-    MOTION UNDER AN ELASTIC RESTORING FORCE.

5.3-    CHARACTERISTICS OF SIMPLE HARMONIC MOTION.

5.4-    S.H.M. AND CIRCULAR MOTION.

5.5-    SIMPLE PENDULUM.

5.6-    WAVE FORM OF S.H.M.

5.7-    RESONANCE.

5.8-    TRANSVERSE VIBRATION OF A STRETCHED STRING.

6.         SOUND

6.1-    LONGITUDINAL WAVES.

6.2-    INTENSITY, LOUDNESS, PITCH AND QUALITY OF SOUND.

6.3-    UNITS OF INTENSITY OF LEVEL AND FREQUENCY RESPONSE AF  EAR.

6.4-    INTERFERENCE OF SOUND WAVES SILENCE ZONES, BEATS.

6.5-    ACOUSTICS.

6.6-    DOPPLER EFFECT.

7.         LIGHT

7.1-    REVIEW LAWS OF REFLECTION AND REFRACTION.

7.2-    IMAGE FORMATION BY MIRRORS AND LENSES.

7.3-    OPTICAL INSTRUMENTS.

7.4-    WAVE THEORY OF LIGHT.

7.5-    INTERFERENCE, DIFFRACTION, POLARIZATION OF LIGHT WAVES.

7.6-    APPLICATIONS OF POLIRAZATION IN SUNGLASSES, OPTICAL ACTIVITY AND STRESS ANALYSIS.

8.         OPTICAL FIBER

8.1-    OPTICAL COMMUNICATION AND PROBLEMS.

8.2-    REVIEW TOTAL INTERNAL REFLECTION AND CRITICAL ANGLE.

8.3-    STRUCTURE OF OPTICAL FIBER.

8.4-    FIBER MATERIAL AND MANUFACTURE.

8.5-    OPTICAL FIBER – USES.

9.         LASERS

9.1-    CORPUSCULAR THEORY OF LIGHT.

9.2-    EMISSION AND ABSORPTION OF LIGHT.

9.3-    STIMULATED ABSORPTION AND EMISSION OF LIGHT.

9.4-    LASER PRINCIPLE.

9.5-    STRUCTURE AND WORKING OF LASERS.

9.6-    TYPES OF LASERS WITH BRIEF DESCRIPTION.

9.7-    APPLICATIONS.

9.8-    MATERIAL PROCESSING.

9.9-    LASER WELDING.

9.10- LASER ASSISTED MACHINING.

9.11- MICRO MACHINING.

9.12- DRILLING, SCRIBING AND MARKING.

9.13- PRINTING.

9.14- LASERS IN MEDICINE.

  BOOKS

  1-FUNDAMENTALS OF PHYSICS VOL.I AND II,   TAHIR HUSSAIN

  2-FUNDAMENTALS OF PHYSICS VOL.I AND II,   FARID KHAWAJA.

  3-LASERS – PRINCIPLES AND APPLICATIONS,    WILSON

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21/05/2019 YamEen Uncategorized

MATH – 113 APPLIED MATHEMATICS – I

MATH – 113 APPLIED MATHEMATICS – I

COURSE CONTENTS:

1. QUADRATIC EQUATIONS

1.1- STANDARD FORM.

1.2- SOLUTION.

1.3- NATURE OF ROOTS.

1.4- SUM AND PRODUCT OF ROOTS.

1.5- FORMATION.

2. ARTHMETIC PROGRESSION AND SERIES

2.1- SEQUENCE.

2.2- SERIES.

2.3- NTH TERM.

2.4- SUM OF THE FIRST N TERM.

2.5- MEANS.

3. GEOMETRIC PROGRESSION AND SERIES

3.1- NTH TERM.

3.2- SUM OF THE FIRST N TERM.

3.3- MEANS.

3.4- INFINITE GEOMETRIC PROGRESSION.

4. BINOMIAL THEOREM

4.1- FACTORIALS.

