Polytechnic Diploma in Computer Engineering Computer Technology Second Semester

2nd Sem MSBTE Polytechnic Computer Engineering / Computer Technology / Information Technology Syllabus MSBTE Courses and Classes in Nagpur G Scheme

Atlanta Computer Institute Nagpur conducts Tuition Classes for Polytechnic Computer Engineering Diploma in Nagpur for Computer Engineering Computer Technology Branch for Second Semester in Nagpur India . The Following syllabus is of MSBTE Polytechnic Computer Engineering Computer Technology Second Semester g scheme . Final Year Projects Training is also given to Diploma Students.

1 Communication Skills  
2 Applied Science Physics Chemistry 
3 Programming in C 
4 Basic Electronics 
5 Engineering Mathematics 
6 Development of Life Skills 
7 Web Page Design 


w.e.f Academic Year 2012-13 

G Scheme 

Course Name :  All Branches of Diploma in Engineering & Technology 

Course Code : AE/CE/CH/CM/CO/CR/CS/CW/DE/EE/EP/IF/EJ/EN/ET/EV/EX/IC/IE/IS/ ME/MU/PG/PT/PS/CD/CV/ED/EI/FE/IU/MH/MI/DC/TC/TX  Computer Engineering , Computer Technology , Information Technology

  Semester : Second 

 Communication Skills 

 Describe the process of communication. Contents: •Definition of communication •Process of communication •Types of communication --   Formal, Informal, Verbal, Nonverbal, Vertical, Horizontal, Diagonal Topic 01 - Introduction to Communication: Specific Objective: 

Environmental ( time, noise, distanceBarriers to communication a. Physical Barrier: Principles of communication. Identify the principles and barriers in the communication process Contents: Topic 02 - Effective communication Specific Objective:  & Personal (deafness, stammering, ill-health, spastic, bad handwriting) b. Mechanical :  Machine oriented c. Psychological: Day dreaming, prejudice, emotions, blocked  mind, generation gap, phobia, status inattentiveness, perception.   d. Language : Difference in language, technical jargons,           pronunciationsurroundings),  & allusions.  

Topic 03 - Non verbal & Effective use of body languageGraphical communication: Specific Objectives:  & View and interpret graphical information precisely. Contents: 3.1 Non- verbal codes:                [08 Marks] •Proxemics,  •Chronemics •Artefacts 3.2 Aspects of body language ( Kinesics)         [10 Marks] •Facial expression •Eye contact •Vocalics, paralanguage •Gesture •Posture •Dressnonverbal codes  & appearance 

•Haptics 3.3 Graphical communication                             [10 Marks] •Advantages & disadvantages of graphical communication •Tabulation of data & its depiction in the form of bar graphs & pie charts. 

Effective use of listening  Contents: •Introduction to listening •Listening versus hearing •Merits of good listening •Types of listening. •Techniques of effective listening.   Topic 04 - Listening  Specific Objective: 

Use different formats of formal written skills. Contents: •Office Drafting: Notice , memoTopic 05 - Formal Written Communication Specific Objectives:  & e-mail •Job application with resume. •Business correspondence: Enquiry letter, order letter ,complaint                       letter, adjustment letter. •Report writing: Accident report, fall in production, investigation report. •Describing objects & giving instructions 


 w.e.f Academic Year 2012-13  G Scheme

Course Name : Computer, Electrical and Electronics Engineering Group 


 2nd Sem

 Applied Science ( Physics )

Study principle and applications of condenser 1.1 Simple D.C. electric circuits:      [04 Marks] •Electric current: definition, symbol and unit, Ohm’s law: statement, mathematical expression, resistivity: definition, unit, conductivity: definition, unit. 1.2 Wheatstone’s network and potentiometer  [06 Marks] •Wheatstone’s network, working principle, balancing condition, principle of potentiometer, potential gradient 1.3 Condensers:          [06 Marks] •Capacity of condenser-definition and its unit, definition of 1 farad capacity, principle of condenser, derivation of capacity of parallel plate condenser, statement and derivation of series and parallel combination of condensers. Use various networks such as Whetastone’s network , potentiometer Use basic electronic components like resistor, capacitor in electronic circuits. Calculate basic electric parameters for designing the simple electric circuits.  Topic1] Basic Electric circuits: Specific objectives 

Study applications of P-N junction diode, photodiode. •Classification of solids on the basis of band theory: forbidden energy gap, conductor, insulator, semiconductor. •Classification of semiconductors, P-N junction diode, forward characteristics of P-N junction diode, reverse characteristics of P-N junction diode, photodiode, its symbol, principle and applications. Verify characteristics of P-N junction diode Differentiate between conductor, semiconductor, insulator Topic 2]  Semiconductor Physics: Specific objectives 

State properties  and applications of LASER 3.1 Photo electricity:          [06 Marks] •Photon (quantum), Plank’s hypothesis, energy of photon, properties of photons. •Photo electric effect: circuit diagram, process of photoelectric emission, definitions:-threshold frequency, threshold wavelength, stopping potential, characteristics of photoelectric effect •Work function, Einstein’s photoelectric equation, photo resistor (LDR) - symbol, principle, applications, photoelectric cell:- principle, applications. 3.2 X-rays: [06 Marks] •Origin of X-rays, production of X-rays using Coolidge’s X-ray tube, minimum wavelength of X-ray, properties of X-rays, applications of X- rays: engineering, medical and scientific. 3.3 Laser: [06 Marks] •Laser, properties of laser, spontaneous and stimulated emission, population inversion, optical pumping.   •He-Ne Laser: Principle, construction and working, engineering applications of Laser       State applications of X - ray State the concept of photocell Topic 3]: Modern physics. Specific objectives: 

Study applications of nanotechnology. •History, nanoparticles, properties of nanoparticles, methods of synthesis of nanoparticles: physical method of synthesis of nanoparticles, engineering applications of nanotechnology. Study properties of nanoparticals. Topic 4] Physics of Nanoparticles:  Specific Objectives 


w.e.f Academic Year 2012-13  G Scheme

Course Name : Electronics / Electrical / Computer Engineering Group 


Semester     : Second

 Applied Science ( Chemistry )   


State engineering applications of copper and aluminium based on their properties. 1.1 Metallurgy of Copper:                      [4 Marks]  •Definition of metallurgy. •Extraction process: Ores of copper, extraction of copper from copper pyrite by concentration, roasting, smelting, bessemerisation, electrolytic refining. •Physical, chemical properties – action of air, water, acid, alkali. Applications of copper. 1.2 Metallurgy of Aluminium:        [4 Marks] •Extraction process: Ores of aluminium, extraction of aluminium from bauxite by  Bayer’s process, electrolytic reduction of alumina, electrolytic refining of aluminium. •Physical, chemical properties–action of air, water, acid, alkali. Applications of aluminium, anodizing of aluminium. 1.3 Solders:           [4 Marks] •Composition, properties and applications of- soft solder, tinmann’s solder, brazing alloy, rose metal, plumber’s solder. Describe the extraction processes of copper and aluminium. Topic 1] Metallurgy:  Specific Objectives:    

Describe different methods of protection of metal from corrosion 2.1 Corrosion: [6 Marks] •Definition of corrosion, Types of corrosion. •Atmospheric Corrosion: Definition, mechanism of oxidation corrosion, types   of oxide films and their significance, factors affecting  rate of atmospheric corrosion. •Immersed Corrosion: Definition, mechanism of immersed corrosion by galvanic cell action- with evolution of hydrogen gas and absorption of oxygen gas, factors affecting immersed corrosion. 2.2 Protection of metals by:                      [8 Marks] •Modification of environment, modification of properties of metal, electrochemical protection by sacrificial anodic protection and impressed current cathodic protection, use of protective coatings.   •Application of  metallic coatings: By galvanising, tinning, metal spraying,   electroplating, metal cladding, cementation- sherardizing, chromising, colourising. •Application of  non-metallic coatings: paint-definition, characteristics, constituents of  paint and their functions. Explain Mechanism of atmospheric corrosion and immersed corrosion.  Topic 2] Corrosion:   Specific Objectives: 

Describe construction and working of different types of cells.  Electrochemical cells/ batteries:  •Basic concepts : Definition of electrolyte, conductivity of electrolytes,  Ohm’s law, specific conductance, equivalent conductance, cell, battery,  electrolytic cell, electrochemical cell, charging, discharging.  •Classification of electrochemical cells: Primary and secondary cells. •Primary cells: construction, working and applications of  - Dry Cell, Daniel cell, •Secondary cells: construction, working and applications of - Lead-acid       storage cell, Ni-Cd  Cell •Fuel cell : Definition, construction, working, advantages, limitations and    applications of  Hydrogen- oxygen fuel cell. Explain the concept of electrochemical cell. Topic 3] Cells And Batteries:   Specific Objectives: 

Describe applications of dielectrics and insulators in electronic devices. 4.1 Polymers:   [4 Marks]  •Definitions, examples and applications of electrically conducting polymers, photoconductive polymers, electrically insulating polymers, liquid crystal polymers(LCP). 4.2 Insulators, Dielectrics and Adhesives:              [4 Marks] •Definition of dielectrics and insulator, Properties of gaseous, liquid and solid insulators , their examples. Properties and applicationsState role of polymers in electronic engineering. Topic 4] Chemistry of Electronic Materials  Specific Objectives:  of- inert gases, silicone fluids, teflon , bakelite, ceramics and glass. •Definition, characteristics, advantages of adhesives, properties and applications of phenol formaldehyde resin, urea formaldehyde resin and epoxy resin. 



w.e.f Academic Year 2012-13 G Scheme

Course Name : Computer Engineering Group  

Course Code : CO/CD/CM/CW/IF 

Semester : Second 

 Programming in C 


Formatted input, formatted output instructions. Problem solving techniques : flowchart and algorithm C operators- arithmetic,  Logical, assignment,    relational, increment and   decrement, conditional,  bit   wise,  special, operator precedence, C expressions data types C character set, tokens, constants, variables, keywords , identifiers History of C, where C stands  Write simple program using formatted input and   formatted output. Contents: State rules for declaration of variables, constants and operators Topic 1: Basics of C Specific Objectives: -  

Describe use of break and continue statement. 2.1 Decision making and branching if-statement – if, if-else, else-if ladder, nested if else, switch case statement, break statement (14M) 2.2 Decision making  and looping -  while, do, do- while  statement ,  for loop, continue statement           (14M) Write a simple program using decision making, branching statement, looping statement Topic 2: Decision making Specific Objectives: - 

Write a program using array and string. 3.1 Arrays Declaration and initialization of one dimensional, two Dimensional and character arrays, accessing array elements. (10M) 3.2 Declaration and initialization of string variables, string handling functions from standard library – strlen(), strcpy(), strcat(), strcmp() (08M) Give syntax of single dimensional, multidimensional array and strings. Topic 3: Arrays and Strings Specific Objectives: - 

Write a program using structure Write and execute the program using command-line argument. Understand the category of function call and function type and write program. State the scope of local and global variable. Topic 4: Functions and Structures Specific Objectives: - 


Write the program using pointer arithmetic Understanding pointers, declaring pointer variable, initialization of pointer variable, accessing address of a variable, pointer expressions, Pointers arithmetic State the declaration syntax of pointer, pointer initialization Topic 5: Pointers Specific Objectives: -


w.e.f Academic Year 2012-13  G Scheme

Course Name : Computer Engineering Group        

Course Code : CO/CD/CM/CW/IF

Semester : Second

 Basic Electronics


Select the diode with required specification. Contents: 1.1   Semiconductor Theory •Review of semiconductor theory (No questions to be set in Theory Paper) •Intrinsic semiconductor, Extrinsic semiconductor, doping, dopant •TrivalentSelect specific diode according to application. Topic 1:  Semiconductor Diode Specific Objectives:  & pentavalent impurities, P- Type and N- Type semiconductor. 1.2   Semiconductor Diode •PN Junction. •Junction theory: Barrier voltage, Depletion region, Junction capacitance, Forward and reverse biased junction •V- I characteristics of P-N junction diode. •Circuit diagram for characteristics( Forward & Reverse) 1.3 Specifications of diode •Forward Voltage Drop, Reverse Saturation Current, Maximum Forward Current, Power Dissipation. •Ideal Diode Model. 1.4 Zener diode •Construction & symbol •Circuit diagram for characteristics( Forward & Reverse) •Specification of zener diode: zener voltage( VZ), Maximum power dissipation( PD(max)) , Break over current(IZK), zener resistance. •Special purpose diodes: Schottkey diode, Point-contact diode, Varacter diode (Construction, symbol, Characteristics and applications). •Optical diodes: LED, IRLED, Photodiode and LASER diode (Symbol, operating principle and applications of each) 06 12 

 Topics 2:  Rectifiers and Filters 

Specific Objectives: 

  Select the specific rectifier & filter according to the requirement 

  Lists various types of filter circuits with advantages & disadvantages.


2.1 Rectifiers 

• Need of rectifier•Types of rectifier: Half wave rectifier, Full wave rectifier( Bridge andCentre tapped) •Working with waveform(IP /OP waveformsfor voltage and current,Average (DC) value of current and voltage ( No derivation) 

•Ripple, ripple factor, ripple frequency, PIV of diode used, transformer utilization factor, efficiency of rectifier. •Comparison of three types of rectifiers (HWR. FWR (bridge & centre tapped).

2.2 Filters 

• Need of filters 

•Types of filters: shunt capacitor, series inductor, LC filter, π filter (circuit diagram, operation, DC O/P voltage, ripple factor (formula), ripple frequency, Dependence of ripple factor on load.

•I/P and O/P waveforms, Limitations and Advantages of all types of filters.

Topic : 3 Bipolar Junction Transistor Specific Objectives: 

  Identify the transistor configuration according to application. 

  Lists types of biasing & coupling. 

  Select the specific amplifier type according to application. 

3.1 Transistor              16 Marks 

•Transistor definition•Types: NPN, PNP junction transistors (Symbols, operating principle (NPN only)•Transistor configuration: Common emitter (CE), common collector (CC), common base (CB). •Characteristics in CE configuration (Circuit diagram, I/P and O/P

characteristics, different points of characteristics (Cut-off, Active and Saturation), input resistance, output resistance, current gain (α and β ) Transistor Biasing:

• Need of biasing, DC load line, Operating point 

•Types of biasing circuits: Fixed bias circuit, Base biased with emitter feedback, Base biased with collector feedback, Voltage divider bias, Emitter biased

3. 2 Transistor as an amplifier ( CE configuration only)   12 Marks •Graphical representation, Current gain, Voltage gain, Power gain (No derivation), Input output resistance, Phase shift between input and output. • AC Load line •Single Stage CE amplifier: Circuit diagram, Function of each component, Frequency response and bandwidth. Need of Cascaded amplifier •Types of coupling : RC couple, Transformer couple, Direct couple ( Circuit diagram and function of each component) •Application of each amplifier •Transistor as a switch – (Circuit diagram, operation, application) 3.4 Power amplifier      08 Marks •Introduction, classification : class A, class B, class AB, class C         (Efficiency of each). •Single stage class A power amplifier (Circuit operation, IP/OP waveforms, graphical analysis and efficiency) •Transformer couple resistive load single stage power amplifier. •Class A push pull amplifier. •Class B push pull amplifier. •Class AB push pull amplifier. •Concept of cross over distortion. •Need of heat sink. UJT •Symbol, characteristics and working principle of UJT. 

Differentiate between BJTTopic : 4 Field Effect Transistor (Unipolar Transistor) Specific Objectives:  & Identify the type of unipolar transistor to suit the application. Contents: 4.1 FET •Types, Symbols and working principle •Characteristics of FET, Circuit diagram for drain characteristics, Operating regions of characteristics. •Drain resistance, Mutual capacitance, amplification factor and their relation, Pinch off voltage of FET •Comparison of BJT and FET.(Types of carriers, switching speed, Thermal stability, space in case of IC fabrication, control parameter, input impedance, offset voltage, power gain at audio frequencies) 4.2 MOSFET •Types, symbol, working principle •Application of FET and MOSFET. FET. 

Select the regulator IC to meet the application. Contents: •Definition of regulator, Need of regulator, Voltage regulation factor, • Concept of load regulation and line regulation • Zener diode as a voltage regulator. •Basic block diagram of DC power supply •Transistorized Series voltage regulator, Transistorized Shunt voltage regulator, (Circuit diagram and operation) Regulator IC’s •IC’s 78XX, 79XX (Functional Pin diagram) •IC 723 as fixed , variable and Dual regulator. Identify the regulator IC with specification. Topic : 5  Regulated Power Supply Specific Objectives: 

State the concept of  feedbackTopic: 6 Oscillators Specific Objectives:  & Select the specific oscillator circuit according to application. Contents: •Definition and block diagram of oscillator. •Concept of feedback, Types of feedback, Positive feedback, Negative feedback,  Barkhausen’s criterion Classification of oscillators •LC oscillators •Hartley oscillators •Colpitt’s oscillators •RC oscillator •Crystal Oscillator (circuit diagramBarkhausen criteria.  & working) 

Describe the basics of Micro Processor. Contents: •Digital circuit, Digital signal, Use of digital circuit and signal. • Number System : Introduction to binary, octal decimal and hexadecimal number system. Logic Gates •Logic symbol, Logical expression and truth table of AND, OR, NOT, EX-OR,  Identify various gates with truth table. Topic : 7 Digital Electronics Specific Objectives: & EX-NOR gates. •Universal gates : NAND gate and NOR gate •Application of Digital Electronics •Basic block diagram of Microprocessor. 


w.e.f Academic Year 2012-13 G Scheme 

Course Name : All Branches of Diploma in Engineering and Technology. 


Semester : Second 

Engineering Mathematics 


Find roots of algebraic equations which are not in real. •Definition of complex number, Cartesian, polar and exponential forms of complex number.  •Algebra of complex number such as equality, addition,             subtraction, multiplication and division.   •De- Moivre’s theorem with simple examples. •Euler’s form of circular functions, hyperbolic functions and   relation between circular and hyperbolic functions. 1.1 Complex number           ------------------------  14 Specific objectives : 

Topic 2 - Differential Calculus 

Identify the function and find the value of function. •Definition of function, range and domain of function.  •Value of function at a point. •Types of functions and examples.      2.1 Function             -------------------------  14 Specific objectives : 

To evaluate limit of function. •Concept and definition of limit.    •Limits of algebraic, trigonometric, logarithmic and  exponential functions with examples. 2.2 Limits             -----------------------------  20 Specific objectives : 

 Solve problems using  rules and methods of derivatives  •Definition of derivatives,   notation, derivatives of standard function using first principle.  •Rules of differentiation such as, derivatives of sum or difference, product, and quotient with proofs. •Derivative of composite function with proof ( Chain rule )  •Derivatives of inverse trigonometric functions using substitution  •Derivatives of inverse function. •Derivatives of implicit function. •Derivatives of parametric function. •Derivatives of one function w.r.t another function. •Logarithmic differentiation. •Second order differentiation. Find the derivatives by first principle. 2.3 Derivatives                 -------------------------------  24 Specific objectives :        

Topic 3 -  Numerical Method 

Find the approximate root of algebraic equation. •Bisection method •Regula falsi method •Newton  Rapshon method 3.1 Solution of algebraic equation       --------------------------  14 Specific objectives  

 3.2 Numerical solution of simultaneous equations   -------------------  14 Specific objectives : 

• Solve the system of equations in three unknowns.  

•Gauss elimination method •Jacobi’s method •Gauss Seidal method


w.e.f Academic Year 2012-13  G Scheme Course Name : All Branches of Diploma in Engineering and Technology Course Code : AE/CE/CH/CM/CO/CR/CS/CW/DE/EE/EP/IF/EJ/EN/ET/EV/EX/IC/IE/IS/ ME/MU/PG/PT/PS/CD/CV/ED/EI/FE/IU/MH/MI/DC/TC/TX 

Semester : Second 

 Development of Life Skills 


To introduce oneself.  Contents: 1.1 Need of Self Analysis 1.2 Attitude and types (positive, negative, optimistic and pessimistic) Guidelines for developing positive attitude. TOPIC 1: SELF ANALYISIS Specific Objectives: 

To improve reading, listening and notes taking skills. Contents: 2.1 Learning strategies 2.2 Learning process 2.3 Organization of knowledge   2.4 Reading skills 2.5 Listening skills 2.6 Notes taking 2.7 Enhancing memory To identify different process and strategies. TOPIC 2: STUDY TECHNIQUES Specific Objectives: 

To search information as per the need. Contents: 3.1 Sources of information 3.2 Techniques of information search (library, internet, etc) TOPIC 3: INFORMATION SEARCH Specific Objectives: 

To cope up with stress effectively. Contents: 4.1 Goal setting and its importance. 4.2 Characteristics of Goal setting (SMART-Specific, Measurable, Attainable, Realistic, Time bound) 4.3 Time Management - Importance, prioritization of work, time matrix, time savers, and time wasters. 4.4 Stress Management - Definition, types of stress, causes of stress, managing stress, and stress busters. To Priorities the work effectively. To set primary goals using SMART parameters. TOPIC 4: SELF DEVELOPMENT Specific Objectives: 

To prepare contents for presentation. Contents: 5.1 Importance of presentation. 5.2 Components of effective presentation (Body language, voice culture , rehearsal, etc) 5.3 Preparing for presentation. 5.4 Use of audio/video aids. (audio, video, transparency’s, PowerPoint presentations, etc) 5.5 Performing presentation (Seminars, paper presentations, compering, etc) To plan for presentation. TOPIC 5: PRESENTATION TECHNIQUES Specific Objectives: 

To know the purpose of group discussion Contents 6.1 Group discussion concept and purpose 6.2 Method of conduction To understand the concept of group discussion TOPIC 6: GROUP DISCUSSION Specific Objectives 


w.e.f Academic Year 2012-13  G Scheme Course Name  : Computer Engineering Group  

Course Code : CO/CD/CM/CW/IF 

Semester : Second 

Web Page Designing 


To understand Browsers1. INTRODUCTION TO WWW Objectives:  & To understand structure of HTML document •Information about Web Browsers, Web Servers and types of sites •Introduce Web page structure and basic structure tags: !DOCTYPE, HTML, HEAD, TITLE, BODY with attributes. Web Servers 

To understand basic tags used in HTML Document •Headings, Paragraphs, Breaks, Divisions, Centered Text, Block Quotes, Preformatted text, Address, HR tag. 2. BLOCK LEVEL TAGS AND HORIZONTAL RULES Objectives: 

To understand tags3. TEXT LEVEL TAGS AND SPECIAL CHARACTERS Objectives:  & special character used in HTML Document •Bold, Italic, Teletype, Underline, Strikethrough, Superscript, Subscript DIV tag 

To understand  list types •Ordered Lists, Unordered Lists, Definition Lists, Nested Lists. 4. LISTS Objectives: 

To understand types of linking • URL : Types of URLs, Absolute URLs, Relative URLs • Anchor Tag: Linking various documents for internal and external links. Marquee Tag. 5. URL AND ANCHOR TAG Objectives: 

To understand Image formats  •IMG tag and different Image formats, colors and backgrounds. 6. IMAGES, COLORS AND BACKGROUNDS Objectives: 

To understand different Table tags7. TABLE Objectives:  & attributes • TABLE tag with attributes. TABLE, TR, TH, TD tags. border, cell spacing, cell padding, width, align, bgcolor attributes. 

To understand Frame attributes • Types of Frames with their attributes              Creating frames: FRAMESET tag – rows, cols attributes,               FRAME tag –name, frame border, margin height, margin width, src,              resize, scrolling attributes. Use of NOFRAMES tag, Frame targeting. 8. FRAMES Objectives: 

To understand Forms attribute and methods. •Creating basic form: FORM tag, action and method attributes.  •Form fields: Single line text field, password field, multiple line text area, radio buttons, and check boxes. •Pull down menus: SELECT and OPTION tags. •Buttons: submit, reset and generalized buttons. 9. FORMS Objectives: 

To understand different Style Sheets Rule and types. •Introduce Style Sheets with different types. •Adding style to the document: Linking to style sheets, Embedding style sheets, Using inline style. •Selectors: CLASS rules, ID rules. •Style sheet properties: font, text, box, color and background properties. 10. STYLE SHEETS Objectives: 

To understand about the client side Scripting. •Embedding JavaScript in HTML document. Embed tag, Variables, Constants, Adding comments. •Operators: Assignment, Arithmetic and Comparison operators. •Control structures and looping: if, if..else, for, for..in, while, do..while, break and continue. •Event handlers: onClick, onMouseOver, onMouseOut, onSubmit, onReset,  11. CLIENT SIDE SCRIPTING AND JAVA SCRIPT Objectives: 

To understand about the gif animator •Creating a gif animation using gif animator. •Controlling gif animation through internal setting of gif animator. •Creating banner using gif animation. 12. ANIMATION Objectives: 

To understand how to publish the websites Publishing the site, Outsourcing web hosting, Virtual Hosting 13. PUTTING IT ALL TOGETHER: HOSTING THE WEBSITE Objectives: 




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