MSBTE Computer Engineering 2nd Semester K Scheme Syllabus | MSBTE Computer Engineering Syllabus

Hello everyone,welcome to the another post of MSBTE. As I promise I will continue the post of the MSBTE related study material which will help you to study faster than usual.

In this post, I am going to share the MSBTE Computer Engineering 2nd Semester K scheme syllabus. Guys, recently in MSBTE which is Maharashtra State Board of Technical Education has been accounced the implementation of new syllabus which is managed by the MSBTE only.

And the new K scheme is launced, with big changes in the field of Diploma. Today friends, I am sharing the detailed syllabus of MSBTE Computer Engineering including the list of the subjects, weightage of each subjects, unitwise name along with sub-topics and laboratory experiments.

From sharing the detailed syllabus of Applied Mathematics to the Web Page Designing. Friends there are 7 subjects in the Diploma in Computer Engineering in MSBTE.

There are some only therotical subjects, some practicals and some practical + therotical subjects. According to my experience Applied Mathematics is the subject where most of the has failed in there first attempt.

But don’t worry about this I am sharing the entire flow how you can study the Applied Mathematics subjects. Programming in C may be diffcult to some students, but easy for most of the students. But students, you should study consistenly because in examiniation students might be failed to remember the program.

This is not biggest challenge, solving the error in the computer might be stressful for you. But trust me friend It will 100% help you to build the logic.

List of Subjects in Diploma in Computer Engineering

Sr. No.	Subject Code	Subject Name
1	312301	Applied Mathematics
2	312302	Basic Electrical and Electronics Engineering
3	312303	Programming in C
4	312001	Linux Basics
5	312002	Professional Communication
6	312003	Social Life and Skills
7	312004	Web Page Designing

312301 Applied Mathematics Syllabus

Sr. No.	Unit Name	Subtopics in Units
1	Unit – I Indefinite Integration	1.1 Simple Integration: Rules of integration and integration of standard functions 1.2 Integration by substitution. 1.3 Integration by parts. 1.4 Integration by partial fractions (only linear non repeated factors at denominator of proper fraction).
2	Unit – II Definite Integration	2.1 Definite Integration: Definition, rules of definite integration with simple examples. 2.2 Properties of definite integral (without proof) and simple examples.
3	Unit – III Differential Equation	3.1 Concept of Differential Equation. 3.2 Order, degree and formation of Differential equations 3.3 Methods of solving differential equations: Variable separable form, Exact Differential Equation, Linear Differential Equation.
4	Unit – IV Numerical Methods	4.1 Solution of algebraic equations: Bisection method, Regula falsi method and Newton –Raphson method. 4.2 Solution of simultaneous equations containing three Unknowns by iterative methods: Gauss Seidal and Jacobi’s method. 4.3 Bakhshali iterative method for finding approximate square root. (IKS)
5	Unit – V Probability Distribution	5.1 Binomial distribution. 5.2 Poisson’s distribution. 5.3 Normal distribution.

312301 Applied Mathematics Weightage

Unit Name	Unitwise Weightage
Indefinite Integration	20
Definite Integration	12
Differential Equation	12
Numerical Methods	14
Probability Distribution	12
Total Marks	70

312301 Applied Mathematics Laboratory Experiments List

1. *Integration by substitution
2. *Integration by parts
3. Integration by partial fractions.
4. Definite Integral based on given methods.
5. *Properties of definite integral
6. Area under the curve and volume of revolution. (Only for Civil and Mechanical Engineering Group)
7. #Mean value and root mean square value. (Only for Computer, Electrical and Electronics Engineering Group)
8. Order, degree and formation of differential equation.
9. Variable separable method.
10. *Exact differential equation and linear differential equation.
11. *Applications of differential equations. (Take programme specific problems)
12. *Bisection method and Regula falsi method.
13. Newton- Raphson method.
14. Jacobi’s method and Gauss Seidal Method.
15. *Bakhshali iterative methods for finding approximate value of square root. (IKS)
16. *Binomial Distribution
17. *Poisson Distribution
18. Normal Distribution
19. *# Laplace transform and properties of Laplace transform. (Only for Electrical and Electronics Engineering Group)
20. *# Inverse Laplace transform and properties of Inverse Laplace transform. (This is for only Electrical and Electronics Engineering Group Students)

312302 Basic Electrical and Electronics Engineering Syllabus

Unit No.	Unit Name	Unit-wise Weightage
1	Unit – I Basic Electrical Fundamentals	1.1 Electric and magnetic circuits. 1.2 Series and parallel magnetic circuits. 1.3 Faraday’s laws of electromagnetic induction, Fleming’s right hand rule,Lenz’s law 1.4 Dynamically and statically induced emf, self and mutual inductance 1.5 AC and DC quantity, advantages of AC over DC supply. 1.6 Single phase AC, sinusoidal AC wave: instantaneous value, cycle, amplitude, time period, frequency, angular frequency, RMS value, Average value for sinusoidal waveform, form factor, peak factor. 1.7 Three phase supply system over single phase supply system, Phase sequence and balanced and unbalanced load 1.8 Star and delta connections, Phase and line current, phase and line voltage in star connected and delta connected balanced system.
2	Unit – II Electrical Machines.	2.1 Transformer: Working principle, emf equation, Voltage ratio, current ratio and transformation ratio, losses. 2.2 DC motor construction – parts its function and material used. 2.3 DC motor -Principle of operation. 2.4 Types of DC motors, schematic diagram, applications of dc shunt, series and compound motors. 2.5 Universal motor: principle of operation, reversal of rotation and applications. 2.6 Stepper motor: types, principle of working and applications.
3	Unit – III Electrical Safety and Protective Devices.	3.1 Low rating Fuse: Operation, types 3.2 Switch Fuse Unit and Fuse Switch Unit: Differences, use of multimeter for electrical quantities/ parameters measurements. 3.3 MCB and ELCB/RCB: Operation and general specifications 3.4 Earthing: Types, Importance of earthing, factors affecting eatthing resistance. 3.5 Measures for reducing earth resistance, I.E rules relevant to earthing.
4	Unit – IV Special purpose diodes and their applications.	4.1 Zener diode: working, symbol, applications. 4.2 LED: working, symbol, applications. 4.3 Filters: Need for filters, circuit diagram and working of L, C and CLC filter. 4.4 Working principle and block diagram of regulated power supply. 4.5 UPS: Block diagram of Online and Offline UPS.
5	Unit – V Transistors	5.1 BJT: Types, symbol, construction and working principle of NPN transistor. 5.2 Transistor configurations: CB, CE, CC 5.3 Characteristics of transistor in CE configuration. 5.4 Transistor parameters: alpha, beta and derive relation between them. 5.5 Applications-Transistor as a switch and as an amplifier. 5.6 FET: Types, symbol, construction and working principle of n channel JFET. 5.7 Characteristics of JFET: Drain and Transfer characteristics.
6	Unit – VI Sensors and Transducers	6.1 Sensors and Transducers: Basic definition, difference, classification. 6.2 Thermal, Optical, Electric sensors 6.3 Transducers: Need of transducer, types of transducers: Primary, Secondary, Active, Passive, Analog, Digital 6.4 Selection criteria of transducer

312302 Basic Electrical and Electronics Engineering Weightage

Sr. No.	Unit Name	Unit-wise Weightage
1	Unit – I Basic Electrical Fundamentals	14
2	Unit – II Electrical Machines.	12
3	Unit – III Electrical Safety and Protective Devices.	10
4	Unit – IV Special purpose diodes and their applications.	12
5	Unit – V Transistors	12
6	Unit – VI Sensors and Transducers	10

List of Practical 312302 Basic Electrical and Electronics Engineering

1. *Measure  the parameters of simple electrical and identify presence of flux lines in magnetic circuit.(e.g. current, voltage, power, flux)
2. *Measure frequency, time period, rms value, peak value of sinusoidal AC waveform for resistive and inductive circuit using CRO.
3. Phase difference of voltage and current in inductive circuit. 
4. *Measure the line voltage, phase voltage and phase current and line current in three phase star connected balanced load.
5. Measure the line voltage, phase voltage and phase current and line current in three phase delta connected balanced load.
6. *Determination of the voltage and current ratio of single phase transformer.
7. *Operate DC shunt motor by connecting three point starter.
8. Operate DC series motor by connecting three point starter
9. *Reverse the direction of rotation of universal motor.
10. Demonstrate the operation of stepper motor for various speed rotation.
11. *Use multimeter for measurement of voltage, current (AC,DC), resistance and continuity of the given electrical circuit.
12. Connect fuse  in electrical circuit and check its operation at normal and abnormal conditions. 
13. *Connect MCB in electrical circuit and check its operation at normal and abnormal conditions. 
14. Connect ELCB in electrical circuit and check its operation at normal and abnormal conditions. 
15. Use of earth tester for meaurement of  earthing resistance of a installed earthing of laboratory.
16. *Connect the Zener diode in the circuit and test its  operation  in forward and reverse bias mode.
17. *Determine the voltage regulation by using Zener diode under variable input and output conditions.
18. Check the output waveform of L, C and  π  filters on CRO of rectifier circuit.
19. *Make the input and output connections of UPS and measure the output voltage under online and offline mode.  
20. *Make the input, output connections and check the operation of UPS under normal and overload condition.
21. *Test input /output characteristics of NPN transistor in CE configuration.
22. Test input /output characteristics of NPN transistor in CB configuration.
23. *Check the switch ON and switch OFF condition of LED by using transistor.
24. Determine the Drain and Transfer characteristics of FET.
25. *Measure temperature of liquid using RTD (PT-100) transducer.
26. Measure temperature of liquid  using thermocouple measurement.
27. Check the motion of given object using photoelectric sensor.
28. *Measure the resistance of LDR in varying light intensity.
29. Measure displacement using LVDT.
30. Measurement of  displacement using potentiometer.

312303 Programming in C Syllabus

Unit – I Basics of ‘C’ Programming
1.1 Fundamentals of algorithms: Notion of algorithm, Notations used for assignment statements and basic control structures. 1.2 Introduction to ‘C’: General structure of ‘C’ program, Header file, ‘main ()’ function. 1.3 Fundamental constructs of ‘C’: Character set, tokens, keywords, Identifiers, Constants – number constants, character constants, string constants, Variables. Data types in ‘C’: Declaring variables, data type conversion. 1.4 Basic Input and Output functions: input and output statements using printf(), scanf() functions. 1.5 Assignments and expressions: simple assignment statements, arithmetic operators, shift operators, bitwise operators, sizeof operator.
Unit – II Control structures
2.1 Conditional statements: Relational operators, logical operators, if statement, if-else statements, nested if-else statements, if-else ladder, switch statement. 2.2 Looping statements: while loop, do…while loop, for loop. 2.3 Branching Statements: goto statement, use of ‘break’ and ‘continue’ statements.
Unit – III Arrays and structure
3.1 Characteristics of an array, One dimension and two dimensional arrays, concept of multi-dimensional arrays. 3.2 Array declaration and Initialization. 3.3 Operations on Arrays. 3.4 Character and String input/output and String related operations. 3.5 Introduction and Features of Structures, Declaration and Initialization of Structures, array of structures. 3.6 Type def, Enumerated Data Type.
Unit – IV Functions
4.1 Concept and need of functions. 4.2 Library functions: Math functions, String handling functions, other miscellaneous functions such as getchar(), putchar(), malloc(), calloc(). 4.3 Writing User defined functions – function definition, functions declaration, function call, scope of variables – local variables, global variables. 4.4 Function parameters: Parameter passing- call by value & call by reference, function return values, function return types, declaring function return types, The ‘return’ statement. 4.5 Recursive functions.
Unit – V Pointers
5.1 Introduction to Pointers: Definition, use of pointers, ‘*’ and ‘&’ operators, declaring, initializing, accessing pointers. 5.2 Pointer arithmetic. 5.3 Pointer to array. 5.4 Pointer and Text string. 5.5 Function handling using pointers. 5.6 Pointers to structure.

312303 Programming in C Weightage

Unit	Marks
Unit – I Basics of ‘C’ Programming	12
Unit – II Control Structures	16
Unit – III Arrays and Structure	16
Unit – IV Functions	14
Unit – V Pointers	12
Total	70

Programming in C Lab Experiments

1. * Install and study the C programming environment 
2. Implement C programs using  Constants and  Variables
3. * Implement C programs using  arithmetic operators to solve given arithmetic operations
4. Implement C programs using implicit and Explicit data type conversion
5. * Write well commented C programs using formatted Input/Output statements.
6. * Implement minimum two C programs using Relational and conditional operator.
7. * Implement minimum two C programs using Logical Operators
8. Implement minimum two C programs using Bitwise Operators
9. Implement minimum two C programs using simple If  statement and if..else statement
10. * Implement minimum two C programs using nested  If ..else statement and if.. else if laddere.g.- Write and Execute the C program to print the grades of students based on percentage.
11. * Develop C program using Switch staements
12. * Write a C program to print English Calendar months as per given number(eg: If input is 4 then print “April”) using Switch statement
13. * Implement minimum two C programs using ‘while’ loop and ‘do…while’ loop statements.
14. Implement C programs using for loop statement (e.g.-Write a C Program to print numbers from 1 to 100)
15. * Print various patterns using loops. e.g. –  Write C Program to print following or similar patterns
16. * Implement C programs using One Dimensional Array. (e.g.-Write C program to input 5 numbers using array and display sum of it)
17. * Implement C programs using Two  Dimensional Array. (e.g.-Write C program to calculate addition of two 3X3 matrices.)
18. * Write C program to perform following operations without using standard string functions. i) Calculate Length of given string
     ii) Print reverse of given string.
19.  Implement ‘Structure’ in  C ( e.g. – Add and Substract complex numbers using structure)
20. * Implement ‘ Array of Structure’ in  C (e.g.-Accept and Display 10 Employee information using structure)
21. * Develop C program using  in-built mathematical and string functions.
22. * Write C program to demonstrate User defined Functions
23. Implement recursive functions in C program.
24. * Write C Program to print addresses and values of variables using Pointer. (e.g.- Write C program to access and display address of variables.)
25. * Implement C Programs to perform arithmetic operations using Pointer.

312001 Linux Basics Syllabus

Unit – I Introduction to Linux Operating System 1.1 Introduction to Operating System and Linux. 1.2 History, Overview of Linux 1.3 Shell: Bourne, Korn, Cshell. 1.4 Linux releases, Linux File Systems (ext) and versions.

Unit – II General Purpose Utilities 2.1 cal: The calendar, date: Displaying the system date, echo: Displaying message, printf: An alternative to echo, bc: The calculator, script: Recording your session 2.2 Email basics, mailx: The universal mailer 2.3 passwd: Changing your password, who: Who are the users?, uname: Knowing your machine characteristics 2.4 tty: Knowing your terminal, stty: Displaying and setting terminal characteristics

Unit – III File Management in Linux 3.1 The file: Ordinary file, Directory file, Device file, File name, The parent-child relationship, UNIX file system tree, The Unix file system, The home directory 3.1.1 pwd: Checking your current directory, cd: Changing the current directory, mkdir: Making directories, rmdir: Removing directories, ls: Listing directory contents 3.2 Absolute pathnames, Relative pathnames 3.3 Handling ordinary files, cat: Displaying and creating files, cp: Copying file, rm: Deleting files, mv: Renaming files, more: Paging output 3.4 The lp subsystem: printing a file, file: knowing the file types 3.5 wc: Counting lines, words and characters, od: Displaying data in octal, cmp: Comparing two files, comm: What is common?, diff: Converting one file to other 3.6 gzip and gunzip: Compressing and decompressing files, tar: The archival program, zip and unzip: Compressing and archiving together 3.7 Basic file attributes, ls -l: Listing file attributes, the -d option: Listing directory attributes 3.8 File ownership, File permissions, chmod: Changing file permissions, directory permission, Changing file ownership, chown: Changing file owner, chgrp: Changing group owner

Unit – IV The vi Editor and Shell 4.1 The vi Editor: vi Command, Input, and Line Editing Modes. 4.2 Creating, Saving and Quitting a File in vi, Managing Editing Modes in vi. 4.3 vi Editing Commands: Common Operations. 4.4 Navigation: Movement in the four directions (h, j, k and l), Word navigation (b, e and w), Moving to Line extremes (0, | and $), Scrolling ([Ctrl-f], [Ctrl-b], [Ctrl-d] and [Ctrl-u], Absolute Movement (G) 4.5 Searching for a pattern(/ and ?), Repeating the last pattern search (n and N) 4.6 The Shell: The Shell’s interpretive cycle, Shell offerings, Pattern matching: The wild-cards, Escaping and quoting, Redirection: The three standard files,/dev/null and /dev/tty: Two special files 4.7 Pipes, tee: Creating a tee, Common substitution, Shell Variables

Unit – V Filters, Regular Expressions and Shell Programming 5.1 Simple Filters: The sample database, pr: Paginating files, head: Displaying the beginning of a file, tail: Displaying the end of a file, cut: Splitting a file vertically, paste: Pasting files, sort: Ordering file, uniq: Locate repeated and nonrepeated lines, tr: Translating characters 5.2 Filters using regular expressions, grep: Searching for a pattern, Basic regular expression (BRE)- An introduction, Extended regular expressions (ERE) and egrep, sed: The stream editor 5.3 Essential Shell programming, Shell scripts, read: Making scripts interactive, Using command line arguments, exit and Exit status of command, The logical operators && and ||- Conditional executions 5.4 The if conditional, Using test and [ ] to evaluate expressions, the case conditional, expr: Computation and string handling, $0: Calling a script by different names 5.5 while: Looping, for: Looping with a list

312001 Linux Basics Weightage

Unit – I Introduction to Linux Operating System	0
Unit – II General Purpose Utilities	0
Unit – III File Management in Linux	0
Unit – IV The vi Editor and Shell	0
Unit – V Filters, Regular Expressions and Shell Programming	0

312001 Linux Basics Lab Experiments

1. Install the Linux Operating System.
2. Execute general purpose Linux commands.
3. Execute general-purpose Linux commands.
4. Execute file and Directory manipulation commands.
5. Execute file and Directory manipulation commands.
6. Execute Linux commands for compressing, decompressing, and archiving files.
7. Change file and directory permissions.
8. Use the vi editor to create and edit files.
9. Use wildcard characters.
10. Use of Pipes in Linux.
11. Execute input and output redirection in Linux.
12. Execute the filters commands in Linux.
13. Execute filters commands in Linux.
14. Execute shell scripts.
15. Execute the Shell script by using the if statement.
16. Execute a Shell script by using the while loop.
17. Execute a Shell script by using the for loop.

312002 Professional Communication Syllabus

Unit – I Professional Communication : An Overview 1.1 Definition of professional communication- Importance, relevance, Elements and process of communication 1.2 7 C’s of Professional Communication (Clarity, Conciseness, correctness, Coherent, concrete, courteous and Complete) 1.3 Types –Verbal (Oral-Written),Formal, Informal (Grapevine), Vertical Barriers to communication, Types of barriers (Linguistic, Psychological, Technological)

Unit – II Listening & Note Taking 2.1 Difference between listening & Hearing 2.2 Types of listening a)Passive listening b)Selective listening 2.3 Techniques of Note Taking, Types of note taking (Outline notes, Mind Mapping, Flowcharts )

Unit – III Office Drafting 3.1 Format of Notice and Circular 3.2 Drafting Agenda 3.3 Preparing Minutes of meeting

Unit – IV Writing Skills for Professional Communication 4.1 Job Application with Resume / CV 4.2 E-Mail Etiquettes 4.3 Writing official E- Mails to communicate intended purposes 4.4 Drafting Enquiry letter and Complaint letter

Unit – V Report Writing 5.1 Introduction to report writing 5.2 Accident Report 5.3 Investigation Report 5.4 Daily Report

List of 312002 Professional Communication Lab Experiments

1. Communication Process and Cycle
2. Role plays and Group Discussion
3. Active Listening
4. Presentations / Seminars
5. Note taking and Note Making
6. Agenda and Minutes of the meeting
7. Office Drafting
8. Type Job Application with Resume / CV
9. E- Mail writing
10. Technical Report writing
11. Barriers to Communication
12. Complaint and Enquiry letter
13. Psychological barriers to Communication
14. Listening Skills
15. Typed Job Application, Resume / CV/ formal dressing and Interview

312304 Web Page Designing Syllabus

Unit – I Introduction to HTML
1.1 Introduction of HTML
1.2 Terminologies used in Web Design: World Wide Web (www), Web Pages, Web Site, Web Browsers, Web Servers and types of sites. Static vs. dynamic web sites, Search Engine.
1.3 Web page structure: DOCTYPE, HTML, TITLE, HEAD, BODY and other meta tags with attributes.
1.4 Block Level Elements: Headings, Paragraphs, Breaks, Divisions, Centered Text, Block Quotes, Preformatted text, Types of Address, HR tag. Horizontal Rue.
1.5 Text Level Elements: Bold, Italic, Teletype, Underline, Strikethrough, Superscript, Subscript, DIV tag, displaying special characters, comments.
Unit – II Lists and Links
2.1 Lists: Ordered Lists, Unordered Lists, Definition Lists, Nested Lists.
2.2 Links: Absolute, Relative and Inline links, use image as link, link to an email address, button as link, types of links, linking various documents for internal and external links, to link different web page of same site, link different location on the same web page, a specific location on different web page of same site, to specific section within the document, inserting E-mail link.
Unit – III Images, Colors and Background
3.1 Image: Types of image format, jpg, bmp, png gif etc. IMG tag, alternate text, image alignment, HSPACE, VSPACE, wrapping text, height and width of images, Image as a link, Inserting Images, formatting image for sizing, alignment. Border and using other attributes with IMG tag.
3.2 Colors and Backgrounds: The text color, color attribute of FONT tag, text attribute of BODY tag. bgcolor attribute of BODY tag, changing link colors: link, alink, vlink, attributes of BODY tag, Backgrounds: Inserting image as page background, background attributes of BODY tag, creating solid color page background.
Unit – IV Table, Frames and Forms
4.1 Table: Table tag with attributes. TABLE, <tr>, <th>, <td> tags. Border, cell spacing, cell padding, width, align, bgcolor attributes. Adding captions: CAPTION tag
4.2 Formatting contents in the table cells: align, valign, bgcolor, height, width, nowrap attributes. Spanning rows and columns: rowspan and colspan attributes.
4.3 Frames: 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.
4.4 Forms: 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. Formatting technique: Using table to layout form.
Unit – V Cascading Style sheets
5.1 Cascading Style Sheets: Different types of Style Sheets, Benefits of using CSS. Adding style to the document: Linking to style sheets, Embedding style sheets, Using inline style, Selectors: CLASS rules, ID rules.
5.2 Style sheet properties: Font, text, box, color and background properties; Creating and Using a simple external CSS file; Using the internal and inline CSS; background and color gradients in CSS Setting font and text in style sheet layout.
5.3 CSS Advanced: CSS Rounded Corners ,CSS Border Images, CSS Shadows, CSS Text Effects,CSS 2D Transforms, CSS 3D Transforms, CSS Transitions, CSS Animations,CSS Tooltips, CSS Style Images, CSS Image Reflection.
5.4 CSS Responsive: RWD Intro, RWD Viewport, RWD Grid View, RWD Media Queries, RWD Images, RWD Videos, RWD Frameworks, RWD Template.
Unit – VI Website Hosting
6.1 Website Hosting: Concept of Internet and Intranet. Publishing website on Intranet, installing and configuring web server, uploading files on intranet site, access intranet based website, publishing website on Internet, hiring web space, uploading files using FTP, virtual hosting, access internet based website.