4.2- BINOMIAL EXPRESSION.

4.3- BINOMIAL CO-EFFICIENT.

4.4- THE GENERAL TERM.

4.5- THE BINOMIAL SERIES.

5. PARTIAL FRACTIONS

5.1- INTRODUCTION.

5.2- LINEAR DISTINCT FACTORS CASE I.

5.3- LINEAR REPEATED FACTORS CASE II.

5.4- QUADRATIC DISTINCT FACTORS CASE III.

5.5- QUADRATIC REPEATED FACTORS CASE IV.

6. FUNDAMENTALS OF TRIGONOMETRY

6.1- ANGLES AND QUADRANTS.

6.2- MEASUREMENTS OF ANGLES.

6.3- RELATION BETWEEN SEXAGESIMAL AND CIRCULAR SYSTEM.

6.4- RELATION BETWEEN LENGTH OF A CIRCULAR ARC AND THE RADIAN MEASURE OF ITS CENTRAL ANGLE.

7. TRIGONOMATRIC FUNCTIONS AND RATIOS

7.1- TRIGONOMATRIC FUNCTIONS OF ANY ANGLE.

7.2- SIGNS OF TRIGONOMATRIC FUNCTIONS.

7.3- TRIGONOMATRIC RATIOS OF PARTICULAR ANGLES.

7.4- FUNDAMENTAL IDENTITIES.

8. GENERAL IDENTITIES

8.1- THE FUNDAMENTAL LAW.

8.2- DEDUCTIONS.

8.3- SUM AND DIFFERENCE FORMULAE.

8.4- DOUBLE ANFLE IDENTITIES.

8.5- HALF ANGLE IDENTITIES.

8.6- CONVERSION OF SUM OR DIFFERENCE TO PRODUCTS.

9. SOLUTION OF TRIANGLES

9.1- THE LAW OF SINES.

9.2- THE LAW OF COSINES.

9.3- MEASUREMENT OF HIGHTS AND DISTANCES.

10. MENSURATION OF SOLDS

10.1- REVIEW OF REGULAR PLANE FIGURES AND SIMPSON’S RULE.

10.2- PRISMS.

10.3- CYLINDERS.

10.4- PYRAMIDS.

10.5- CONES.

10.6- FRUSTA.

10.7- SPHERES.

11. VECTORS

11.1- SCALARS AND VECTORS.

11.2- ADDITION AND SUBTRACTION.

11.3- THE UNIT VECTORS I, J, K.

11.4- DIRECTION COSINES.

11.5- SCALAR OR DOT PRODUCT.

11.6- DEDUCTIONS.

11.7- DOT PRODUCT IN TERMS OF ORTHOGONAL COMPONENTS.

11.8- VECTOR OR CROSS PRODUCT.

11.9- ANALYTIC EXPRESSION FOR Ax B.

12. MATRICES AND DETERMINANTS

12.1- DEFINITION OF MATRIX.

12.2- ROWS AND COLUMNS.

12.3- ORDER OF A MATRIX.

12.4- ALGEBRA OF MATRICES.

12.5- DETERMINANTS.

12.6- PROPERTIES OF DETERMINANTS.

12.7- SOLUTION OF LINEAR EQUATIONS.

BOOKS

1- TECHNICAL MATHEMATICS VOL. I, GHULAM YASIN MIHAS.

2- POLYTECHNIC MATHEMATICS SERIES VOL. I AND II. PROF. RIAZ ALI KHAN.

3- A TEXT BOOK OF ALGEBRA AND TRIGONOMATRY, PROF. SANA ULLAH BHATTI.

