sandip university

Sandip University Mahiravani, Trimbak Road, Tal & Dist. Nashik 422213, Maharashtra

School of Engineering & Technology

Course Structure for B.Tech. in Fire and Safety Engineering

Objectives

1 To solve system of linear equations using matrix methods

2 To understand complex numbers , hyperbolic functions and their representation

3 To solve Algebric and Transcendental equations by using complex numbers

4 To understand ordinary of higher orders and partial differentiation with their applications

5 To find extreme values of functions

Unit

Number Details Hours

1

Matrices: Rank of a Matrix using Echelon form, Reduction to normal form, System of Homogeneous and Non –

Homogeneous Equations, Linear Dependent and Independent vectors, Linear and Orthogonal Transformations, Eigen

values & Eigen vectors, Cayley-Hamilton Theorem. 8

2

Complex Numbers and Their Applications: Argand Diagram, De-Moivre’s Theorem, Roots of algebraic equations,

Hyperbolic Functions, Inverse Hyperbolic Functions, Separation into Real and Imaginary parts, Logarithm of Complex

Numbers. 8

3

Differential Calculus: Successive Differentiation, Leibnitz Rule, Taylor’s Series and Maclaurin’s Series, Indeterminate

Forms, L-Hospital’s Rule, Evaluation of limits. 8

4 Partial Differentiation and Its Applications: Partial derivatives, Euler’s Theorem on Homogeneous Functions, Implicit 8

School: Engineering and Technology Programme: B. Tech.(Common to all branches)

Year : First Year Semester: I

Course: Algebra and Differential Calculus Course Code: YFT101

Theory: 4Hrs/Week Max.University Theory Examination:50 Marks.

Max. Time for Theory Exam.:3 Hrs Continuous Internal Assessment: 50 Marks




Functions, Composite Theorems, Total Derivatives.

5

Jacobians, Errors and Extreme Values: Jacobians and their Applications, Errors and Approximations, Maxima and

Minima of Functions of Two variables, Lagrange’s method of undetermined multipliers 8

Total 40 Hrs

Resources

Recommended Books (1)Ervin Kreyszig, Advanced Engineering Mathematics, 10th edition, John Wiley and Sons.

(2)B.V.Ramana, Higher Engineering Mathematics, Tata-McGraw Hill

Reference Books

(1) Peter V. O'Neil, Advanced Engineering Mathematics, 7th edition, Cengage Learning.

(2) B. S. Grewal, Higher Engineering Mathematics, 43rd edition, Khanna Publishers.

(3) M.D.Greenberg , Advanced Engineering Mathematics, 3rd Edition,Pearson Education.




School: Engineering and Technology Programme: B.Tech.(Common to all branches)

Year : First Year Semester – I/II

Course: Engineering Physics Course Code: YFT102

Theory: 3Hrs/Week Max. University Theory Examination: 50 Marks

Max. Time for Theory Exam.: 3 Hrs Continuous Internal Assessment: 50 Marks

Objectives

1 To provide basic concepts to resolve engineering problems

2 To understand the trends and advances in technology

3 To study the basic concepts of physics and their engineering applications

4 To develop an ability to identify, formulate and solve physics and engineering problems

5 To improve mathematical and analytical ability with higer precision

Unit


1

OPTICS

Interference of light, Interference in thin films condition for maxima and minima, Newton’s rings, diameter of rings (no

derivation). Applications such as antireflection coating, interference filters, determination of linear coefficient of

expansion, determination wavelength and refractive index.

Fraunhoffer diffraction due to N slits, Diffraction grating condition for maxima and minima (no derivation), Rayleigh

criterion of resolution, resolving power of grating.

Polarisation - Phenomena of double refraction Huygen‘s theory of double refraction, casese of double refraction of crystal

with the optic axis lying in the plane of incidence and (I) parallel to surface (II) perpendicular to surface (III) inclined to

surface, Quarter & half wave plate, Polaroid, Optical rotation, specific rotation, faraday effect, Kerr effect, Liquid crystal

display,

8

2 LASER AND FIBER OPTICS 8




Unit


Laser - introduction, difference between ordinary source of light and laser. Properties of laser, Absorption, spontaneous

and stimulated emission, population inversion, pumping and types of pumping. Active medium, Components of laser.

Three level and four level system, Ruby laser, He-Ne laser, Applications of laser industrial, medical etc. Holography.

Fiber Optics: - introduction, Optical fiber- core, cladding, jacket. Propagation of light through optical fiber, Acceptance

angle. Types of optical fiber step index, graded index, monomode, and multimode. Numerical aperture of step index

optical fiber, losses in optical fiber. Advantages of optical fiber over copper wire. Applications of optical fiber, optical

fiber in communication (block diagram)

3

SOLIDS Introduction to formation of energy bands in

solids. Classification of solids, electrical conductivity in conductor and semiconductors. Influence of external factors on

conductivity (temperature, impurity), Hall effect. Superconductivity, properties of superconductor, Meissner effect, isotope

effect, persistent current, critical current density, critical magnetic field, BCS theory of superconductivity, type-I and type-

II superconductors. DC and AC Josephson effect, SQUIDS, application of superconductivity like magnets, transmission

line, levitation, etc.).

8

4

ELECTRON OPTICS AND ULTRASONICS

Motion of electron in Electric (Parallel and perpendicular field), Motion of electron in Magnetic field, electron refraction,

Motion of electron in crossed field, electron refraction Electrostatic and magnetostatic focusing , SEM microscope,

Ultrasonic, properties, Production, piezoelectric and magnetostriction method, detection of ultrasonic waves (Kundt’s tube

method and ultrasonic method). Applications echo sounding, gauge measurements, cavitation, flaw detection, industrial

applications welding, drilling, medical applications, Numerical

8

5

NEW ENGINEERING MAERIALS

Introduction, Classification of engineering materials, metallic glasses, types of metallic glasses, preparation, properties,

and applications. Shape memory alloys – Types of memory alloys, characteristic properties of shape alloys, applications.

Advantages and disadvantages

Introduction to nanomaterial, preparation of nano material, ball milling method, Chemical Vapor deposition method,

colloidal method, colloidal route, Introduction to transformation in properties of nano material like optical, electrical,

mechanical, magnetic. Applications of nanotechnology in auto mobile, medical field, electronics, textile, cosmetics.

Introduction to special nanomaterial: Carbon nano tubes, (CNT), classifications of CNT, properties of CNT, Applications

of CNT

8

Total 40




Resources

Recommended Books

1 A text book of Engg. Physics by M. N. Avadhalula and P. G. Kshirsagar, S. Chand Pub

2 Engg. Physics by Abhijit Nayak, S. K. Kataria and sons Pub 3 R. K. Gaur and S.C. Gupta, ‘Engineering Physics’ Dhanpat Rai Publications, New Delhi(2003)

Reference Books 1Engineering Physics, malik and singh, Tata Mc Graw Hill

2. A textbook of engineering Physics, Pillai, sivakami, new age International, limited




School: Engineering and Technology Programme: Bachelor of Technology

Year: First Year Semester: I/II

Course: Physics Laboratory Course Code: YFT102/YFT202

Practical: UG - 2 Hrs./Batch (20 Students) Term Work: 25 Marks

Objectives

1 To impart fundamental concepts of engineering physics.

2 To demonstrate quantitative problem solving skills in all the experiments covered.

3 To study and analyze the various phenomena in optics, sound, laser etc.

Sr. No. Description

1 To determine the wavelength of sodium light by Newton’s ring

2 To determine the wavelength of light by using plane diffraction grating

3 To determine optical rotation of optically active liquid

4 To determine the wavelength of laser by using plane diffraction grating

5 To Determine the sound absorption coefficient

6 To study Hall effect

7 To determine band gap of semiconductor

8 To determine velocity of sound in liquid by ultrasonic interferometer

9 To determine acceptance angle of optical fibre

10 To determine distance by ultrasonic method

11 To determine vertical sensitivity of CRT




Term Work

Term work is continuous assessment based on work done, submission of work in the form of report/journal, timely completion, attendance, and

understanding. It should be assessed by subject teacher of the institute. At the end of the semester, the final grade for a Term Work shall be

assigned based on the performance of the student and is to be submitted to the University.

Practical/Oral/Presentation:

Notes

1 Each student should perform at least 8 experiments from the list of experiments.

2 The experiments from the regular practical syllabus will be performed.

3 Complete laboratory journal/records.

4 Follow Good Laboratory Practices.




School: Engineering and Technology Programme: B.Tech

Year : First Year Semester: I/II

Course: Applied Chemistry Course Code: YFT103/YFT203



Objectives

1 The significance of pureness of water for domestic and industrial purposes and also study the techniques of waste water treatment.

2 Impart the knowledge of various analytical methods their instrumentation and applications in engineering field.

3 With the principles of polymer chemistry, students able to understand preparation, uses and applications of different special engineering

polymers.

4 The knowledge of corrosion of metal/alloy due to electrochemical interaction of metal / alloy with its

Environment, types and corrosion control by various methods

5 Get familiar with basic knowledge of solid state Chemistry.

Unit


1

WATER TECHNOLOGY

Resources of water, Types of impurities in water, hard water and hardness, determination of hardness (EDTA method

only), determination of chlorides in water, alkalinity of water, Numerical problems on alkalinity, hardness. Boiler

problems- scale, sludge, priming, foaming, caustic embritlment, and corrosion, causes, preventions, and

disadvantages. Water softening processes (external and internal treatment methods) – Zeolite process, Ion exchange

8




method, Desalination, Reverse osmosis & Electrodialysis. Phosphate conditioning, colloidal conditioning, calgon

conditioning for boiler feed water.

2

ANALYTICAL METHODS

Volumetric analysis –acid-base, complexometric, oxidation-reduction, precipitation– with specific examples, UV/Visible

Spectroscopy:- Introduction , interaction of radiation with matter , principle, instrumentation (single & double beam) UV/Visible

Spectroscopy:-Beer-Lambert's law, applications to colorimetry Types of electronic transitions- Chromophore, auxochrome ,

applications.

