m ,.-.,-

SVKM'S (NMIMS) First Year 28 Mukesh Pate1School of Technology Management & Engineering

Program: B. Tech. (All Branches) Semester: I1 I

Course : Engineering Mathematics-I1 Code : BTAB02001 I

Teaching Scheme Evaluation Scheme

Theory Internal Continuous

Lecture Practical Tutorial 'Credit (3Hrs, Assessment (ICA)

100Marks) As per Institute Norms

3 0 2 4 50 50

Pre-requisite: Knowledge of HSC level Mathematics and Engineering Mathematics I

1 Objectives

To provide an understanding of EngineeringMathematics with basic concepts to apply in technical subjects. ~ ~ ~ l i c a t i o nifthe concepts to solve engineeringproblems

Outcomes: Studentswill be able to solve problems related to matrices. The students will understand the concept of multiple integrals and integrationtechniques in Cartesian, polar, cylind~caland spherical co-ordinate systems. Studentswill learn to solve linear differentialequations of first and higher orders using suitablemethods.

. Studentswill be able to apply the techniques learnt in differential equations

1 - - -

to solve problems related engineeringproblems. They will be able to use the knowledge of multiple integralsto applicationslike finding areas, mass, volume.

Detailed Syllabus: st

Unit Description Duration

Prereauisites: A

Idea of curve tracing in Cartesian and polar forms with respect to the curves: Straight lines, Circles, Parabolas, Ellipse, Hyperbolas, Astroid, Cardioidsand Lemniscates of Bernoulli. Concepts of solid geometry: Planes, Spheres, Cones, Cylinders, Ellipsoids and Paraboloids.

1 Matrices: Introduction,Types of matrices- Symmetric, Skew-Symmetric, Hermitian, skew-Hermitian, Orthogonal and Unitary, Adjoint of a ma.trix,Inverse of a matrix using adioint method, Rank of a

SVKM'S (NMIMS) First Year 21 Mukesh Pate1 School of Technology Management &Engineering

Beta and Gamma functions: Definition of Beta and Gamma functions and their properties; Relation between Beta and Gamma functions(without proof); Duplication formula(with proof).

Differential Equations: First order and first degree Exact differential equations and those which can be reduced to Exact form by use of integrating factor (four rules), Linear differential equations and equations reducible to linear form, Linear differential equations of higher order with constant coefficients. functions, Particular ~orn~ler&entar~ integrals of the differential equations of the type f (D)y =X, where = ear, sin(ax +b) ,cos(ax + b) ,xm, earV(x), xV(x) .

I Cauchy's homogenous linear differential equation and Legendre's differential equation, Method of variation of parameters.

4 Multiple Integrals: Double Integration - Introduction, Double integration in Cartesian and Polar Co-ordinates, Evaluation of integrals over a given region, Change of order of integration, concept of Jacobians, Change of Co-ordinate system, Area and Mass of a Lamina by double integration.

Triple Integration - Definition and evaIuation in Cartesian, Cylindrical and Spherical Co-ordinates, Volume by Triple integration.

Total 45

Text Books: &

1. B. S. Grewal, "Higher Engineering Mathematics", Khanna Publishers, 40th Edition, 2008.

Reference Books:

1. B.V.Ramana, "Higher Engineering Mathematics", Tata McGraw Hill, 2008 2. T. Veerarajan, Engineering Mathematics, Tata McGraw Hill, 2008. 3. H. K. Dass, "Advanced Engineering Mathematics", S. Chand & Co., 18th

edition, 2008. 4. Erwin Kreyszig, "Advanced Engineering Mathematics", Wiley Eastern Ltd,

SVKM'S (NMIMS) Mukesh Pate1 School of Technology Management & Engineering

B. Tech (All Branches) Semester: I1

Subject: Engineering Chemistry Code : BTAB02002

Teaching Scheme Evaluation Scheme

Theory (3 Internal Continuous

Lecture Practical Tutorials Credit Hrs) Assessment (ICA)

(looMarks) As per Institute Norms

3 2 - 4 50 50

Course Prerequisite. HSC level Chemistry

Course Objective: Water- Importance & uses, chemical analysis & treatment, for human consumption & industrial applications.

Introducing the students to important engineering matirials like polymers, liquid crystals, nanomaterials and composites.

Importance and application of Electrochemistry, understanding & combating corrosion.

1 Study various energy resources.

I I Introduction of E- waste and Green Chemistry i -Course Outcome: Understanding industrial applications of water, engineering

materials, electrochemistry, corrosion combating, energy resources, knowledge of e-waste and green chemistry

! 1 Detailed Syllabus

-7

Water & its treatment: Importance of water for sustaining life & industrial activities. Impurities in natural water including hardness. Disadvantages of impure water for i) domestic and ii) industrial purposes (a) Boilers @) Pharmaceuticals (c) Textiles Chemical analysis of Water-Chloride, Sulphate & silica content, alkalinity, hardness. Numerical based on chemical analysis of water Treatment of hard water by Hot and Cold Lime-Soda Method, Zeolite Method and Ion-Exchange Method. Drinking water purification: Reverse Osmosis, Ozonization,

and Ultra filtration. -.

a-3-

SVKM'S (NMIMS) Mukesh Pate1 School of Technology Management & Engineering

2 Polymers: Introduction and definition of important terms -monomer, polymer, polymerization, degree of polymerization, tacticity, and glass transition temperature, molecular weight of polymer and its determination. Classification of polymers. Mechanism of Polymerization. Plastics: Thermosetting & Thermoplastics, Compounding of plastics, Applications of plastics as engineering materials. Commercial plastics (PF, UF) - synthesis, properties and applications. Elastomers: Natural rubber, drawbacks of natural rubber, Vulcanization of rubber, applications of rubber CommerciaI Elastomers (Buna-S, Isocyanate or polyurethane rubber) - Syflthesis, Properties and Applications. Speciality polymers: Conductive polymers, Self healing plastics, Intelligent polymers. Applications of specialty polymers.

3 Materials: Liquid Crystals: Introduction. Classification and chemical properties of liquid crystals. Applications of liquid crystals. Nanomaterials: Introduction. Structural features and properties of Nanomaterials (CNTs, Fullerens, Hackelites) Application of various Nanomaterials in medicines, catalysis, environmental technologies, electronics & related fields.

- Composites: Introduction, Classification (Polymer, Metal & Ceramic composites), Phases of composites, applications of composites

4 Electrochemistry: Introduction. Electro chemical cell: cell EMF and its dependence on concentration & temperature (Nernst Equation). Redox reactions and their spontaneity. Applications 3 of electrochemical and galvanic series. Concentration cells. Numericals based on Nernst equation, Cell emf.

5 Corrosion: Introduction. Dry or Chemical co%osion, Wet or Electro chemical corrosion. Types of corrosion: concentration cell corrosion, galvanic corrosion, waterline corrosion, soil corrosion, pitting corrosion, intergranular corrosion, microbiological corrosion, stress corrosion. Factors influencing rate of corrosion.

Corrosion control:

i. Cathodic protection techniques (Impressed Current technique, Sacrificial anodic protection)

ii. Protective coatings: (a) Metallic coatings (b) Organic coatings - (Paints, Varnishes, Lacquers, Enamels)

iii. Alloying iv. Proper designing

SVKM'S (NMIMS) Mukesh Pate1 School of Technology Management & Engineering

-6 Energy resources: Combustion Fuels: Definition &

Classification. Calorific value and its units. Theoretical (Dulong formula) & Experimental (Bomb calorimeter) determination of calorific value.

Solid Fuel: Coal, proximate and ultimate analysis, numerical based on analysis of coal.

Liquid fuels: (Petrol, Diesel, Synthetic petrol and biodiesel) Cracking & Reforming, Octane number, Cetane number, Knocking, anti knocking agents,

Gaseous fuel: (LPG, CNG) Composition, properties and application.

Combustion: calculation on air and oxvgen requirement.

Batteries: Mercury battery, Lead acid battery, Lithium ion, Nickel metal hydride, Hydrogen- Oxygen fuel cells

7 E-Waste: Introduction. Classification of e-waste substances, 4

Management of e waste.

8 Green Chemistry: Introduction, Principles of green chemistry 3

with examples

TOTAL 45

TEXT BOOK: 4

P.C. Jain & Monica Jain, Engineering Chemistry, Dhanpatrai Publishing Company, New Delhi, 2008

REFERENCE BOOKS:

1. V K Ahluwalia, Green Chemistry, Ane Books India, Edition, 2008 2. S.K. Singh, Fundamentals of Engineering Chemistry - Theory & Practices, New Age Industrial Publishers, 2nd edition, 2004 3. V.R. Gowarikar, Polymer Science, New age India Pvt Ltd., 2003

SVKM's NMIMS Mukesh Pate1 School of Technology Management & Engineering

Program: B. Tech. (All Branches) - .

Semester: II Code :gTARfl7flflZCourse : Basic Electronics -- -.--"-""-

Tnlnh:.." Cn1.n-n I l3~?31. .3&-.wUm.ion Scheme I S(ILllllltj ULIISILIF

Theory Internal Continuous Lecture Practical Tutorial Credit (3Hrs, Assessment (ICA)

100 Marks) As per Institute Norms

3 2 0 ' 4 50 50 Pre-requisite: I

1. Theory of semiconductor materials, their atomic structures and properties. 2. DC circuit analysis, ac fundamentals. I

Objectives: 1. Understand the construction, working principle, characteristics and simple

applications of basic electronic devices. 2. Understand the application of these devices in making advanced circuits like

amplifiers and oscillators. 3. To impart hands-on experience in assembling and testing circuits. 4. Get exposed to inter disciplinary engineering disciplines.

Outcomes: After successful completion of this course, students should be able to

1. Design simple circuits using diodes, BJTs and FETs 2. Compare different classes of power amplifiers 3. Select components based on data sheet parameters 4. Assemble and conduct experiments on bread board 5. An ability to hnction on multidisciplinary teams

Detailed Syllabus: Unit I Description I Duration 1. I Diode and its Av~iications:

Introduction to %miconductor Diode Th&ory, DC Analysis and Models of diode, AC Equivalent Circuits of diode. Diode Types: photodiode, Light-Emitting Diode, Schottky Barrier Diode, Zener Diode, Temperature Effects, Understanding Manufacturer's Specifications. Applications: Rectifier Circuits - Half Wave and Full Wave Rectification, Filter circuits, Ripple Voltage and Diode Current. Zener Diode Circuits - Zener diode as voltage regulator. Clipper and Clamper Circuits.

I I 2. Bipolar Junction Transistor:

Basic Bipolar Junction Transistor, Transistor Structures, NPN 12

I

SVKM's NMIMS Mukesh Pate1 School of Technology Management & Engineering

Transistor: Forward-active Mode Operation, PNP Transistor: Forward-active Mode Operation, Circuit Symbols and Conventions, Current-Voltage Characteristics, Non ideal Transistor Leakage Currents and Breakdown, DC Analysis of Transistor Circuits. Basic Transistor Application: Switch, AmpIifier. Bipolar Transistor Biasing - Bias Stability, Fixed Bias, Collector- to-Base Bias, Voltage Divider Bias. Understanding Manufacturer's specifications. BJT amplifier frequency response. Figure of merit of an amplifier.

Field Effect Transisto&' *'

Junction Field-Effect Transistor & MOSFET- symbols, Drain and Transfer characteristics & study of different parameters. JFET Biaisng Methods (fixed bias, voltage divider bias and self bias). 10 FET amplifier frequency response. Figure of merit of an amplifier.

Output Stages and Power Amplifiers: Introduction to Power Amplifiers, difference between voltage and power amplifier, ac load line, characteristic and efficiency of 05 Class A,B, AB, C and Push Pull amplifier.

5. Oscillators: Positive feedback and basic Principles for Oscillation, Classification of transrstor oscillators: Phase-Shift Oscillator,

04Wien-bridge Oscillator, Colpitts Oscillator, Hartely Oscillator, Crystal Oscillator. , C

I - I

I Total -- .- -. 45 Text Books:

1 1. Donald A. Neamen, Electronic Circuit Analysis and Design, McGraw Hill International, 2nd Edition, 2GU1.

5.

2. David A. Bell, Electronic Devices & Circuits, Prentice Hall India Pvt. Ltd, 5th Edition, 2008.

Reference Books: 1. Donald Schillin & Charles Belove, "Electronic Circuits Discrete and

Integrated, Mc 2raw Hill International, 3rd edition, 1989.

2. Martin Roden, Gordon Carpenter, William Wieserman, "Electronic Design", Shroff.Publishers,4th edition, 2002.

SVKM's NMIMS Mukesh Patel School of Technology Management & Engineering

3. Robert Boylestad & Louis Nashelsky, "Electronic Devices & Circuit Theory", Pearson Education India - 9th Edition, 2007.

4. B.L. Thera'a, "Fundamentals of Electrical Engineering and Electronics", S. Chand & 2o., 2nd Edition, 2004.

Term Work: 1. At least ten laboratory experiments 2. Two term tests 3. Assignments based on the whole syllabus, duly recorded and graded.

SVKM'SNMIMS' Mukesh Patel Schoolof Technology Management and Engineering

I Program: B.Tech (AUBranches) I Semester :I1

I Course: EngineeringDrawing - I1 I

Code: BTAB02004- - - I

Teachinn Scheme Evaluation Scheme-Practical Internal Continuou

Lecture Practical Tutorials Credit (2 Hrs, 50 Assessment (ICA) Marks) As per Institution No]

1 2 0 2 50 50 Prerequisite: Engineering Drawing - I (BTAB01004)- - -

Obiectives: To get acquaintedwith the use of drafting software in engineeringdraw To acquire the concepts of orthographicprojections To know the concepts of isometricand oblique projections

Outcomes: After successfulcompletion of this course, students shouldbe able to Generate drawingswith the help of computer software Draft the orthographicprojections of a machine element Generate drawings on the isometric and oblique projections of mac elements

Detailed Syllabus

( Unit 1 Description 1 h a t :-1 Orthographic Projections, Sectional views of Orthographic 06

Prqections

2 Isometric Projections (14

3 ObliqueProjections :-Auxiliary views of Machine parts 03 I I

4 Introduction to Machine Parts: Types of nuts, bolts, screws, 02 studs and

I riveted joints1 Total 15

Text Books: d1. N.D.Bhat (2007),"Elementmy EngineeringDrawing", Charotar Publishin$ House, Reference Books:

1. M.B.Shah and B.C.Rana(2005), "Engineering Drawing", Pearson Educatio 2. T.Jeyapovan (2005),"Engineering Drawing and Graphics", Vikas Publish

House Pvt. Lfd. 3. H.G.Phakatkar (2011),"Engineering Graphics", Niralz Prakushan 4. K.Venugopal(2007),"Engineering Drawing and Graphics", New Age

International Publishers 5. K.L.Narayana and P.Kannaiah(1988),"Engineering Graphics", Tata -

SVKM'SNMIMS' Mukesh Patel School of Technology Management and Engineering

McGrm-Hill Co. Lfd., New DeZhi 6. Giesecke, Mitchell, Spencer and Hill (ZOOS),"Technical Drawing", Mamillan

Publishing Co. Inc. N m Ymk

Term Work: Term work should consists of the following

1. Total eight computer drafted A3 size drawing sheets consisting of 2 to 3 problems on each module and class assignments.

SVKM'SNMIMS' MukeshPatel School of Technology Management and Engineering

Assessment (ICA)

he-requisite: Engineering Mechanics-I(BTAB01005)

To know the conceptof centroid and momentof Inertia To get acquainted the dynamic system in equilibrium and the motion characteristics of particles To study the forces developed on bodies in motion

After successfulcompletion of this course, students should be able to Determine thecentroid and momentof Inertia of a plane area Evaluate the velocity, acceleration and displacementof a moving body Analyse the forces developed on the moving body

of thin wires &planeareas, parallel axis theorem. Introduction to

2.

3.

polar moment of inertia, product of inertia and mass moment of inertia. Kinematics of particle: Velocity and acceleration in terms of rectangular coordinate system, rectilinear motion, motion along plane curved path, tangential and &rrnal component of acceleration, acceleration - time ,velocity- time graphs and their uses, relative velocity, projectile motion, simple harmonic motion. Kinematics of rigid bodies: Translation, pure rotation and plane motion of rigid bodies, instantaneous centre of rotation for the velocity for bodies in plane motion, link mechanisms (upto two links).

12

06

10

SVKM'S NMIMS' Mukesh Pate1 Schoolof Technology Management and Engineering

4. Kinetics of particles: Newton's laws of motion, D'Alembert's principle, equation of dynamic equilibrium, linear motion, curvilinear motion. Kinetics of rigid bodies: D'Alernbert's principle for bodies under translational motion, rotational motion about a fixed axis and plane motion. Application to motion of bars, cylinders, spheres.

5. Energy and Momentum principles: Work done by a force, 10 potential and kinetic energy, power, work energy equation, principle of conservation of energy, momentum, principle of conservation of momentum, impact of solid bodies, elastic impact, semi-elastic impact and plastic impact. Total 45

Text Book: 1. Beer &Johnson (2011), 'Engineering Mechanics', Tafa McGraw Hill 2. R. C .Hibler (2004), "Engineering Mechanics", McMillan Publishers

Reference Books. 1. F.L. Singer (1954),'Engineering Mechanics', Harper & RmuPublicatiun 2. D. S. Kwnar (2009),"Engineering Mechanics", Tafa McGraw Hill 3. Macklin & Nelson (2012), "Engineering Mechanics", Tafa McGraw Hill 4. A. K. Tayal(2008), "Engineering Mechanics", UmeshPublicafion

Term Work: Term work should consists of the following

1. Minimum seven assignments covering the prescribed syllabus

I

SVKM'S(NM1MS) First Year 32 Mukesh Patel School ofTechnology Management 8 Engineering

Program: B. Tech. (All Branches) Semester : II

Course : Computer Programming-II Code :BTA802006 1

Objectives

To enable the students to understand the basic concepts of object oriented

Teaching Scheme

programming and help them build programming logic. To help them build classesand understand the re usability of classes.

Evaluation Scheme

Lecture

2

I Outcomes: I

Pre-requisite: Nil

Theory

(3 Hrs,

100Marks)

0

Practical

2

Internal Continuous Assessment (ICA)

As per Institute Norms

50

The students wil l also learn concepts of Filehandling and also generic programming using templates.

Detailed Syllabus

1 The students will learn problem solving and will be ableto model real-world problemsusing Object Oriented concepts. They will be able to write classes in C++ and programs based on the classes that will implement the various Object Oriented Concepts like operator and

Tutorial

0

t

Credit

3

function overloading, inheritance. The studentswill learn how to document programs so that they are easier to debug and maintain.

a Unit

.P I 2.

Description I I

3.

Duration

1.

Beginning with C++: What is C++?, Applications of C++, Structureof C++ Program, Creating, Compiling, Linking

2

Tokens, Expressionsand Control Structures: Basic DataTypes, User Defined DataTypes, Derived DataTypes,Variables, Operators in C++, Scope Resolution Operator, Manipulators, Control Structures

Prinaplesof Object Oriented Programming: SoftwareCrisis, SoftwareEvolution, Basic Conceptsof OOP

3

2

SVKM'S(NM1MS) First Year 33 M ukesh Patel School of Technology M anagement & Engineering

4. Functionsin C++: Function Prototyping, Call by Reference, 4 1

Return by Reference, lnline Functions, Default Arguments, Function Overloading, Friend and Virtual Functions

5. Classesand Objects: Specifying a Class, Memory Allocation for 2 Objects, Static Members, Arrays of Objects, Objects as Function Arguments, Returning Objects

6. Constructors& Destructors Constructors, Constructorsw ith 3 Default Arguments, Dynamic Initialization of Objects, Copy Constructor, DynamicConstructors, Destructors

7. Operator Overloading & Type Conversions: Overloading Unary 3 Operators, Overloading Binary Operators, Overloading Binary Operators Using Friends, Rulesfor Overloading Operators, Type Conversion

8. Inheritance: Defining Derived Classes, Single Inheritance, 4 Making Privatemember Inheritable, Multilevel, Multiple, Hierarchical, Hybrid Inheritance, Virtual BaseClasses, Abstrad Classes, Constructors in Derived Classes

9. Virtual Functionsand Polymorphism: Need for Virtual 3 Fundions, Pointer to Derived Classobject, Purevirtual Functions, Dynamicor Late Binding

10. File Handling: Files and Streams, Opening and Closing a File, 2 Sequential I/ 0 Operations

I I

11. Templates: Function Templates, ClassTernplates 2 I I

Total 30 1 I

Text Book:

1. E. Balaguruswamy, "Programming in ~ + + " , ~ a t & ~ f f i r a w Hil l Education, 5th Edition, 2011.

Reference Book:

1. Herbert Schildt, "The Complete Referen,ce C++", Tata McGraw Hill Education,4th Edition, 2003

Term Work:

I Asper Department and InstituteNormsfor Term-work

"external practical exam wil l beconducted.

SVKM'S (NMIMS) First Year 36 Mukesh Patel Schoolof Technology Management &Engineering

Program: B. Tech. (All Branches) Semester :I1

Course : Constitution of India I Code :BTAB02008 I

Teaching Scheme Evaluation Scheme

Theory Internal Continuous

Lecture Practical Tutorial Credit (3Hrs, Assessment (ICA)

100Marks) As per Institute Norms

2 0 0 0 0 50

Re- kite: NILL- . , . ~...

1 I Objectives:

1. To understand the basic asp& of the constitution of India, the evolution,

the directive principle & important provisions.

To understand the implications of important constitutional provision on

Business and Professionals.

Outcomes:

After successfulIycompletion of this course, students should be able to

I The students would learn basic aspects of constitution of India.

1 Also the students will be able to apply Constitutional provision on Business I l and their Professionals

Detailed Syllabus:

Unit Description Duration

6. The Constitution, its evolution including history of freedom 3

SVKM'S (NMIMS) First Year 37

Emergency provisions under article 370 & 371, safeguards for

minorities, Services under the Union and States, application to

Text Books: (Preferably1 or 2)

1. N. A. Palkhiwala, "We the People", 2009

Two class tests.

SVKM'S NMIMS' Mukesh Pate1School of Technology Management and Engineering

Program: B.Tech (AllBranches)

Course: Workshop Practice

Semester :I1

Code: BTAB02007

Lecture

Objectives: To impart hands on experience of different workshop practices on various trades. To impart knowledge of basic tools used for different workshop jobs To introduce basic concepts of electrical and electronic instruments and its applications

0

Outcomes: After successful completionof the course, students should be able to

Select appropriate tools for workshop jobs Decide suitable joining process required for the jobs.

r Carry out basic electrical wiring. Prepare PCBlayout I

Teaching Scheme

Practical

Detailed Syllabus

Evaluation Scheme

Pre-requisite: Nil 4

I Unit 1 Description I Duration

I I I I I

Tutorials

Trades, cutting, filing,

Edge preparation for welding jobs. Arc welding for different jobs like lap welding of two plates, butt-welding

Use of hand tools for sheet metal fabrication. Sheet metal fabrication of jobs involving cutting, shearing, bending,

0

Credit

2

Practical (2 Hrs, 50 Marks)

Internal Continuous Assessment (ICA)

As per Institution Norms

50 50 -

SVKM'SNMIMS' Mukesh Pate1 School of Technology Management and Engineering

5 W i 12 Study of cables used in Electrical and Electronic transmissions. Study of Electrical Fittings -Switches, Plugs, Holders, Connectors, Earthing Electrical Wiring for lighting and appliances Series and Parallel Connections. Total 60

Term Work: Minimum one job on each of the following:

1) Fitting 2) Ca??entry3) Welding - 8 ' ;-- ~

4) Sheet metal 5) Plastics 6) Wiring