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21/05/2019 YamEen Uncategorized

COMP – 124 LINEAR CIRCUITS AND BASIC ELECTRONICS

COMP – 124 LINEAR CIRCUITS AND BASIC ELECTRONICS

COURSE CONTENTS:

1. BASIC PRICIPLE OF ELECTRICITY

1.1. ELECTRON THEORY.

1.2. STRUCTURE OF ATOM AND ENERGY BANDS.

1.3. ELECTRICAL QUANTITIES.

1.4. POTENTIAL, CURRENT AND RESISTANCE.

1.5. UNITS OF POTENTIAL, CURRENT AND RESISTANCE.

1.6. CONVECTIONAL AND ELECTRON CURRENT.

2. DC FUNDAMENTALS

2.1. OHM’S LAW.

2.2. PROBLEMS OF OHM’S LAW.

2.3. LAWS OF RESISTANCE.

2.4. SPECIFIC RESISTANCE, CONDUCTANCE AND CONDUCTIVITY.

2.5. CO-EFFICIENT OF RESISTANCE.

2.6. RESISTANCE IN SERIES, PARALLEL AND SERIES – PARALLEL.

2.7. COMBINATION OF RESISTANCE AND CELLS.

2.8. ELECTRICAL POWER AND ENERGY.

2.9. KIRCHHOFF’S LAWS.

2.10. CALCULATION USING KVL AND KCL.

2.11. RESISTORS: CONSTRUCTION AND TYPES.

2.12. APPLICATION OF RESISTORS.

2.13. RESISTORS, COLOUR CODING.

2.14. RESISTORS, POWER RATING AND TROUBLE SHOOTING.

2.15. BATTERIES.

2.16. TYPES OF DC SOURCES.

2.17. LEAD ACID BATTERIES.

2.18. SOLAR CELL.

2.19. INTERNAL RESISTANCE.

2.20. APPLICATION OF CELL.

3. ELECTROMAGNETISM

3.1. ELECTROMEGNETISM.

3.2. B-H CURVE AND MAGNETIC HYSTERESIS.

3.3. ELECTROMAGNETIC INDUCTION.

3.4. MAGNETIC FIELD.

3.5. FORCE BETWEEN TWO MAGNETIC FIELDS AND MOTOR ACTION.

3.6. FARADAY’S LAW OF ELECTROMAGNETIC INDUCTION.

3.7. LENZ’S LAW.

4. ELECTROSTATICS

4.1. LAWS OF ELECTROSTATICS.

4.2. ELECTROSTATIC FIELD.

4.3. PROPERTIES OF ELECTRIC FIELD.

4.4. DIELECTRIC, DIELECTRIC STRENGTH AND PERMITIVITY.

4.5. CAPACITANCE AND CAPACITORS.

4.6. TYPES AND USES OF CAPACITORS.

4.7. EQUIVALENT CAPACITANCE OF CAPACITOR COMPINATION.

4.8. ENERGY STORED IN CAPACITORS.

4.9. COLOUR CODE, TOLERANCE AND RATING OF CAPACITORS.

5. AC FUNDAMENTALS.

5.1. SINUSODAL WAVEFORM.

5.2. AC SINUSOIDAL WAVEFORM CHARACTERISTICS.

5.3. FUNDAMENTAL FREQUENCY AND HARMONICS.

5.4. PHASOR QUANTITIES.

5.5. PHASE DIFFERENCE AND POWER FACTOR.

5.6. SELF INDUCTANCE AND BACK EMF.

5.7. INDUCTIVE REACTANCE.

5.8. PHASOR DIAGRAM FOR PURE INDUCTOR.

5.9. R-L SERIES CIRCUIT.

5.10. PHASOR DIAGRAM AND POWER DIAGRAM FOR AN R-L SERIES CIRCUIT.

5.11. TIME CONSTANT.

5.12. IMPEDANCE.

5.13. R-L PARALLEL CIRCUIT.

5.14. QUALITY FACTORS OF INDUCTORS.

5.15. SKIN EFFECT, AF AND RF CHOKES.

5.16. PHASOR DIAGRAM FOR PURE CAPACITOR.

5.17. CAPACITIVE REACTANCE.

5.18. R-C SERIES CIRCUIT.

5.19. TIME CONSTANT OF R-C CIRCUITS.