9

3

POLYMER

Degree of polymerisation, classification of polymers based on sources, composition, structure etc., Types of polymerisation-

addition and condensation polymerisation, free radical mechanism of addition polymerisation. compounding of plastics, glass

transition temperature and factors affecting it. Important polymers- Preparation, properties and Engineering uses.

Thermoplastics, Thermosetting plastics, polythene (LDPE and HDPE), Polycarbonate,Nylon-6,Nylon-66, , Rubber, processing

of natural rubber, vulcanization of rubber, synthetic rubber, Natural and synthetic rubber, Biodegradable polymers (PHBV)

Conducting polymers- ICP, ECP, and Liquid Crystalline polymers.

8

4 CORROSION SCIENCES

Introduction, types of corrosion, Mechanism of corrosion, Factors influencing corrosion, Methods of corrosion control,

Protective coating, Metallic coating, types of coating, methods of applications, on metallic coating: chemical conversion coating.

9

5 SOLID STATE

Crystal Structure and crystallography, Laws of crystallography, Numerical on millers indices, cubic crystal system, crystal

defects, X-ray diffraction – principle, X-ray diffraction of crystal, Bragg’s equation, Molecular electronics, band theory.

6

Total 40

Resources

Recommended

Books

1 Engineering Chemistry,P C Jain, Dhanpat ray Publishing Company, 15thEdition

2.Engineering Chemistry by O G Palanna, Tata Mc Graw Hill Education

PrivateLtd.

3. A Text book of Engineering Chemistry by Dr S S Dara, Dr S S Umare, S Chand

& company Ltd.

4. Engineering Chemistry - Sunita Rattan 5.Engineering Chemistry, K. Shesha Maheshwari, Mridula Chug, Pearson,2018




CO No. Course Outcomes ( Action verb should be in italics) Bloom’s taxonomy

CO 1

Categorize and apply suitable waste water treatment techniques. Able to identify boiler problems-scale,

sludge, priming and foaming, caustic embritterment and corrosion, their causes and prevention

Able to explain the internal treatment methods used for softing of hard water i.e. carbonate and

phosphate conditioning, colloidal conditioning,

Able to solve numericals on hardness, alkalinity.

Categorize and apply

CO 2

Explain the various analytical methods used in engineering field

Recall the methods used in analysis of coal

Describe the Volumetric analysis –acid-base titration by using pHmetry complexometric titration, oxidation-

reduction, by using potentiometric titration precipitation titration by using conductometry State the principle of UV/Visible Spectroscopy:-Beer-Lambert's law

Discuss different Types of electronic titrations and Define Chromophore, auxochrome

Explain instrumentation and applications of UV-Visible spectroscopy.

Explain & Remember

CO 3

. Reveal the knowledge of polymer materials for advanced engineering applications.

Classify the polymers,

Discuss the glass transition temperature and factors influencing Tg

Describe the synthesis and uses of some commercially important polymers like polythene,

Polycarbonate,Nylon-6,Nylon-66 Biodegradable polymer- PHBHV, and Liquid Crystalline polymer-Kevlar.

Exemplify elastomers, synthetic rubber and vulcanization.

Define and analyze

CO 4

Define and analyze engineering problems related corrosion and metal finishing in achieving a practical solution.

Identify and explain differential metal corrosion, differential aeration corrosion and stress corrosion.

List and categorize the various factors affecting the rate of corrosion.

Understand and apply the corrosion control methods. Explain the different methods of Metallic coating, methods of applications.

Classify

Reference Books 1. Corrosion Engineering ,Fontenna & Greene 2. Chemistry, Raymond Chang. (Tata McGraw Hill). 3. Principles of the solid state, H.V. Keer (New age International publishers).

4. Polymer Science, V.R. Gowarikar (Wiley Eastern Ltd.). 5.Text book of engineering chemistry, R.N. Goyal and Harrmendra Goel, Ane Books Pvt Ltd. (15 July 2009)




CO 5

Classification of solids, & packing in solids (fcc, bcc and hcp lattices), Differentiate between Electrical, magnetic and dielectric properties.

Define the various terms like Unit cell, Bravais lattices, Cubic crystals - CN, APF.

Describe the Three laws of crystallography.

Explain the Bragg’s Law and solve numericals on it.

Identify Crystal defects (point and line defects) and their effects on properties of crystals. Electrical, magnetic Properties.

Define and analize

Activities planned for achievement of outcomes:

Resources

Recommended Books

1 Engineering Chemistry,P C Jain, Dhanpat ray Publishing Company, 15th

Edition

2. Engineering Chemistry by O G Palanna, Tata Mc Graw Hill Education Private Ltd.

3. A Text book of Engineering Chemistry by Dr S S Dara, Dr S S Umare, S Chand & company Ltd.

4. Engineering Chemistry - Sunita Rattan

Reference Books

1. Corrosion Engineering ,Fontenna & Greene

2. Chemistry, Raymond Chang. (Tata McGraw Hill).

3. Principles of the solid state, H.V. Keer (New age International publishers).

4.Polymer Science, V.R. Gowarikar (Wiley Eastern Ltd.).

5. Text book of engineering chemistry, R.N. Goyal and Harrmendra Goe.

Activities to be selected from following list (Partial list, more activities can be added by faculty) Tick mark

1. Assignments ✓

2. Quizzes ✓

3. Internal Assessment Tests ✓

4. Fast revision by using PPTs ✓




School: Engineering & Technology Programme: Bachelor of Technology

Year: First Year Semester – I/II

Course: Chemistry Laboratory Course Code: YFT103/YFT203

Practical: UG - 2 Hrs./Batch (20 Students) Term Work: 25 Marks

Practical Objective

1 Identify and determination of type and amount of alkalinity in given water sample

2 Understanding corrosion phenomenon and determination of corrosion of metal

3 Determination of chloride content by Mohrs method

4 Performing titration of Strong acid Vs Weak base by using PH Meter

5 Determining Hardness of given water sample By EDTA method

6 Use of Ostwald’s viscometer for determination molecular weight of a polymer .

7 Preparation of phenol formaldehyde resin .

8 Detemine % of different constituents using Proximate Analysis of coal sample

9 Determination unknown concentration of CuSO4 solution by using Spectrophotometer.

Sr. No. Description

1 Determination of alkalinity of water sample.

2 Determination of electrochemical equivalent (ECE) of copper.

3 Determination of chloride contents by Mohr’s method.

4 Determination of PH of titration of Strong acid Vs Weak base by using PH Meter.




5 Determination of Hardness of given water sample By EDTA method

6 Determination molecular weight of a polymer using Ostwald viscometer.

7 Preparation of (any one ) polystyrene, urea formaldehyde, phenol formaldehyde resin and its characterization

8 Determination of Proximate Analysis of coal sample

9 Determination of Maximum wavelength of unknown concentration of CuSO4 solution by using Spectrophotometer.

Term Work:

Term work is continuous assessment based on work done, submission of work in the form of report/journal, timely completion, attendance, and

understanding. It should be assessed by subject teacher of the institute. At the end of the semester, the final grade for a Term Work shall be

assigned based on the performance of the student and is to be submitted to the University.

Term Work assessment shall be conducted for the Project, Tutorials and Seminar.

Notes


2 The experiments from the regular practical syllabus will be performed

3 Complete laboratory journal/records

4 Good Laboratory Practices





School : Engineering & Technology Programme : Bachelor of Technology


Course : Fundamentals of Electronics Engineering Course Code :YFT104/YFT204

Theory : 3 Hours / week Maximum Theory Examination : 50 Marks

Max. Time for Theory Exam : 3 Hrs Continuous Internal Assessment – 50 Marks

Objectives


2 To provide overview of semiconductor devices

3 Determine the behavior of analog and digital circuits

4 To determine the behavior of instrumentation and communication systems

Unit No. Name of Unit Hours

1

Electrical Concepts

Electrical Quantities , V-I relation in passive components , Kirchhoff’s Laws, Meters and Measurements,

Lumped Circuit Elements, A case study

8

2

Semiconductor Devices

Overview of Semiconductors - basic principle, Operation and characteristics of PN diode, Zener diode

and its application, BJT and its parameters, A Case Study

8

3

Analog Building Blocks

The Amplifier Block, Ideal Operational Amplifier, Practical Properties of Operational

Amplifiers,Applications of Operational Amplifiers, A case study

8

4

Digital Electronics

Number systems and binary codes, Logic Gates, Boolean algebra, Simplification of Boolean expression,

Implementation of Boolean expressions using logic gates, A case study

8

5

Industrial Electronics and Communication

Block diagrams of instrumentation System and Communication System, Selecting criteria and types of

transducer, Needs of modulation, Methods of modulation

8




Total 40 Hrs.

Basic Electronics Engineering Laboratory

Expt.No. Name of Experiment

1. To Study different electronics components–Resistors,Capacitors, Inductors, Switches

Transformers, Connectors.

2. Study of different electronic measuring instruments.

3. Study of regulated power supply.

4. Study of single stage BJT common emitter amplifier circuit.

5. Study of Op-Amp based Amplifier Circuits.

6 Study of Digital Circuits

7. Study of earthing techniques.

8. Build and Test Simple Application Circuit

Resources

Recommended Books Principle of Electronics by V K Mehta. S Chand; 7th Revised edition edition (1 February 2005)

Reference Books

1.Basic Electronics by J K Floyd

2.Linear integrated Circuits by Ramakant Gaikwad

3.Principles of Digital Electronics by R P Jain:-15

4.Electrical and Electronics Instrumentation System by A K Shwani

5.Electronics Communication Systems by Davis & Kennedy

School: Engineering & Technology Programme: Bachelor of Technology(B.Tech)

Year : First Year Semester -I

Course: Engineering Graphics Course Code: YFT106




Theory: 2 Hrs/Week Max. University Theory Examination: 50 Marks

Practical: 4 Hrs/Week Continuous Internal Assessment: 50 Marks

Max. Time for Theory Exam: 3 Hrs Term work : 25 Marks

Unit No. Details Hours

1

Introduction to Engineering Drawing

Significance and scope of Engineering Drawing, use of Drawing instruments, Sheet layout, lines, lettering,

Dimensioning. first angle & third angle method of projection

Engineering Curves: - Conic-sections-Ellipse, Parabola, Hyperbola Involute, Cycloid, Archimedean Spiral,

Helix on cone and cylinder.

6

2

Projection of lines and planes. A. Illustration of projection of straight line in 1st quadrant inclined to both planes. [Minimum 12 solved

examples]

B. Illustration of projection of plane in 1st quadrant inclined to both planes and resting in HP only. [Minimum 12

solved examples]

6

3

A. Projection of Solids:- Projection of Solid with the axis inclined to HP and VP. (Prism, Pyramid, Cylinder, Tetrahedron and Cone only)

(Exclude Spheres, Composite, Hollow solids and frustum of solids). Use change of position or Auxiliary plane

method.

B. B. Development of Lateral Surfaces (DLS): - Lateral surface development of Prism, Pyramid, Cylinder, and

Cone. (Exclude DLS of a solid with a hole in it, Sectioned solids and Reverse Development).

6

4

Orthographic Projection

A. Illustration of simple orthographic projection using 1st angle method. [Minimum

08 solved examples]

B. Illustration of sectional orthographic projection using 1st angle method. [Minimum

08solved examples]

6

5 Isometric Projection A.Illustration of Isometric projection with natural scale. [Minimum 08 solved examples]

B. Illustration of Isometric projection with isometric scale. [Minimum 08 solved examples]

6

Total 30




Sr. No. Course Outcomes

At the end of the course students should be able to,

1 Plan the layout of the drawing sheet and use appropriate line types, dimensions, lettering, and various drawing conventions.

2 Read and interpret the given data for converting in to projections

3 Convert given orthographic views into isometric views and vice versa

Sr. No. Description

1 Drawing Sheet – 1: Engineering Curves (4 Problems)

2 Drawing Sheet – 2: Projection of lines & planes (4 Problems)

3 Drawing Sheet – 3: Projection of Solids (2 Problems)

4 Drawing Sheet – 4: Orthographic Projection (2 Problems)

5 Drawing Sheet – 5: Sectional Orthographic Projections (2 Problems)

6 Drawing Sheet – 6: Isometric Views & projections (3 Problems)

Term Work:

Objectives

1 To develop the manual drawing skills using various drawing instruments.

2 To understand various concepts of projections.

3 To enhance imagination of physical objects for presentation on drawing sheet.




Term Work assessment shall be conducted for the Project, Tutorials and Seminar. Term work is continuous assessment based on work done,

submission of work in the form of report/journal, timely completion, attendance, and understanding. It should be assessed by subject teacher of

the institute. At the end of the semester, the final grade for a Term Work shall be assigned based on the performance of the student and is to be

submitted to the University.

Resources

Recommended Books

1. .N.D. Bhatt, "Engineering Drawing (Plane and solid geometry)", Charotar Publishing House Pvt. Ltd.

2. N.D. Bhatt & V.M. Panchal, "Machine Drawing", Charotar Publishing House Pvt. Ltd.

Reference Books

1. M.B Shah & B.C Rana, "Engineering Drawing", Pearson Publications.

2. P.J. Shah, "Engineering Graphics", S Chand Publications.

3. Dhananjay A Jolhe, "Engineering Drawing" Tata McGraw Hill.

4. T Jeyapoovan, “Engineering Drawing and Graphics Using Autocad”, Vikas Publication Noida, New Delhi.

5. Kannaiah K L, Narayana, “Engineering Graphics”, Scitech Publications, Chennai, 2nd Edition





Year : First Year Semester -I

Course: Basic Civil and Environment studies Course Code:YFT107


Max. Time for Theory Exam: 3 Hrs Continuous Internal Assessment: 50 Marks

Objectives

1 To develop the knowledge among students about civil engineering.

2 To make the students understand the fundamental areas of construction industry.

3 To develop awareness about environment.

Unit Number Details Hours

1

Introduction to Civil Engineering: Civil Engineering Infrastructure Projects, Role of Civil Engineers, Importance of an Interdisciplinary Approach.

Basic Areas in Civil Engineering: Surveying, Construction Engineering, Structural Engineering, Earthquake

Engineering, Geotechnical and Foundation Engineering, Quantity Surveying, Fluid Mechanics, Irrigation Engineering, Transportation Engineering, Environmental Engineering, Town Planning, Infrastructural

Development, Project Management, Remote Sensing

8

2

Materials of Construction: Stone, Bricks, Sand, Reinforcing Steel, Cement, Plain Cement Concrete,

Reinforced Cement Concrete, Prestressed Concrete (PSC), Precast Concrete, Introduction to Smart Materials, Recycling of Materials

Construction of Substructures & Superstructure: Functions of Foundation, Bearing Capacity, Types of Shallow

Foundations, Foundations Using Piles, Types of Loads on Superstructures, Types of Construction, Composite Construction

8

3

Introduction to Surveying & Levelling: Principles of survey, Different maps and its uses, Modern Survey

Methods, Introduction to Digital Mapping, Digital Planimeter for Measuring Areas from Maps.

Introduction to GIS & Other Survey Software: Data for GIS, Areas of GIS Applications, GIS based Software 8

4

Ecology & Ecosystem: Concept of Environment, Concept of Ecology and Ecosystem, Ecological Cycles

(Biogeochemical Cycles), Need to Conserve Natural Resources, Resource Conservation Practices, Environmental Impact Assessment (EIA), Solid Waste Management, Electronic Waste (E-waste) and its Disposal

Energy: Types of Energy Resources, Growing Energy Demands and Need for Alternate Energy Resources,

Methods of Harnessing Energy

8




Environmental Pollution & Its types

5 Planning For The Built Environment: Built Environment, Natural and Man-made Environment, Environmental Approach of Built Environment, Principles of Planning, Role of Bye-laws in Environmental Regulation, Use of

Various Eco-friendly Materials in Construction, Concept of Green Building

8

Total 40

Resources

Recommended Books 1.Basic Civil & Environmental Engineering, C. P. Kaushik, S. S. Bavikatti, New Age Int Pvt Ltd.

Reference Books

1.Surveying & Leveling, Kanitkar & Kulkarni, Pune Vidyarthi Pralkashan

2.Building planning & Built Environment, Shah, Kale & Patki, Tata Mc Graw

Hill

3. Civil Engineering Materials, S. V. Deodhar, khanna Publications.




Basic Civil and Environmental Studies Laboratory

Term Work shall comprise of a file and field book based on following exercises.

1. Study of different types maps along with application thereof.

2. Exercise on use of dumpy level

3. Area calculation of irregular shapes by digital planimeter.

4. Exercise on use of GPS

5. Visit to construction site to explore all aspects of civil engineering

6. Demonstration of various civil engineering software

7. Poster presentation by group of students, not more than 3, on Energy and Environment. Presentation by group of

students, not more than 3, on case study of Energy and Environment.





Year: First Year Semester - I

Course: Mechanical Workshop Practices Course Code : YFT108

Practical: - 2 Hrs./Week Term Work: 50 Marks

Objectives

1 To acquaint the students with the basic tools and processes practiced in Workshop.

2 To make students understand different manufacturing processes and machining operations.

3 To develop skills in the students to use different hand tools in carpentry,

fitting.

Sr. No. Description

1 Fitting (compulsory): Use and setting of fitting tools for chipping, cutting, filing, marking, center punching, drilling and tapping.

Term work to include one job involving following operations : filing to size, one simple male female joint, drilling and tapping

2

Carpentry (compulsory): Use and setting of hand tools like hacksaws, jack planes, chisels and gauges for construction of various

joints, wood tuning and modern wood turning methods.

Term work to include one carpentry job involving a joint and report on demonstration of a job involving wood turning

3 Forging (Smithy): At least one workshop practice job (Lifting hook and handle) is to be demonstrated.

4 Welding: Edge preparation for welding jobs. Arc welding for different job like, Lap welding of two plates, butt welding of plates

with simple cover, arc welding to join plates at right angles.(Demonstration only)

5 Sheet metal working and Brazing: Use of sheet metal, working hand tools, cutting, bending , spot welding.(Demonstration only)

6 Plumbing: Use of plumbing tools, spanners, wrenches, threading dies, demonstration of preparation of a domestic line involving

fixing of a water tap and use of coupling, elbow, tee, and union etc. (Demonstration only)




Sr. No. Course Outcomes

At the end of the course students should be able to,

1 Use measuring instruments for marking and sizing work pieces.

2 Plan, handle and use different hand tools effectively for required application.

3 Select appropriate process and machine tools for manufacturing of articles.

Term Work:

Term Work assessment shall be conducted for the Project, Tutorials and Seminar. Term work is continuous assessment based on work done,

submission of work in the form of report/journal, timely completion, attendance, and understanding. It should be assessed by subject teacher of

the institute. At the end of the semester, the final grade for a Term Work shall be assigned based on the performance of the student and is to be

submitted to the University.

Resources

Recommended Books 1. Chapman W. A. J. Workshop Technology (Vol. I, II and III). CBS Publishers and distributors.

Reference Books

1. Choudhary Hazara, A. K, Choudhary Hazara S. K.,& Roy, N. (1999). Elements Of Workshop Technology (Vol.

I). Media Promoters and publishers Pvt. ltd.

2. Choudhary Hazara, A. K, Choudhary Hazara S. K.,& Roy, N. (1999). Elements Of Workshop Technology (Vol.

I). Media Promoters and publishers Pvt. ltd.




Objectives

1 Understand and demonstrate the fundamentals of electromagnetism, single phase transformers,

electrostatics and A.C. and D.C. circuits

2 To acquaint students with the basic concepts and properties of electrical circuits and networks;

3 Understand and demonstrate the fundamentals of Electromagnetism

4 Provide solution for the network by applying various laws and theorems.

5 Apply concept of electromagnetism / electromagnetic induction for working of transformer

6 To inculcate the understanding about the AC fundamentals and solution of series and parallel circuits..

Unit No. Details Hours

1

General: Concepts of emf., p.d. and current, resistance, effect of temperature on resistance. resistance temperature

coefficient, insulation resistance. S.I. units of work, power and energy. Conversion of energy from one form to another in

electrical, mechanical and thermal systems.

8

2

Electromagnetism: Magnetic effect of an electric current, cross and dot conventions, right hand thumb rule and cork

screw rule, nature of magnetic field of long straight conductor, solenoid and toroid. concept of m.m.f., flux, flux density,

reluctance, permeability and field strength, their units and relationships. simple series and parallel magnetic circuits,

comparison of electrical and magnetic circuit.

Electromagnetic induction: Definition of Electromagnetic Induction, Faradays Laws, Fleming’s right hand rule, Lenz’s

Law, Statically and dynamically induced emf. Self-inductance, mutual inductance and coefficient of coupling. Energy

stored in magnetic field.

8


Year : First Year Semester - I

Course: Basic Electrical Engineering Course Code: YFT105


Practical: 2Hrs/Week Internal Assessment: 50 Marks

Max. Time for Theory Exam.: 3 Hrs Credit : 3




3

D.C.Circuits and Single phase Transformers :

D.C.Circuits :Classification of electrical networks, Ohm's law, Kirchhoff’s law and their applications for network

solutions. Simplifications of networks using series and parallel combinations and star-delta conversions, Superposition

theorem, Thevenin’s theorem and maximum power transfer theorem.

Single phase Transformers : Construction, principle of working, e.m.f. equation, voltageand current ratios. losses,

definition of regulation and efficiency, determination of these by direct loading method. descriptive treatment of

autotransformers and dimmerstats.

8

4

Electrostatics and AC fundamentals:

Electrostatics :Electrostatics field, electric flux density, electric field strength, absolute permittivity, relative

permittivity, capacitance and capacitor, composite dielectric capacitors, capacitors in series and parallel, energy stored in

capacitors, charging and discharging of capacitors and time constant.

AC fundamentals: Sinusoidal voltages and currents, their mathematical and graphical representation, Concept of

instantaneous, peak(maximum), average and r.m.s. values, frequency , cycle, period, peak factor and form factor, phase

difference ,lagging, leading and in phase quantities and phasor representation. rectangular and polar representation of

phasors.

8

5

Single phase A.C. Circuits and Polyphase A.C.Circuits: Study of A.C. circuits consisting of pure resistance, pure

inductance, pure capacitance and corresponding voltage-current phasor diagrams and waveforms. Development of

concept of reactance, study of series R-L, R-C, R-L-C circuit and resonance, study of parallel R-L, R-C and R-L-C

circuit, concept of impedance , admittance, conductance and susceptance in case of above combinations and relevant

voltage-current phasor diagrams, concept of active, reactive and apparent power and power factor.

Polyphase A.C.Circuits: Concept of three-phase supply and phase sequence. voltages, currents and power relations in

three phase balanced star-connected loads and delta-connected loads along with phasor diagrams.

8

Total 40

Resources

Recommended Books

B1. Basic Electrical Engineering by V.N. Mittale, Tata McGraw-Hill. B2. A Textbook of Electrical Technology Volume- I – B.L.Theraja, S.Chand and Company Ltd.,

New Delhi.

B3. Basic Electrical Engineering, V.K.Mehta, S.Chand and Company Ltd., New Delhi. B4. Electrical Engineering- G.K.Mittal.

Reference Books R1.Fundamentals of Electrical Engineering, Rajendra Prasad, PHI Third Edition 2014




R2. Fundamentals of Electrical Engineering and Electronics B. L. Theraja, S. Chand & Company Ltd, Reprint Edition 2013.

Resources

E Reference 1. NPTEL - Electrical Technology (web (pdf/Video lecture)

2. BasicElectricalEngg.wikispaces.com

COURSE OUT COME Domain Level

After completing course students are able to

CO1

Impart a fundamental knowledge of electrical quantities such as

current, voltage, power, energy to understand the impact of technology

in a global and societal context.

Cognitive Understanding & Remembering

CO2 Acquire basic knowledge of dealing with magnetic circuit and

calculation of its different parameters.


CO3 Capable to analyze the principle, Construction and operation of a single

phase transformer.


CO4 Analysis of Single Phase AC Circuits, the representation of alternating

quantities and determining the power in these circuits. Learn concept of electrostatics.


CO5 Analysis and solution of single phase and poly phase AC circuits with

independent sources






Year : First Year Semester - I

Course: Basic Electrical Engineering Course Code: YFT105

Practical: 2Hrs/Week Lab Continuous Internal Assessment: 25 Marks

Max. Time for Exam.: 2 Hrs Credit : 1

Practical Objective

1 To provide knowledge about electrical Wiring, its accessories & Lamps.

2 To provide knowledge of network theorem.

Sr. No. Description

1

1. Wiring Exercises: a) Study of various wiring components (wires, switches, fuse, sockets, plugs, lamp holders, lamps etc. their uses

and ratings).

b) Control of two lamps from two switches (looping system).

c) Staircase wiring.

d) Use of Megger for insulation test and continuity test of wiring installations and machines.

2

a) Study of fluorescent tube circuit.

b) Study of compact fluorescent lamp (CFL).

c) Study of HID lamps such as mercury vapour lamp /sodium vapour lamp.

3 a) Study of safety precautions while working on electric installations and necessity of earthing.

b) Introduction to energy conservation and simple techniques to achieve it.

4 Determination of temperature rise of medium resistance such as shunt field winding.

5 Verification of Kirchhoff’s laws and Superposition theorem.

6 Verification of Thevenin’s theorem.

7 Study of R. L. C. series circuits.

8 Verification of current relations in three phase balanced star and delta connected loads.




9 Single phase transformer a)Voltage and current ratios. b) Efficiency and regulations by direct loading.

Notes


2 The experiments from the regular practical syllabus will be performed. (15 Marks).

3 The regular attendance of students during the syllabus practical course will be monitored and marks will be given accordingly. (05

Marks).

4 Good Laboratory Practices. (05 Marks).

Term Work:

Term Work assessment shall be conducted for the Project, Tutorials, Industrial Visit report and Seminar. Term work is continuous

assessment based on work done, submission of work in the form of report/journal, timely completion, attendance, and understanding. It

should be assessed by subject teacher of the institute. At the end of the semester, the final grade for a Term Work shall be assigned based

on the performance of the student and is to be submitted to the University.

Course outcome

CO1 Students are expected to verify ratings for various components like CFL’s, fluorescent tube etc.

CO2 Students are expected to verify various laws using electrical instruments

CO3 Students are expected to perform open circuit and short circuit tests on transformers and get familiar with various electric

motors and their construction

CO4 To make the students to understand the circuit parameters and their influence.




Department: Humanities and Languages Programme: Bachelor of Technology

Year: First Year Semester - I

Course: English Communication and Soft Skills

- 1

Course Code:

Theory: 2 Hrs./Week Max. University Theory Examination: 50 Marks

Max. Time for Theory Exam: 3 Hrs. Continuous Internal Assessment: 50 Marks

Objectives

1 To help the students in building interpersonal skills.

2 To develop skills to communicate fluently.

3 To enhance team building and time management skills.

4 To inculcate employability skills among students.

Unit


1

Communication Skills a) Communication : Importance, barriers to communication, effective communication

b) Speaking Skills for different purposes

c) Listening Skills: listening to varied registers

d) Reading & Comprehension skills: short passages & stories e) Written Skills: Formal writing, picture composition, expansion of ideas, paragraph writing

6

2

Writing Correct Sentences in English

a) Parts of Speech b) Sentence Pattern

c) Antonyms and Synonyms- functional usage

d) Common errors in English

e) Passive Voice

6

3 Self Awareness & Self Development

a) Self Awareness: SWOT/SWOC

b) Goal setting

4




4

Corporate / Business Etiquettes a) Role Play

b) Conversational Skills- telephonic email,

c) Time Management

d) Application of modern electronic devices

6

5

Soft Skills a) Team work & Group skills

b) Stress Management

c) Body Language d) Interpersonal Skills

e) Interview Skills

8

Total 30

Resources

Recommended

Books

1. Communication Skills by Sanjay Kumar and PushpaLata, Oxford University Press. 2. Developing Communication Skill by Krishna Mohan, MeeraBanerji, McMillan India Ltd.

3. English for Business Communication by Simon Sweeney, Cambridge University Press.

Reference

Books

a) Ethics in Engineering Practice and Research by Caroline &Whitbeck, Cambridge University Press. b) Basic Managerial Skills by E. H. McGrath, Eastern Economy Edition, Prentice hall India.

c) Change Your Thoughts; Change Your Life by Wayne Dyer, Hay House India, ISBN-139788189988050.

d) The Power of Your Subconscious Mind by Dr Joseph Murphy MaanuGraphics , ISBN-13 9789381529560. e) Time Management from Inside Out by Julie Morgenstern, Owl Books (NY), ISBN-13 9780805075908.

f) You can win by Shiv Khera, Macmillan, ISBN-139789350591932.

Web

References

https://www.britishcouncil.in/sites/default/files/esfe_report.pdf

https://www.britishcouncil.org/sites/default/files/english-soft-skills-maghreb-research-report.pdf http://nptel.ac.in/courses/109104030/references/references.pdf

http://promeng.eu/downloads/training-materials/ebooks/soft-skills/effective-communication-skills.pdf

Journals

https://pdfs.semanticscholar.org/c1d3/e21ea8496e2d828678cde2981aac1bd4ce3e.pdf http://www.iosrjournals.org/iosr-jhss/papers/Vol11-issue4/D01142022.pdf

https://www.tandfonline.com/doi/abs/10.1080/18186874.2016.1248061

https://www.britishcouncil.in/sites/default/files/esfe_report.pdf

https://www.britishcouncil.org/sites/default/files/english-soft-skills-maghreb-research-report.pdf

http://nptel.ac.in/courses/109104030/references/references.pdf

http://promeng.eu/downloads/training-materials/ebooks/soft-skills/effective-communication-skills.pdf

https://pdfs.semanticscholar.org/c1d3/e21ea8496e2d828678cde2981aac1bd4ce3e.pdf

http://www.iosrjournals.org/iosr-jhss/papers/Vol11-issue4/D01142022.pdf

https://www.tandfonline.com/doi/abs/10.1080/18186874.2016.1248061


Phone: 02594-222541, 222582 Fax: 02594 222555

School: Engineering & Technology Programme: Bachelor of Technology(B.Tech)

Year : First Year Semester: I / II

Course: Applied Physics Course Code: YFT102/YFT202



Objectives

1 To understand the basic concepts of optics such as Interference, diffraction and polarization to

study their various applications.

2 To understand the basic concepts of Lasing mechanism to study different types of LASER,

total internal reflection t & construction and working of optical fibre.

3 To apply the basic concepts of semiconductor physics to determine conductivity and type of

semiconductors using Hall effect & qualitative description of the Meissner effect.

4 To understand the basic concepts of piezoelectric effect and Magnetostriction for the

production of Ultrasonic waves.

5 To study the properties and applications of various materials.

Unit

Numbe

r

Details Hours

1

OPTICS

Interference: Interference of light, Interference in thin films condition for

maxima and minima, wedge shape film, Newton’s rings, Derivation for

diameter of newton rings. Applications such as antireflection coating,

interference filters, determination wavelength and refractive index.

Diffraction: Diffraction of waves, Classification of diffraction, Fraunhoffer

diffraction due to single slits, condition for maxima and minima, Diffraction

grating, Intensity pattern due to single slit.

Polarisation: unpolarized light, Polarized, Partially polarized and Plane

polarized, Uniaxial crystals double refraction; Huygen‘s theory of double

refraction, cases of double refraction of crystal with the optic axis lying in the

plane of incidence and (I) parallel to surface (II) perpendicular to surface (III)

inclined to surface, Quarter and half wave plates, Optical rotations and

specific rotations, Numericals

9

2

LASER AND FIBER OPTICS

LASER: Introduction, Properties of laser, Mechanism of LASER: Absorption,

spontaneous and stimulated emission, population inversion, pumping, types of

pumping, Ruby laser, He-Ne laser, Applications of LASER (List). Fiber Optics: Introduction, Optical fiber: Construction, working principle and

propagation of light through optical fiber, concept of acceptance angle and

Numerical aperture. Types of optical fiber (SMSI, MMSI, MMGI), applications of

optical fiber (list), Numericals.

8


Phone: 02594-222541, 222582 Fax: 02594 222555

3

SOLIDS

Introduction to formation of energy bands in solids, Classification of solids,

electrical conductivity in conductor and semiconductors. Influence of external

factors on conductivity (temperature, impurity), Hall effect, Numericals

Superconductivity: Properties of superconductor: Meissner effect, isotope

effect, persistent current, critical magnetic field, BCS theory of

superconductivity, type-I and type-II superconductors. DC and AC Josephson

effect, application of superconductivity (List), Numericals.

8

4

ULTRASONICS

Introduction, Properties of ultrasonic waves, Production of ultrasonic waves:

piezoelectric and Magnetostriction method, Detection of ultrasonic waves:

Kundt’s tube method and ultrasonic method, Applications of ultrasonic waves:

gauge measurements, flaw detection, industrial applications welding, drilling,

medical applications, Numericals.

5

5

NEW ENGINEERING MAERIALS AND NANOTECHNOLOGY

Introduction, Classification, properties and applications of engineering

materials (Metals and alloys, Ceramics, glasses, and glass-ceramics, Polymers,

Semiconductors, Composite materials).

Introduction to nanomaterials, Defination: Nanoscience, Nanotechnology,

Surface to Volume Ratio, Classification of synthesis methods of nanomaterial,

Top-down Fabrication, Bottom-up Fabrication, ball milling method, Physical

Vapor deposition method, colloidal route method, Introduction to

transformation in properties of nanomaterial like optical, electrical, mechanical,

magnetic, applications of nanotechnology in auto mobile, medical field,

electronics, textile, cosmetics.

10

Total 40

Resources

Recommended Books 1.A text book of Engg. Physics by M. N. Avadhalula and P. G.

Kshirsagar,Chand Pub

2.Engg. Physics by Abhijit Nayak, S. K. Kataria and sons Pub

3.R. K. Gaur and S.C. Gupta, ‘Engineering Physics’ Dhanpat Rai

Publications, New Delhi(2003)

Reference Books 1.Engineering Physics, malik and singh, Tata Mc Graw Hill

2.A textbook of engineering Physics, Pillai, sivakami, new age

International, limited.

COURSE OUTCOMES-Upon completion of this course the students will:

CO1: know the nature of light with the help of interference, diffraction and polarization.

CO2: understand construction and working of Ruby, He-Ne lasers.

CO3: discuss the properties such as of materials as a function of temperature.

CO4: explain the production and various applications of ultrasonic waves.

CO5: familiar with the synthesis method, properties and applications of new engineering materials in

nano form.


Phone: 02594-222541, 222582 Fax: 02594 222555


Activities to be selected from following list (Partial list, more activities can be added by faculty)

1. Assignments

2. Quizzes

3. Internal Assessment Tests

4. Course Seminar

5. Case Studies

6. Viva-Voce



Course: Physics Laboratory Course Code: YFT102/YFT202

Practical: UG - 2 Hrs./Batch (20

Students)

Term Work: 25 Marks

Practical Objective

1 To impart fundamental concepts of engineering physics

2 To demonstrate quantitative problem solving skills in all the experiments

covered

3 To study and analyze the various phenomena in optics, sound, laser etc

Sr.

No.

Description


Phone: 02594-222541, 222582 Fax: 02594 222555

1 To determine the wavelength of sodium light by Newton’s ring

2 To determine the wavelength of light by using plane diffraction grating

3 To determine optical rotation of optically active liquid

4 To determine the wavelength of laser by using plane diffraction grating

5 To Determine the sound absorption coefficient

6 To study Hall effect

7 To determine band gap of semiconductor

8 To determine velocity of sound in liquid by ultrasonic interferometer

9 To determine acceptance angle of optical fibre

10 To determine distance by ultrasonic method

11 To determine vertical sensitivity of CRT

Term Work:

Term work is continuous assessment based on work done, submission of work in the form of

report/journal, timely completion, attendance, and understanding. It should be assessed by

subject teacher of the institute. At the end of the semester, the final grade for a Term Work

shall be assigned based on the performance of the student and is to be submitted to the

University.


Notes




4 Follow Good Laboratory Practices


Phone: 02594-222541, 222582 Fax: 02594 222555

School: School of Engineering Programme: B.Tech


Course: Applied Chemistry Course Code: YFT103/YFT203



Objectives

1 The significance of pureness of water for domestic and industrial purposes and also study the

techniques of waste water treatment.

2 Impart the knowledge of various analytical methods their instrumentation and applications in

engineering field.

3 With the principles of polymer chemistry, students able to understand preparation, uses and

applications of different special engineering polymers.

4 The knowledge of corrosion of metal/alloy due to electrochemical interaction of metal / alloy

with its

Environment, types and corrosion control by various methods

5 Get familiar with basic knowledge of solid state Chemistry.

Unit

Numbe

r

Details Hours

I UNIT-I : WATER TECHNOLOGY

Resources of water, Types of impurities in water, hard water and hardness,

determination of hardness (EDTA method only), determination of chlorides

in water, alkalinity of water, Numerical problems on alkalinity, hardness.

Boiler problems- scale, sludge, priming, foaming, caustic embritlment, and

corrosion, causes, preventions, and disadvantages. Water softening processes

(external and internal treatment methods) – Zeolite process, Ion exchange

8 Hrs


Phone: 02594-222541, 222582 Fax: 02594 222555

method, Desalination, Reverse osmosis & Electrodialysis. Phosphate

conditioning, colloidal conditioning, calgon conditioning for boiler feed

water.

II UNIT-II: ANALYTICAL METHODS

Volumetric analysis –acid-base, complexometric, oxidation-reduction,

precipitation– with specific examples, UV/Visible Spectroscopy:-

Introduction , interaction of radiation with matter , principle, instrumentation

(single & double beam) UV/Visible Spectroscopy:-Beer-Lambert's law,

applications to colorimetry Types of electronic transitions- Chromophore,

auxochrome , applications.

9 Hrs

III UNIT III: POLYMER

Degree of polymerisation, classification of polymers based on sources,

composition, structure etc., Types of polymerisation- addition and

condensation polymerisation, free radical mechanism of addition

polymerisation. compounding of plastics, glass transition temperature and

factors affecting it. Important polymers- Preparation, properties and

Engineering uses. Thermoplastics, Thermosetting plastics, polythene (LDPE

and HDPE), Polycarbonate,Nylon-6,Nylon-66, , Rubber, processing of

natural rubber, vulcanization of rubber, synthetic rubber, Natural and

synthetic rubber, Biodegradable polymers (PHBV) Conducting polymers-

ICP, ECP, and Liquid Crystalline polymers.

8 Hrs

IV UNIT IV:CORROSION SCIENCES

Introduction, types of corrosion, Mechanism of corrosion, Factors

influencing corrosion, Methods of corrosion control, Protective coating,

Metallic coating, types of coating, methods of applications, on metallic

coating: chemical conversion coating.

9 Hrs

V UNIT-V:SOLID STATE

Crystal Structure and crystallography, Laws of crystallography, Numerical

on millers indices, cubic crystal system, crystal defects, X-ray diffraction –

principle, X-ray diffraction of crystal, Bragg’s equation, Molecular

electronics, band theory.

6 Hrs


Phone: 02594-222541, 222582 Fax: 02594 222555

Total

40

Resources

Recommended

Books

1 Engineering Chemistry,P C Jain, Dhanpat ray Publishing Company, 15th

Edition

2.Engineering Chemistry by O G Palanna, Tata Mc Graw Hill Education

PrivateLtd.

3. A Text book of Engineering Chemistry by Dr S S Dara, Dr S S Umare, S Chand

& company Ltd.


5.Engineering Chemistry, K. Shesha Maheshwari, Mridula Chug, Pearson,2018

Reference Books 1. Corrosion Engineering ,Fontenna & Greene 2. Chemistry, Raymond Chang. (Tata McGraw Hill). 3. Principles of the solid state, H.V. Keer (New age International publishers).

4. Polymer Science, V.R. Gowarikar (Wiley Eastern Ltd.).

5.Text book of engineering chemistry, R.N. Goyal and Harrmendra Goel, (Ane books In

CO

No.

Course Outcomes ( Action verb should be in italics)

Bloom’s

taxonomy

CO-

1

Categorize and apply suitable waste water treatment techniques. Able

to identify boiler problems-scale, sludge, priming and foaming,

caustic embritterment and corrosion, their causes and prevention

Able to explain the internal treatment methods used for softing of

hard water i.e. carbonate and phosphate conditioning, colloidal

conditioning,

Able to solve numericals on hardness, alkalinity.

Categorize

and apply


Phone: 02594-222541, 222582 Fax: 02594 222555

CO-

2

Explain the various analytical methods used in engineering field

Recall the methods used in analysis of coal

Describe the Volumetric analysis –acid-base titration by using pHmetry

complexometric titration, oxidation-reduction, by using potentiometric

titration precipitation titration by using conductometry

State the principle of UV/Visible Spectroscopy:-Beer-Lambert's law

Discuss different Types of electronic titrations and Define

Chromophore, auxochrome

Explain instrumentation and applications of UV-Visible spectroscopy

Explain &

Remembe

r

CO-

3

. Reveal the knowledge of polymer materials for advanced engineering

applications. Classify the polymers,

Discuss the glass transition temperature and factors influencing Tg

Describe the synthesis and uses of some commercially important

polymers like polythene, Polycarbonate,Nylon-6,Nylon-66

Biodegradable polymer- PHBHV, and Liquid Crystalline polymer-Kevlar.

Exemplify elastomers, synthetic rubber and vulcanization

Define and

analyze

CO-

4

Define and analyze engineering problems related corrosion and metal

finishing in achieving a practical solution

Identify and explain differential metal corrosion, differential aeration

corrosion and stress corrosion

List and categorize the various factors affecting the rate of corrosion

Understand and apply the corrosion control methods Explain the different methods of Metallic coating, methods of

applications

Classify

CO-

5

Classification of solids, & packing in solids (fcc, bcc and hcp lattices), Differentiate between Electrical, magnetic and dielectric properties.

Define the various terms like Unit cell, Bravais lattices, Cubic crystals -

CN, APF

Describe the Three laws of crystallography

Explain the Bragg’s Law and solve numericals on it Identify Crystal defects (point and line defects) and their effects on

properties of crystals. Electrical, magnetic Properties.

Define and

analize

Resources

Recommended

Books

1 Engineering Chemistry,P C Jain, Dhanpat ray Publishing Company,

15th

Edition 2. Engineering Chemistry by O G Palanna, Tata Mc Graw Hill Education

Private Ltd.


Phone: 02594-222541, 222582 Fax: 02594 222555


3. A Text book of Engineering Chemistry by Dr S S Dara, Dr S S Umare,

S Chand & company Ltd.


Reference Books 1. Corrosion Engineering ,Fontenna & Greene

2. Chemistry, Raymond Chang. (Tata McGraw Hill).

3. Principles of the solid state, H.V. Keer (New age International

publishers).

4.Polymer Science, V.R. Gowarikar (Wiley Eastern Ltd.).

5. Text book of engineering chemistry, R.N. Goyal and Harrmendra

Goel, (Ane books In

Activities to be selected from following list (Partial list, more activities

can be added by faculty) Tick mark

1. Assignments ✓

2. Quizzes ✓

3. Internal Assessment Tests ✓

4. Fast revision by using PPTs ✓


Phone: 02594-222541, 222582 Fax: 02594 222555

School: Engineering Programme: Bachelor of Technology


Course: Chemistry Laboratory Course Code: YFT103/YFT203

Practical: UG - 2 Hrs./Batch (20

Students)

Term Work: 25 Marks

Practical Objective

1 Identify and determination of type and amount of alkalinity in given water sample

2 Understanding corrosion phenomenon and determination of corrosion of metal

3 Determination of chloride content by Mohrs method

4 Performing titration of Strong acid Vs Weak base by using PH Meter

5 Determining Hardness of given water sample By EDTA method

6 Use of Ostwald’s viscometer for determination molecular weight of a polymer .

7 Preparation of phenol formaldehyde resin and its characterization

8 Detemine % of different constituents using Proximate Analysis of coal sample

9 Determination unknown concentration of CuSO4 solution by using

Spectrophotometer.

Sr.

No.

Description


Phone: 02594-222541, 222582 Fax: 02594 222555

1 Determination of alkalinity of water sample.

2 Determination of corrosion of metal in different PH solution.

3 Determination of chloride contents by Mohr’s method.

4 Determination of PH of titration of Strong acid Vs Weak base by using PH Meter.

5 Determination of Hardness of given water sample By EDTA method

6 Determination molecular weight of a polymer using Ostwald viscometer.

7 Preparation of (any one ) polystyrene, urea formaldehyde, phenol formaldehyde resin

and its characterization

8 Determination of Proximate Analysis of coal sample

9 Determination of Maximum wavelength of unknown concentration of CuSO4

solution by using Spectrophotometer.

Term Work:

Term work is continuous assessment based on work done, submission of work in the form of

report/journal, timely completion, attendance, and understanding. It should be assessed by

subject teacher of the institute. At the end of the semester, the final grade for a Term Work

shall be assigned based on the performance of the student and is to be submitted to the

University.

Term Work assessment shall be conducted for the Project, Tutorials and Seminar.

Notes




4 Good Laboratory Practices



Phone: 02594-222541, 222582 Fax: 02594 222555

School : Engineering & Technology Programme : Bachelor of Technology

Year : First Year Semester - II

Course : Fundamentals of Electronics Engineering Course Code : YFT204

Theory : 3 Hours / week Maximum Theory Examination : 50 Marks

Max. Time for Theory Exam : 3 Hrs Continuous Internal Assessment – 50 Marks

Objectives


2 To provide overview of semiconductor devices

3 Determine the behavior of analog and digital circuits

4 To determine the behavior of instrumentation and communication systems

Unit

No. Name of Unit

1 Semiconductor Devices Overview of Semiconductors - basic principle, Operation and characteristics of PN diode, Zener diode and its

application, BJT and its parameters, A Case Study

2 Analog Building Blocks The Amplifier Block, Ideal Operational Amplifier, Practical Properties of Operational Amplifiers,


Phone: 02594-222541, 222582 Fax: 02594 222555

Applications of Operational Amplifiers, A case study

3 Digital Electronics Number systems and binary codes, Logic Gates, Boolean algebra, Simplification of Boolean expression, Implementation of Boolean expressions using logic gates, A case study

4 Industrial Electronics and Communication Block diagrams of instrumentation System and Communication System, Selecting criteria and types of transducer, Needs of modulation, Methods of modulation .

5 Electrical Concepts Electrical Quantities , V-I relation in passive components , Kirchhoff’s Laws, Meters and Measurements, Lumped Circuit Elements, A case study

Total

Fundamentals of Electronics Engineering Practicals

Expt.No. Name of Experiment

1. To Study different electronics components–Resistors,Capacitors, Inductors, Switches Transformers, Connectors.

2. Study of different electronic measuring instruments.

3. Study of regulated power supply.

Resources Recommended Books Principle of Electronics by V K Mehta

Reference Books

1.Basic Electronics by J K Floyd 2.Linear integrated Circuits by Ramakant Gaikwad 3.Principles of Digital Electronics by R P Jain:-15 4.Electrical and Electronics Instrumentation System by A K Shwani 5.Electronics Communication Systems by Davis & Kennedy


Phone: 02594-222541, 222582 Fax: 02594 222555

4. Study of single stage BJT common emitter amplifier circuit.

5. Study of Op-Amp based Amplifier Circuits.

6 Study of Digital Circuits

7. Study of earthing techniques.

8. Build and Test Simple Application Circuit

School: Engineering & Technology Programme: B.Tech (Electrical Engg.)

Year : First Year Semester - II

Course: Fundamentals of Electrical Engineering Course Code: YF205


Practical: 2Hrs/Week Internal Assessment: 50 Marks

Max. Time for Theory Exam.: 3 Hrs Credit : 3

Objectives

1 Understand and demonstrate the fundamentals of electromagnetism, single phase transformers, electrostatics

and A.C. and D.C. circuits

2 To acquaint students with the basic concepts and properties of electrical circuits and networks;

3 Understand and demonstrate the fundamentals of Electromagnetism

4 Provide solution for the network by applying various laws and theorems.

5 Apply concept of electromagnetism / electromagnetic induction for working of transformer

6 To inculcate the understanding about the AC fundamentals and solution of series and parallel circuits..

Unit

No. Details Hours

I General: Concepts of emf., p.d. and current, resistance, effect of temperature on resistance.

resistance temperature coefficient, insulation resistance. S.I. units of work, power and

energy. Conversion of energy from one form to another in electrical, mechanical and

thermal systems.

8

II Electromagnetism: Magnetic effect of an electric current, cross and dot conventions, right

hand thumb rule and cork screw rule, nature of magnetic field of long straight conductor,

solenoid and toroid. concept of m.m.f., flux, flux density, reluctance, permeability and field

strength, their units and relationships. simple series and parallel magnetic circuits,

8


Phone: 02594-222541, 222582 Fax: 02594 222555

comparison of electrical and magnetic circuit.

Electromagnetic induction: Definition of Electromagnetic Induction, Faradays Laws,

Fleming’s right hand rule, Lenz’s Law, Statically and dynamically induced emf. Self-

inductance, mutual inductance and coefficient of coupling. Energy stored in magnetic field.

III D.C.Circuits and Single phase Transformers : D.C.Circuits :Classification of electrical networks, Ohm's law, Kirchhoff’s law and their

applications for network solutions. Simplifications of networks using series and parallel

combinations and star-delta conversions, Superposition theorem, Thevenin’s theorem and

maximum power transfer theorem. Single phase Transformers : Construction, principle of working, e.m.f. equation,

voltageand current ratios. losses, definition of regulation and efficiency, determination of

these by direct loading method. descriptive treatment of autotransformers and dimmerstats.

8

IV Electrostatics and AC fundamentals:

Electrostatics :Electrostatics field, electric flux density, electric field strength, absolute

permittivity, relative permittivity, capacitance and capacitor, composite dielectric

capacitors, capacitors in series and parallel, energy stored in capacitors, charging and discharging of capacitors and time constant.

AC fundamentals: Sinusoidal voltages and currents, their mathematical and graphical

representation, Concept of instantaneous, peak(maximum), average and r.m.s. values, frequency , cycle, period, peak factor and form factor, phase difference ,lagging, leading

and in phase quantities and phasor representation. rectangular and polar representation of

phasors.

8

V Single phase A.C. Circuits and Polyphase A.C.Circuits: Study of A.C. circuits

consisting of pure resistance, pure inductance, pure capacitance and corresponding voltage-

current phasor diagrams and waveforms. Development of concept of reactance, study of

series R-L, R-C, R-L-C circuit and resonance, study of parallel R-L, R-C and R-L-C

circuit, concept of impedance , admittance, conductance and susceptance in case of above

combinations and relevant voltage-current phasor diagrams, concept of active, reactive and

apparent power and power factor.

Polyphase A.C.Circuits: Concept of three-phase supply and phase sequence. voltages,

currents and power relations in three phase balanced star-connected loads and delta-

connected loads along with phasor diagrams.

8

Total 40

Resources

Recommended Books B1. Basic Electrical Engineering by V.N. Mittale, Tata McGraw-Hill

B2. A Textbook of Electrical Technology Volume- I – B.L.Theraja, S.Chand and

Company Ltd., New Delhi

B3. Basic Electrical Engineering, V.K.Mehta, S.Chand and Company Ltd., New Delhi. B4. Electrical Engineering- G.K.Mittal

Reference Books R1.Fundamentals of Electrical Engineering, Rajendra Prasad, PHI Third Edition 2014

R2. Fundamentals of Electrical Engineering and Electronics B. L. Theraja, S. Chand & Company Ltd, Reprint Edition 2013.

Resources

E Reference 1. NPTEL - Electrical Technology (web (pdf/Video lecture)

2. BasicElectricalEngg.wikispaces.com


Phone: 02594-222541, 222582 Fax: 02594 222555

COURSE OUT COME Domain Level After completing course students are able to

CO1

Impart a fundamental knowledge of electrical quantities such as

current, voltage, power, energy to understand the impact of technology

in a global and societal context.


CO2 Acquire basic knowledge of dealing with magnetic circuit and calculation of its different parameters.


CO3 Capable to analyze the principle, Construction and operation of a single phase transformer.


CO4 Analysis of Single Phase AC Circuits, the representation of alternating quantities and determining the power in these circuits. Learn concept of

electrostatics.


CO5 Analysis and solution of single phase and poly phase AC circuits with independent sources


School:Engineering & Technology Programme: Bachelor of Technology(B.Tech)

Year : First Year Semester -II

Course:Fundamentals of Mechanical Engineering Course Code: YFT206



Objectives

1 To revise the concept of physical quantities their measurement and acquire knowledge of various machine

elements.

2 To get acquainted with the basic concepts of thermal engineering.

3 To understand the working principle and applications of energy conversion devices.

4 To understand the function of various machine elements and their applications.

5 To learn the working of various machining process and machine tools.

Unit

Number Details

1 Fundamental Units & Measurements

Fundamental units (7 Basic), Derived units (force, pressure, stress, work, energy, velocity, power).

Machine elements:

Machine, Machine Elements – Shaft (Machine and Transmission shaft), axle, keys (Sunk key),

bearings (Ball Bearing), coupling (Rigid Flanged Coupling), brake (Disc Brake).

Power Transmission Devices:

Belt drives (Flat belt and V-belt), Chain drive (Roller Chain), Gears (Spur Gear, Helical Gear, Bevel,

Rack and Pinion), friction clutch (Single plate).


Phone: 02594-222541, 222582 Fax: 02594 222555

2 Introduction to Thermal Engineering:

Thermodynamics:

System, process, cycle,properties, point function, path function, concept of mechanical work & heat,

heat engine, heat pump & refrigerator, Efficiency & COP, laws of thermodynamics (Zeroth and First)

Heat Transfer Modes: Conduction, Convection and Radiation (Introductory)

Numerical treatment: Heat engine, Heat pump, Refrigerator

3 Energy Conversion Devices

Energy Producing Devices:

Boilers (Cochron and Babcok-Wilcox), I.C. Engines – Two stroke and Four stroke (Diesel and Petrol)

Power Absorbing Devices: Pumps (Reciprocating and Centrifugal),Compressor (Reciprocatingand

centrifugal compressors), Household Refrigerator, Air Conditioner (Window and Split).

4 Design Fundamentals &Engineering Materials

Design fundamentals: Design concept, Design considerations.

Mechanisms: Kinematic Link, Kinematic pair, Kinematic Chain, Mechanisms (Four bar & Slider

crank).

Materials: material properties, basic classification, Ferrous alloys (Cast Iron and Alloy Steel), Non

Ferrous alloys (Aluminum alloy), Non-metals (Rubber, Leather, Asbestos, Ceramics), Introduction to

composites.

5 Manufacturing processes & Machine Tools

Manufacturing Processes:Casting (sand casting), Forging (press forging), Sheet metal working

Metal joining processes: Welding (Electric Arc Welding), soldering & brazing

Machine Tools:

Conventional: Lathe Machine (Center Lathe), Drilling Machine (Radial drilling machine)& Grinding

Machine (center less grinding machine)

Non-conventional Machining method:Introduction to NC, CNC.

Total

Resources

Recommended Books 1. P. K. Nag, Basic And Applied Thermodynamics, Tata McGraw -Hill Publication Co. Ltd

2. Pravin Kumar - Basic Mechanical Engineering

3. Michael Clifford, Kathy Simmons and Philip Shipway - An Introduction To Mechanical

Engineering Part I.

4. Ganesan - Internal Combustion Engines, TMH

Reference Books

1. .Narula - Material Science, Tata McGraw -Hill Publication Co. Ltd

2. HajraChoudhary, Elements of Workshop Technology.

3. S. S. Rattan, Theory of Machines, Tata McGraw-Hill Publication Co. Ltd.


Phone: 02594-222541, 222582 Fax: 02594 222555

School: School of Engineering and Technology Programme:Bachelor of Technology(B.Tech)

Year: First Year Semester – II

Course: Fundamentals of Mechanical Engineering Course Code-YFT206

Practical: - 2 Hrs./Week Term Work: 25 Marks

Sr. No. Description

1 Study of Machine Elements (Bearing, Coupling and Brake)

2 Study of Power transmission devices (Belt Drive and Gear Drive)

3 Study of Babcock-Wilcox Boiler.

4 Study of I.C. Engines

5 Study of Pumps (Reciprocating and Centrifugal Pump)

6 Study of Four bar Mechanisms and their inversions.

7 Study of Welding process(Electric Arc Welding).

8 Study of Lathe Machine.

9 Presentation on any recent topic related to mechanical engineering

Term Work:

Term Work assessment shall be conducted for the Project, Tutorials and Seminar. Term work is continuous

assessment based on work done, submission of work in the form of report/journal, timely completion, attendance, and

understanding. It should be assessed by subject teacher of the institute. At the end of the semester, the final grade for

a Term Work shall be assigned based on the performance of the student and is to be submitted to the University.

Notes

1 Each student should perform any eight of the above experiments.

2 The regular attendance of students during the syllabus practical course will be monitored and marks

will be given accordingly (05 Marks).

3 Good Laboratory Practices (05 Marks)


Phone: 02594-222541, 222582 Fax: 02594 222555

School: School of Engineering & Technology Programme: Civil Engineering

Year : FY Semester - II

Course: Engineering Mechanics Course Code:YFT207

Theory: 3Hrs/Week & 01Tutorial Max. University Theory Examination: 50

Marks


Objectives

1 To develop the ability of students to analyze any problem in a simple and logical manner.

2 To make the students understand the fundamental principles of mechanics which are the foundation of much of

today’s engineering.

3 To develop the competency to predict the effects of force and motion while carrying out the creative design

functions of engineering.

4 To provide an introduction to the basic quantities of mechanics.

Unit Number Details Hours

I

Introduction to Engineering Mechanics–Basic concepts. Resultants of Force

System: Parallelogram law –Lami’s Theorem-Forces and components-

Resultant of coplanar Concurrent Forces- -Moment of Force -principle of

moments-Coplanar Applications -Couples –Resultant of any Force System-

varignons theorem

Equilibrium of Force Systems: Free Body Diagrams, Equations of Equilibrium

8

II

Centroids and Centers of Gravity: Introduction -Centroid of plane lamina for simple figures & composite figures..

Moments of Inertia: Definition -Polar Moment of Inertia -Radius of gyration- -

Moments of Inertia for simple & Composite areas Types of beams: Simple & Compound beams,type of supports & reaction.

8

III

Kinematics-Basic concepts, equations of motion for constant acceleration and motion

under gravity. Variable acceleration. Relative motion

Kinetics-Newton’s second law of motion and its application.

8

IV

Kinematics: Basic concepts,equation of motion in Cartesian Co-ordinates. Path and polar

Co-ordinates,Motion of Projectiles.

Work Energy Principle for motion of particle,Impulse Momentum principle for motion of particle.

8

V

Friction: Introduction -Theory of Friction -Angle of friction -Laws of Friction - -Motion

of Bodies: Simple, Ladder & Belt Friction . Two Force Members- Analysis of Plane Truss by method of Joint & Method of Section,

Resultant of concurrent & Parallel forces in space.

8


Phone: 02594-222541, 222582 Fax: 02594 222555

Total 40

Resourc

Recommended Books 1. Engineering Mechanics -Statics & Dynamics by I.H. Shames, PHI, New Delhi.

2. Engineering Mechanics –Timoshenko. 3. Engineering Mechanics-Bhavikatti

Reference Books T Statics & Dynamics by J.L. Meriam, John Wiley & Sons (P) Ltd. New York.

T Statics & Dynamics by Beer & Johnson, MGH, New Delhi

Course Outcomes

1 Students will able to apply the fundamental concept of force & Force System in solution of

civil engineering structures & other engineering field.

2 Student will able to calculate & locate the centroid & centre of gravity for various

mechanisms.

3 Student will able to apply Newton’s second law of motion for a particle

4 Student will able to calculate the velocity, speed, and acceleration of the object and analyze

curvilinear motion in applications

5 Student will able to analyse varios mechanisms against wear & tear phenomena & designing

of civil engineering structures .

School: Engineering & Technology Programme: B.Tech

Year: First Year Semester -II


Phone: 02594-222541, 222582 Fax: 02594 222555

Outcomes

At the end of this course, students will be able to:

1 Use of Features of Google and it’s Tools

2 Troubleshoot and install various operating systems and drivers

3 Use programing basics to solve real world problems

4 Decide effective solutions for complex real world problems

Suggested List of Laboratory Assignments

Study Assignment

Draw block diagram of typical computer system. Describe functions of each component. Study

computer available in your laboratory and write its configuration. Install Ubuntu. Define terms-

Operating System, Application Software, System Software, Compiler, Assembler, Linker, Loader,

Editor, Algorithm, Flowchart, Computer Programming, Programming Language and Software

Development Life Cycle.

Group A (Any seven)

1. Create an E-mail ID on Google and learn E-mailing features.

Course: Fundamentals of Computing Lab (FCL) Course Code: YFT210

Practical: 02 Hrs. / Week, TH: 01Hrs/week

Credits: 01

Practical Examination: 00 Marks

Term Work: 25 Marks

Objectives

1 Learn features of Google and it’s Tools

2 To learn basic installation of various operating system and other Hardware’s

3 To Know basic fundamentals of C Programing Language.

4 How to write a program using C programing Language to solve the problem


Phone: 02594-222541, 222582 Fax: 02594 222555

2. Use the features of Google drive (DOCS, Sheets and Slides).

3. Configure MS-Outlook with personal E-mail ID.

4. Install the printer (Local and in network). 5. Create bootable pen drive/ CD for formatting the system.

6. Installation of Windows operating system and drivers.

7. Installation of Linux operating system and drivers. 8. Handling and Use of gedit and Eclipse Editor for creating projects in C

9. Introduction to Computer Hardware Components.

Group B (Any Three)

10. Write a C program to compute addition of two numbers

11. Write a C program to swap two numbers without using third variable 12. Write a C program to accept the length of three sides of a triangle and calculate the area of

Triangle

13. Write a C program to generate first 20 Fibonacci numbers.

14. Write a C program to store N numbers in an array and compute the sum of all numbers in array.

15. Write a C program to store N numbers in an array and search particular number.

16. Write a C program to store N numbers in an array and reverse the elements of the array

Group C (Any Three)

17. Write a C program that will check whether given string is palindrome or not. 18. Write a C program to accept a string and replace all the vowels in the string with *.

19. Write a C program to accept a string and to display the following:

(a) Total number of characters in the string

(b) Total number of vowels in the string

(c) Total number of occurrence of particular character in the string

20. Write a C program to carry out following operations on strings using library functions

(a) To concatenate a string S2 to string S1

(b) To find the length of a given string

(c) To compare two strings S1 and S2 (d) To copy a string S2 to another string S1

21. Write a C program with function to swap values of two elements ( call by reference)

Reference Books:

1. Microsoft Office 2016 Step by Step user manual by Joan Lambert Curtis Frye

2. Computer Fundamentals – by P.K.Sinha 3. Yashavant Kanetkar, “Let Us C”, BPB Publications, 10/E, 2010.

4. Reema Thareja, “Computer Fundamentals and Programming in C”, OXFORD University

Press, 2012. 5. Stephen G Kochan “Programming in C”, Pearson Education, 3/E, 2004.

6. Kernighan, Ritchie, “The C Programming Language”, Prentice Hall of India, 2/E, 1988.

Pradeep K Sinha and Priti Sinha, “Computer Fundamentals”, BPB Publications, 4/E, 2007.


Phone: 02594-222541, 222582 Fax: 02594 222555

Semester-III

Code Sub.

Code

Subject Work load

(Hrs. Per Week)

Credit Marks

Theory Practical Total Marks

L P T Total Total CIA Univ. Sessional Univ.

UC FSE -301 Mathematics-III 3 - 1 4 4 50 50 - - 100

UC FSE -302 Building Planning & Construction

3 - 1 4 4 50 50 - - 100

UC FSE -303 Fluid Mechanics 2 2 1 5 4 50 50 - - 100

UC FSE -304 Theory of Structure 2 2 1 5 4 50 50 - - 100

UC FSE -305 Automobile Engineering 2 2 1 5 4 50 50 - - 100

UC FSE -306 Machine Design 2 2 1 5 4 50 50 - - 100

UC FSE -307 Environmental Studies (PBR)

3 - - 3 3 50 50 25 25 150

UC FSE -308 Fire Ground Operation-III - 5 - 5 5 - - 25 75 100

PC FSE-309 Industrial Training - - 1 1 1 - - 25 25 50

Total 17 13 6 36 32 350 350 50 100 850

*Oral Examination

Details of Continuous Internal Assessment (CIA)

CIA Weightage Description

CIA 1 10% Home Assignment

CIA 2 20% Mid-Term Exam (MTE)

CIA 3 10% Presentation by students

CIA 4 10% Research Based Activity

TOTAL 50%

Semester-IV

Sr. No.

Code Sub.

Code

Subject Work load (Hrs. Per Week)

Credit Marks

Theory Practical Total

Marks L P T Total CIA Univ. Sessional Univ.

1 UC FSE -301 Mathematics-IV 3 - 1 4 4 50 50 - - 100


Phone: 02594-222541, 222582 Fax: 02594 222555

*Oral Examination







TOTAL 50%

Semester-V

Sr. No.

Sub.

Code

Subject Work load (Hrs. Per Week)

Credits Marks

Theory Practical

L P T Total Sessional Univ. Sessional

1. FSE -501 Fire Modeling 2 2 1 5 4 50 50 25

2. FSE -502 Fire Codes & Standards 3 - 1 4 4 50 50 -

3. FSE -503 Fire service hydraulics 2 2 1 5 4 50 50 25

4. FSE -504 Fire Protection-I 2 2 1 5 4 50 50 25

5. FSE -505 Urban planning 3 - 1 4 4 50 50 -

6. FSE -506 Project-I - 3 - 3 3 - - 50

7. FSE -507 Fire Ground Operation - 7 - 7 7 - - 50

8 FSE-508 Industrial Training - - 1 1 1 - - 25 Total 16 6 34 31 100 400 200

*Oral Examination

2 FSE -401

Elements of Electronics & Communication

2 2 1 5 4 50 50 150

3 UC FSE -402 Engineering

Thermodynamics

2 2 1 5 4 50 50 150

4 UC FSE -403 Heat & Mass Transfer 2 2 1 5 4 50 50 150

5 UC FSE -404 Computer Application, CAD-CAM

2 2 1 5 4 50 50 150

6 UC FSE -405 Applied Psychology 2 2 1 5 4 50 50 150 7 UC FSE -406 Paramedics 2 2 1 5 4 - - 25 25 50

8 UC FSE -407 Fire Ground Operation-IV - 5 - 5 5 - - 25 25 50

UC 15 17 7 39 33 300 300 50 50 950


Phone: 02594-222541, 222582 Fax: 02594 222555







TOTAL 50%

Semester-VI

Sr.

No.

Sub.

Code

Subject Work load

(Hrs. Per

Week)

Credit

Marks

Theory Practical L P T Total CIA Univ. Sessional

1. FSE -601 Fire protection-II 2 2 1 5 4 50 50 25

2. FSE -602 Elective-I

2 2 1 5 4 50 50 25

3. FSE -603 Fire Laws 2 - 1 4 3 50 50 -

4. FSE -604 Design and Installation of Detection & Fire Fighting

System-I

2 2 1 5 4 50 50 25

5. FSE -605

Industrial, Rural and Forest Development

3 - 1 4 4 50 50 -

6. FSE -606 Special Hazards & Protection

2 2 1 5 4 50 50 25

7. FSE -607 Project Seminar-II - 3 - 3 3 - - 50

8. FSE -608 Fire Ground Operation-VI - 7 - 7 7 - - 50

Total 13 18 6 37 33 120 480 200

Elective-I

1. Fire & Smoke dynamics

2. Artificial Intelligence 3. Passive Measures for Fire Safety

*Oral Examination







TOTAL 50%

Semester-VII

Sr. Sub. Subject Work load Credit Marks


Phone: 02594-222541, 222582 Fax: 02594 222555

Elective-II

1.Robotics and Robot Application

2.Fire dynamics in Forest Fire

3.Fire Retardants

4. Design of pressure vessel for Fire protection.

Semester-VIII

No. Code (Hrs. Per Week) Theory Practical Total


1. FSE -701 Engineering Economics 3 - 1 4 4 50 50 - - 100

2. FSE -702 Elective-II 2 2 1 5 4 50 50 25 25 150 3. FSE -703 Fire & Arson

Investigation

2 2 1 5 4 50 50 25 25 150

4. FSE -704 Piping Design 2 - 1 3 3 50 50 - - 100

5.

FSE -705

Design and installation

of detection & fire

fighting system-II

2 2 1 5 4 50 50 25 25 150

6. FSE -706 Fire Risk Calculations 3 - 1 4 4 50 50 - - 100

7. FSE -707 Fire Ground Operation-

VII

VII

- 7 - 7 7 - - 50 50 100

8 FSE-709 Industrial Training - - 1 1 1 - - 25 25 50

Total 14 13 7 34 31 300 300 150 150 950

Sr.

No.

Sub.

Code

Subject Work load

(Hrs. Per Week)

Credit Marks

Theory Practical Total



Phone: 02594-222541, 222582 Fax: 02594 222555

1

FSE -801

Industrial Training and Project

** Topics to be covered

during Industrial Training

and Detail Syllabus will be

provided to Students.

1. Fire Service &

Disaster

Management

2. Fire Service

Financial

Management

3. Fire & Disaster

Tactical

Management

4. Visit to Different

Occupancies and Vulnerable

Area

- - - - - - - 600 150 750

Total 750


Phone: 02594-222541, 222582 Fax: 02594 222555

*Oral Examination







TOTAL 50%

sandip university

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