5.20. IMEDANCE.

5.21. R-C PARALLEL CIRCUIT.

5.22. RLC SERIES CIRCUIT.

6. TRANSFORMER

6.1. PRINCIPLE OF TRANSFORMER.

6.2. CONSTRUCTION, TYPES AND CORE MATERIALS OF TRANSFORMER.

6.3. APPLICATION OF TRANSFORMERS IN ELECTRONICS.

6.4. AUTO-TRANSFORMERS.

6.5. POLY-PHASE TRANSFORMERS.

6.6. PHASE AND LINE VOLTAGE.

6.7. TRANSFORMER LOSSES.

6.8. CORE LOSSES AND HYSTERESIS LOSSES.

7. NETWORK THEOREMS

7.1. SUPERPOSITION THEOREM.

7.2. THEVENIN’S THEOREM.

7.3. NORTON’S THEOREM.

7.4. STAR DELTA TRANSFORMATION.

8. RESONANCE

8.1. RESONANCE AND RESONANT CIRCUIT.

8.2. RELATION BETWEEN F, L AND C AT RESONANCE.

8.3. SERIES RESONANT CIRCUIT AND ITS IMPEDANCE.

8.4. CURRENT, VOLTAGE AND IMPEDANCE CHARACTERISTIC OF SERIES RESONANT CIRCUIT.

8.5. PARALLEL RESONANT CIRCUIT AND ITS IMPEDANCE.

8.6. IMPEDANCE, CURRENT AND VOLTAGE CHARACTERISTICS OF PARALLEL RESONANT CIRCUIT.

8.7. SERIES AND PARALLEL RESONANCE CURVE COMPARISM AND BANDWIDTH.

8.8. Q OF CIRCUIT AND EFFECT OF Q.

8.9. SLOPE OF RESONANCE CURVE AND SELECTIVITY RELATION.

8.10. EFFECT OF THE LC. RATIO OF SELECTIVITY.

8.11. USE OF RESONANCE.

9. SEMICONDUCTORS

9.1. SEMICONDUCTOR THEORY.

9.2. DOPING, DOPING LEVEL AND METHODS.

9.3. PN JUNCTION DIODE, DEPLETION REGION AND JUNCTION POTENTIAL.

9.4. DIODE AS RECTIFIER.

9.5. TRANSISTOR PNP AND NPN.

9.6. TRANSISTOR AS AMPLIFIER.

9.7. TRANSISTOR AS SWITCH.

9.8. INTEGRATED CIRCUITS TYPES: ANALOG AND DIGITAL.

BOOKS

1. BASIC ELECTRONICS, 7ED, BERNARD GROB.

2. ELECTRICAL TECHNOLOGY, B.L.THERAJA.

3. ESSENTIALS OF RADIO, SLURZBERG.

4. APPLIED ELECTRICITY AND ELECTRONICS FOR TECHNICIANS, R.B. FABER.

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21/05/201901/06/2019 YamEen Uncategorized

DAE CIT

1st Year CIT

Linear Circuit & Basic Electronics

Mathematics

Physics

Introduction to Computer Programming

Computer Application Software

Occupational Health & Safety Environment

General Engineering

2nd Year CIT

Analogue Electronics

Business Communication

Data Communication & Networking

Digital Electronics

Mathematics

Microprocessor and Architecture

Object Oriented Programming with vb and java

3rd Year CIT

Management

Networking and Administration

Operating System

PC System and Peripheral Repair

PC System Architecture

Project

Technical Report Writing

Web Page Development and E-Commerce

COURSE CONTENTS:

BOOKS

BOOKS

BOOKS

BOOKS

BOOKS

PHY – 112 APPLIED PHYSICS COURSE CONTENTS:

BOOKS

BOOKS

PHY – 112 APPLIED PHYSICS

COURSE CONTENTS: