Structure and Curriculum COMPUTER SCIENCE AND … · Annasaheb Dange College of Engineering and Technology, Ashta (An Autonomous Institute affiliated to Shivaji University, Kolhapur.)
Post on 18-Mar-2020
7 Views
Preview:
Transcript
Annasaheb Dange College of Engineering and
Technology, Ashta
(An Autonomous Institute affiliated to Shivaji University, Kolhapur.)
Structure and Curriculum
F. Y. B. Tech.
COMPUTER SCIENCE AND ENGINEERING
SEM I & SEM II
(Academic Year 2019-20)
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Teaching and Evaluation Scheme
B. Tech: I Semester
Course Code Course
Teaching Scheme
Evaluation Scheme
Scheme
Theory Marks Practical
Marks
L T P Credits Max.
Min.
for
Passing Max.
Min.
for
Passing
1CSBS101 Applied
Mathematics - I 3 1 0 4
ISE I 10
40
-- --
MSE 30 -- --
ISE II 10 -- --
ESE 50 20 -- --
1CSBS102
Engineering
Physics and
Chemistry
4 0 0 4
ISE I 10
40
-- --
MSE 30 -- --
ISE II 10 -- --
ESE 50 20 -- --
1CSES103
Basic Electrical
Engineering
3 0 0 3
ISE I 10
40
-- --
MSE 30 -- --
ISE II 10 -- --
ESE 50 20 -- --
1CSES104
Engineering
Mechanics
3 0 0 3
ISE I 10
40
-- --
MSE 30 -- --
ISE II 10 -- --
ESE 50 20 -- --
1CSES105
Engineering
Graphics
2 0 0 2
ISE I 10
40
-- --
MSE 30 -- --
ISE II 10 -- --
ESE 50 20 -- --
1CSBS151
Engineering
Physics and
Chemistry
Laboratory
0 0 2 1 ISE
-- 50 20
1CSES152
Engineering
Graphics
Laboratory 0 0 2 1 ISE
-- 50 20
1BSHS153 Professional
Communication 2 0 2 3 ISE
-- 50 20
Total 17 1 6 21 500 150
Total Contact Hours/ Week: 24 Hrs
Course
Category HS BS ES PC PE OE PR
Credits 3 9 9 - - - -
Cumulative
Sum 3 9 9 - - - -
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Course Details:
Class F.Y. B. Tech., Sem.-I
Course Code and Course Title 1CSBS101 Applied Mathematics-I
Prerequisite ---
Teaching Scheme: Lecture/Tutorial 03/01
Credits 04
Evaluation Scheme: ISE I/ MSE/ISE II/ESE 10/30/10/50
Course Objectives: The course aims to:
01 To develop mathematical techniques for solving engineering problems.
02 To develop mathematical skills and enhance logical thinking power of students.
03 To increase interest towards the use of mathematics in engineering field.
Course Outcomes (COs) :After successful completion of this course, the students will be able to:
1CSBS101_1 Solve the system of linear equations by using matrix method and numerical
techniques. (K3)
1CSBS101_2 Calculate eigen values and eigen vectors and power of matrix by using Cayley-
Hamilton theorem.(K3)
1CSBS101_3 Describe the statistical data numerically by using lines of regression and curve
fittings. (K2)
1CSBS101_4 Apply Taylor series to find the expansion of functions. (K3)
1CSBS101_5 Compute the nth power and roots of the complex number by using De-Moivre’s
Theorem. (K3)
Course Contents: Contact
Hrs.
Unit1 Matrices and Solution of Linear System Equations:
Rank of a matrix, Normal form of a matrix, echelon form, Consistency of
linear system of equations (system of homogeneous and nonhomogeneous
linear equation).
06 Hrs.
Unit2 Numerical Solution of System of Simultaneous Linear Equations :
Gauss Elimination Method, Gauss-Jordan Method, Iterative Method – Gauss
Jacobi method and Gauss Seidel method, LU-Decomposition Method.
07 Hrs.
Unit3 Eigen Values and Eigen Vectors:
Vectors, Linear dependence and linear independence of vectors, Eigen values,
Properties of Eigen values, Eigen vectors, Properties of Eigen vectors, Cayley-
Hamilton Theorem (Inverse and Higher powers of matrix).
08 Hrs.
Unit4 Curve fitting and Statistics:
Method of Least Squares, Fitting of Straight Line, Fitting of Parabola, Fitting
of exponential curves, Lines of Regression. 06 Hrs.
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Unit5 Expansion of Functions and Indeterminate Forms:
Taylor's series, Maclaurin’s series, Standard expansions, Expansion of function
using Standard series, Indeterminate forms.
07 Hrs.
Unit6 Complex Numbers:
De Moivre's theorem, Roots of a complex number, Expansion of 𝑠𝑖𝑛𝑛𝜃
and 𝑐𝑜𝑠𝑛𝜃 in powers of 𝑠𝑖𝑛𝜃 and/or 𝑐𝑜𝑠𝜃, Circular functions of a complex
variable, Hyperbolic functions, relation between circular and hyperbolic
functions, Inverse Hyperbolic functions.
08 Hrs.
Text Books:
Sr.
No Title Author Publisher Edition
Year of
Edition
01
Numerical Methods
in Engineering &
Science
Dr. B. S
Grewal
Khanna
Publishers 9th 2010
02
Advanced
Engineering
Mathematics
H. K. Das S. Chand 22nd 2018
03 A textbook of
ApplIed Mathematics
P.N Wartikar & J.N
Wartikar
Pune Vidyarthi
Griha Prakashan 1st 2008
04 Higher Engineering
Mathematics B. V. Ramana
Tata McGraw
Hill Publ. 6th 2010
Reference Books:
Sr.
No Title Author Publisher Edition Year of Edition
01 Higher Engineering
Mathematics
Dr. B. S
Grewal
Khanna
Publishers 44th 2018
02 Advanced Engineering
Mathematics
N. P. Bali,
Manish Goyal
Infinity
science press 7th 2010
03 Advanced Engineering
Mathematics
Erwin
Kreyszig
Wiley
Publishers 10th 2017
04 Numerical Methods
Dr. P. Kandasamy,
Dr. K. Thilagavathy,
Dr. K. Gunavathi
S. Chand 1st 2010
List of Tutorials
Sr. No. Title of Tutorials
1 Matrices and Solution of Linear System of Equations
2 Numerical Solution of System of Simultaneous Linear Equations
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
3 Eigen Values and Eigen Vectors
4 Cayley-Hamilton Theorem
5 Curve fitting
6 Statistics
7 Expansion of Functions and Indeterminate Forms
8 Complex number
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Course Details:
Class F.Y. B. Tech., Sem.-I
Course Code and Course Title 1CSBS102 Engineering Physics and
Chemistry
Prerequisite ---
Teaching Scheme: Lecture/Tutorial 04/00
Credits 04
Evaluation Scheme: ISE I/ MSE/ISE II/ESE 10/30/10/50
Course Objectives: The course aims to:
01 Explain basic concepts of Physics in optics and sound waves.
02 Make students aware of the importance of physics in today's developing world and
growing society.
03 Develop the ability to understand the effect of various impurities on water quality.
04 Outline the characteristics of energy resources and general terms used in software’s of chemistry.
Course Outcomes (COs) :After successful completion of this course, the students will be able to:
1CSBS102_1 Describe different concepts related to, laser and optical fibre. (K2)
1CSBS102_2 Explain various phenomenon and properties in solid state and nano physics. (K2)
1CSBS102_3 Identify water quality parameters and methods for water softening. (K2)
1CSBS102_4 Discuss properties and applications of various energy resources. (K2)
1CSBS102_5 Summarize basic principles of general terms used in software’s of chemistry.
(K2)
Course Contents: Contact
Hrs.
Physics
Unit1 Laser and Fibre Optics :
I) Laser: Introduction, Basic concepts of Laser:- Absorption, spontaneous
emission, stimulated emission, pumping, population inversion. Characteristics
of laser, Solid State laser, Applications of laser, Holography (construction and
reconstruction).
II) Optical fibre: Introduction, Basic principle (total internal reflection),
Structure of optical fibre, Propagation of light through cladded fibre,
Acceptance angle and acceptance cone (no derivation), Numerical aperture
(no derivation), Classification of optical fibre, Advantages and disadvantages
of optical fibre, Applications of optical fibres, Numerical.
10 Hrs.
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Unit2 Solid State Physics :
Crystallography:Introduction, Unit cell, Bravais lattices, Properties of unit cell
(number of atoms per unit cell, coordination number, atomic radius, packing
fraction), Calculation of lattice constant, Symmetry elements in cube, Miller
indices:- Procedure, Features and Sketches for different planes, X-ray diffraction
(Laue method), Bragg’s law, X-ray diffractometer, Numerical.
09
Unit3 Nano Physics :
Introduction, Concept of nanotechnology, Production techniques:- Top-down
(eg. Ball milling) and Bottom-up (eg. Sol-gel process), Tools – Scanning
Electron Microscope (SEM) and Atomic Force Microscope (AFM),
Applications of nano- materials, Carbon Nano Tube (CNT):- Structure, two
types, properties and applications.
09
Chemistry
Unit4 Water Chemistry
Introduction, impurities in natural water, Water Testing: Total solids, acidity,
alkalinity and chlorides, hardness of water (definition, causes and significance),
Calculations of total hardness, disadvantages of hard water. Scale and sludge:
formation in boilers and removal, Treatment of hard water by ion exchange
process, Desalination of brackish water by Reverse Osmosis
09
Unit5 Energy Science:
Introduction, classification, characteristics of good fuels, comparison between
solid, liquid and gaseous fuels, types of calorific value (higher and lower), Bomb
calorimeter and Boy’s calorimeter. Numericals on Bomb and Boy’s calorimeter.
Photocatalysis of water for H2 generation, introduction to solar cells, biomass
energy.
Batteries: Introduction, Characteristics of a battery, Rechargeable Li- ion
batteries (Diagram, charging-discharging reactions, advantages and
applications).
Fuel Cells: Introduction, H2-O2 Fuel cell (Construction, working and
applications), applications of fuel cells.
09
Unit6 Computer Software’s in Chemistry: Introduction, Commonly available
software’s in chemistry, Electronic Handbooks and Databases: Periodic Table
databases, Chemical structure and information databases, Instrument
maintenance and Calibration system (IMCS), Spectroscopic library searching
and structure elucidation: Mass spectroscopy, Infrared spectra, NMR. Graphical
display of data and molecular structures, Molecular weight calculator by
chemsoft, Bioinformatics.
10
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Text Books:
Sr.
No Title Author Publisher Edition
Year of
Edition
01 Engineering Physics P. K. Palanisamy Sci Tech pub. (P)
Ltd. 2nd 2009
02 Engineering Physics G Vijayakumari
Vikas Pub. House
(P) Ltd 3rd 2009
03
Introduction to Nano
science and
Nanotechnology:
K.K. Chattopadhyay
and A.N. Banerjee,
PHI Learning
3rd 2009
04
A Text Book of
Engineering
Chemistry
S. S. Dara
S. Chand & Co.
Ltd., New Delhi. 11th 2008
05
A Text Book of
Engineering
Chemistry
Shashi Chawala
Dhanpat Rai
Publishing Co.
New Delhi.
3rd 2007
Reference Books:
Sr.
No Title Author Publisher Edition Year of Edition
01 Engineering Physics Resnick Halliday,
Krane,
John Wiley &
Sons Pub.
8th 2008
02 Introduction to Solid
State Physics
Charles Kittle, Wiley India
Pvt. Ltd
7th 2008
03 Solid State Physics: S. O. Pillai New Age
International
Ltd.
6th 2007
04 Engineering Chemistry Jain & Jain
Dhanpat Rai
Publishing
Co., New
Delhi.
15th 2010
05
Computers and their
Applications to
Chemistry
Ramesh Kumari
Narosa
Publishing
House Pvt.
Ltd.
2nd 2005
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Course Details:
Class FY B.Tech. SEM I
Course Code and Course Title 1CSES103 , Basic Electrical Engineering
Prerequisite/s Simultaneous linear equations, Semiconductor
Physics
Teaching Scheme: Lecture/Tutorial 03/00
Credits 03
Evaluation Scheme: ISE I / MSE/ISE II / ESE 10/30/10/50
Course Educational Objectives(CEOs): The course aims to:
01 To explore the students with the field of Electrical Engineering
02 To frame and solve problems on electric and magnetic circuits
03 To introduce concepts in single phase and three phase AC circuits
04 To explain the prerequisites of electrical machines and correlations of electric and magnetic
circuits.
05 To describe the construction, working and characteristic of electrical Machines viz.
transformer, DC Motor and single phase AC Motor
Course Outcomes (COs):
Upon successful completion of this course, the student will be able to:
1CSES103_1 Explain various terms related to DC circuits, AC circuits.(K1)
1CSES103_2 Apply the magnetic circuit concepts to understand the working of electrical devices.
(K2)
1CSES103_3 Explain working principle, construction & applications of transformer, DC Motor,
single phase AC motors. (K2)
1CSES103_4 Describe various wiring circuits and Earthing system for different workspaces. (K2)
1CSES103_5 Apply conceptual understanding to solve numerical related to DC circuits, magnetic
circuits, single phase AC circuits, transformer. (K2)
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Text Books:
Sr.
No Title Author Publisher Edition Year of Edition
01 Fundamentals of
Electrical Technology V. K. Mehta
S. Chand
Publications,
New Delhi
5th 2012
02 A Textbook of
Electrical Technology
B L Theraja &
A K Theraja
S. Chand
Publications,
New Delhi
28th
2015
03 Basic Electrical
Engineering
J. M. Kharade,
M. D. Patil,
D. B. Kanase
Wiley India
1st
2018
04 Basic Electrical
Engineering
I.J. Nagrath
D. P. Kothari Tata McGraw Hill
3rd 2010
SECTION I
Unit
No.
Content No of
Hrs.
Unit 1 DC Circuits 6 Hrs
Definitions: EMF, Current, Electrical Work, Power, Energy, Current source and
voltage source, Ohm’s Law, Kirchhoff’s Law, Factors affecting on resistance,
Analysis of DC Circuit using KCL & KVL.
Unit 2 Magnetic Circuit 5 Hrs.
Concept of Magnetic circuit &definitions, Comparison between Electric and
Magnetic circuit Series magnetic circuit, Magnetization (B-H) curve, Magnetic
Leakage and Fringing
Unit 3 AC Circuits 10 Hrs.
A. Single Phase A.C Circuit: Faraday’s law of Electromagnetic Induction,
Generation of Sinusoidal voltage, concepts of RMS value, Average value,
Form Factor, Peak factor, phasor representation of AC quantities pure R, L,
C and series R-L-C circuit.
B. Three Phase A.C Circuit: Generation of three phase A.C voltage, Balanced
and Unbalanced three phase system.
SECTION –II
Unit 4 Earthing and Wiring circuits 5 Hrs.
Concept of earthing, necessity of earthing, plate and pipe earthing, Types of
switches, HRC fuse, simple wiring, staircase wiring, godown wiring.
Unit 5 Single Phase Transformer and D.C. Motor 10 Hrs.
Construction, Working principle of single phase transformer, Types, EMF
equation, Transformation ratio, Construction, Working principle of DC motor,
types and their applications
Unit 6 Single phase A.C. motor 6 Hrs.
Operating principle, Construction, Double field revolving theory, Types: Split
phase I.M, Shaded pole I.M,
Universal Motor: Construction, operating principle, application.
(Theoretical Treatment)
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Reference Books:
Sr.
No Title Author Publisher Edition
Year of
Edition
01
Electrical Engineering
Concepts and
Applications
PV Prasad &
S. Shivanaraju
CENGAGE
Learning
1st 2012
02 Fundamentals of
Electrical Engineering
BharatiDwivedi,
AnuragTripathi Wiley
2nd 2013
03 Electrical Engineering
Fundamental
Vincent Del
Toro
Pearson
Publication
2nd 2003
04 Fundamentals of
Electrical Engineering Ashfaq Husain
Dhanpat Rai &
co.
3rd 2008
05
Basic Electrical &
Electronics
Engineering
S. K.
Bhattarachya
Pearson
Publication
1st 2011
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Course Details:
Class F.Y.B. Tech Computer Science Engineering
Course Code and Course Title 1CSES104 Engineering Mechanics
Prerequisite/s ---
Teaching Scheme: Lecture/Tutorial 03/00
Credits 03
Evaluation Scheme: ISEI /MSE/ISE II/ESE 10/30/10/50
Course Objectives:
01 To understand various force systems and their effects on static and moving bodies
02 To study the concept of equilibrium
03 To solve Numerical on Beams
04 To understand dynamics of rigid bodies
05 To Understand Concept of Collision.
Course Outcomes (COs) : Upon successful completion of this course, the student will be able to:
1CSES104_1 Apply knowledge of resolution and composition of forces. (K3)
1CSES104_2 Apply the concepts of equilibrium to find unknown forces acting on rigid bodies. (K3)
1CSES104_3 Solve numerical on the simple & Compound Beam.(K3 )
1CSES104_4 Apply the knowledge of dynamics to analyze rigid bodies (in motion). (K3)
1CSES104_5 Solve numerical on the Collision. (K3)
Course Contents: Contact
Hrs.
Unit 1 Introduction to Engineering mechanics: Basic concepts - Particle, Body, Rigid body, Force, Scalar and Vector quantities of
Force, Types of force systems, Law of transmissibility of force, Resolution of a
force, Resultant force, Moment of a force, couple, Varignon’s theorem.
7 Hrs.
Unit 2 Equilibrium of forces:
Concept of equilibrium, Conditions of equilibrium, Free Body Diagram, Lami’s
theorem, Law of moments, Introduction to surface friction.
7 Hrs.
Unit 3 Beams: Types of Loads, Types of supports, Types of Beams, Analysis of Simple
and Compound beams using conditions of equilibrium 6 Hrs.
Unit 4 Kinematics of Linear and Circular motion:
Kinematics of linear motion, Newton’s Laws of motion, motion under gravity,
Motion under variable acceleration, Kinematics of Circular Motion, Super
elevation, banking of roads.
7 Hrs.
Unit 5 Kinetics of Linear and Circular motion:
Kinetics of linear motion, D’ Alembert’s Principle, Work- Energy Principle,
Impulse Momentum Principle, Kinetics of Circular Motion.
7 Hrs.
Unit 6 Collision and Impact: Introduction, Phenomenon of Collision, Law of Conservation of Momentum,
Newton’s law of Collision of Elastic Bodies, Coefficient of Restitution, Types of
Collisions, Direct Collision of Two Bodies, Loss of Kinetic Energy During
Collision, Indirect Impact of Two Bodies, Direct Impact of a Body with a Fixed
Plane, Indirect Impact of a Body with a Fixed Plane.
8 Hrs.
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Text Books:
Sr.
No Title Author Publisher Edition
Year of
Edition
01 Engineering
Mechanics S. Ramamrutham
DhanpatRai Publishing
Company (P). Ltd 9th 2010
02 Engineering
Mechanics R.S. Khurmi S. Chand Revised 2006
03 Engineering
Mechanics
R. K. Bansal and
Sanjay Bansal Laxmi Publications Pvt. Ltd. 6th 2013
04 Engineering
Mechanics K. L. Kumar Tata McGraw Hill Education 4th 2012
05 Engineering
Mechanics S. B. Junnarkar
Charotar Publications
16th 2011
06 Engineering
Mechanics S.S. Bhavikatti
New Age International Pvt.
Ltd. 4th 2012
Reference Books:
Sr.
No Title Author Publisher Edition
Year of
Edition
1. Engineering Mechanics Timoshenko and
Young
McGraw Hill
Publishers 3rd 2006
2. Engineering Mechanics Irving H. Shames Prentice Hall of
India, New Delhi 5th 2011
3. Vector Mechanics for
Engineers Vol.-I and II
F. P. Beer and E. R.
Johnson
Tata McGraw Hill
Education 6th 2011
4. Engineering Mechanics:
Statics & Dynamics Ferdinand Singer
Harper and Row
Publications 9th 2009
5. Fundamentals of
Engineering Mechanics S. Rajasekaran
Vikas Publishing
House Pvt. Ltd. 3rd 2005
6. Mechanics of Materials Dr. B. C. Punmia Laxmi Publications
Pvt. Ltd. Reprint 2010
7. Engineering Mechanics
Vols. I and II R. C. Hibbler Pearson Press -- 2002
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Course Details:
Class F. Y. B. Tech, Sem.-I
Course Code and Course Title 1BSES105 , Engineering Graphics
Prerequisite/s ---
Teaching Scheme: Lecture/Tutorial 02/00
Credits 02
Evaluation Scheme: ISE I / MSE / ISE II / ESE 10/30/10/50
Course Objectives:
01 To explain the basic knowledge of drawing, drawing tools and methods of projection.
02 To explain the application of drawing in different disciplines of engineering.
03 To develop skills in extracting information from schematic diagrams to produce different
drawings
Course Outcomes (COs) : Upon successful completion of this course, the student will be able to
1BSES105_1 Explain basic concepts in drawing and its application. (K2)
1BSES105_2 Sketch projection of simple geometries.(K3)
1BSES105_3 Sketch projection of solids. (K3)
1BSES105_4 Prepare sectional views of solids & develop the lateral surfaces of solids. (K3)
1BSES105_5 Sketch the Orthographic projections. (K3)
1BSES105_6 Prepare the Isometric view of simple objects. (K3)
Course Contents: Contact
Hrs.
Unit 1 Fundamentals of Engineering Graphics and Engineering Curves
A) Fundamentals of Engineering Graphics: Introduction to Drawing
instruments and their uses. Different types of lines used in drawing
practice, Dimensioning system as per BSI ( Theoretical treatment only)
B) Engineering curves: Construction of regular Polygons up to hexagon).
Ellipse, Parabola, Hyperbola, Involute, Archimedian spiral, Cycloid.
04 Hrs.
Unit 2 Projections of Lines and Planes
A) Projections of Lines: Introduction to First angle and third angle methods
of projection. Projections of points on regular and auxiliary reference
planes. Projections of lines (horizontal, frontal, oblique and Profile lines) on
regular and auxiliary reference planes. True length of a line, Point View of
a line, angles made by the line with reference planes. Projections of
intersecting lines, Parallel lines, perpendicular lines, and skew lines. Grade
and Bearing of a line.
B) Projections of Planes: Projections on regular and on auxiliary reference
planes. Types of planes (horizontal, frontal, oblique and Profile planes),
Edge view and True shape of a Plane. Angles made by the plane with
Principle reference planes. Projections of plane figures inclined to both the
planes (Circle & regular polygon).
05 Hrs.
Unit 3 Projections of Solids Projections of Prisms, Pyramids, Cylinder and Cones inclined to both
reference planes. (Excluding Frustum and Sphere)
04 Hrs.
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Unit 4 Orthographic Projections
Lines used, selection of views, dimensioning and sections. Drawing
required views from given pictorial views (conversion of pictorial views in
to orthographic views), including sectional orthographic views.
06 Hrs.
Unit 5 Isometric Projections Introduction to isometric. Isometric scale, Isometric projections and
Isometric views /drawings. Circles in isometric view. Isometric views of
simple solids and objects.
05 Hrs.
Unit 6 Sections of Solids and Development of surfaces:
A) Sections of solids: Prisms, Pyramids, Cylinders and Cones in simple
positions and inclined to one reference plane and parallel to other.
B) Development of plane and curved surfaces: Prisms, Pyramids, Cylinders
and Cones along with cutting planes.
04 Hrs.
Text Books
Sr. No Title Author Publisher Edition Year of
Edition
01 Engineering Drawing, N. D. Bhatt
Charotor
Publication House,
Bombay
53rd 2014
02 Engineering Drawing Dhananjay A.
Jhole
Tata Mc Graw Hill
International 5th 2011
03
Engineering Graphics
with an Introduction to
computer aided Profting.
H. G. Phakatkar Nirali Publication 7th 2006
04 Engineering Graphics Agrawal B. TMH Publication 3rd 2012
Reference Books
Sr.
No Title Author Publisher Edition
Year of
Edition
01 Engineering Drawing
and Graphics K. Venugopal
New Age
Publication 5th 2004
02 Machine Drawing K. L. Narayana New Age
Publication 3rd 2006
03 Engineering Drawing N. B. Shaha and B.
C. Rana Pearson Education 2nd 2012
04 Fundamentals of
Engineering Drawing W. J. Luzadder
Prentice Hall of
India. 1st 1964
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Course Details:
Class F.Y. B. Tech, Sem.- II
Course Code and Course Title 1CSES151 Engineering Physics and
Chemistry Laboratory
Prerequisite/s --
Teaching Scheme: Practical/Tutorial 02/00
Credits 01
Evaluation Scheme: ISE 50
Course Objectives:- The Course aims to,
1 Calculate various properties of light and laser such as wavelength, divergence, intensity and
specific rotation.
2 Explain crystal system and symmetry elements in cubic.
3 Test water quality parameters like hardness, acidity and chloride content.
4 Know the handling of different analytical Instruments
Course Outcomes (COs):-
After successful completion of this course, the student will be able to,
1CSES151_1 Calculate wavelength of light and specific rotation of sugar solution. (K2)
1CSES151_2 Apply various optical formulae to determine wavelength and divergence of LASER and
demonstrate Bravais lattices. (K3)
1CSES151_3 Identify hardness, alkalinity, chloride content of water. (K2)
1CSES151_4 Analyze given samples using various instruments.(K2)
1CSES151_5 Communicate effectively and work in a team for laboratory activities. (S1)
1CSES151_6 Follow professional and ethical principles during laboratory. (A2)
Sr.
No. Title of Experiment
1 Plane diffraction grating.
2 Wavelength of LASER
3 Divergence of The LASER Beam
4 Seven Crystal System.
5 Laurent’s Half Shade polarimeter.
6 Inverse square law.
7 Determination of alkalinity of water (Acid- Base Titration).
8 Determination of chloride content of water by Mohr’s method. (Precipitation Titration).
9 Determination of total hardness of water by EDTA method (Complexometric Titration).
10 Preparation of urea formaldehyde.
11 Determination of pH of sample solution.
12 Demonstration of software’s in chemistry.
*Any Ten Experiments should be performed from above listed table.
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Text Books:
Sr. No Title Author Publisher Edition Year of
Edition
01 Engineering Physics P. K.
Palanisamy
Sci Tech pub.
(P) Ltd. 2nd 2009
02 Engineering Physics G
Vijayakumari
Vikas Pub.
House (P) Ltd 3rd 2009
03 A Text Book of
Engineering Chemistry S. S. Dara
S. Chand & Co.
Ltd., New Delhi. 11th 2008
04 A Text Book of
Engineering Chemistry
Shashi
Chawala
Dhanpat Rai
Publishing Co.
New Delhi.
3rd 2007
Reference Books:
Sr.
No Title Author Publisher Edition
Year of
Edition
01 Solid State Physics: S. O. Pillai New Age
International Ltd.
6th 2007
02 Materials Science and
Engineering –
V. Raghvan, PHI Learning. 5th 2006
03 Engineering Chemistry Jain & Jain
Dhanpat Rai
Publishing Co., New
Delhi.
15th 2010
04 Industrial Chemistry B. K. Sharma Goel publication (P)
Ltd. 10th 1999
05 Computers and their
Applications to Chemistry
Ramesh
Kumari
Narosa Publishing
House Pvt. Ltd. 2nd 2005
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Course Details:
Class F. Y. B. Tech, Sem.-I
Course Code and Course Title 1BSES152 , Engineering Graphics Laboratory
Prerequisite/s ---
Teaching Scheme: Practical/Tutorial 02/00
Credits 01
Evaluation Scheme: ISE 50
Course Objectives:
01 To make familiar about effective use of drawing tools and engineering drawing formats.
02 To develop and interpret basic drawing concepts.
03 To develop visualization skills and implement in various types of drawings
Course Outcomes (COs) : After successful completion of this lab work, the student will be able to
1BSES152_1 Draw the projections the different lines, Planes and Solids in different positions,
develop the lateral surface of object. (K3)
1BSES152_2 Draw orthographic, sectional and isometric views. (K3)
1BSES152_3 Use/Handle different engineering drawing instruments accurately & carefully. (S2)
1BSES152_4 Produce drawings with accuracy and proficiency. (S3 )
1BSES152_5 Display a high degree of certainty in drawings and projections of complex
components. (A3)
List of Practical’s:
Sheet No. Title of Drawing Sheet
01 Types of Lines and Lettering.
02 Engineering Curves
03 Projections of lines
04 Projections of Planes
05 Projections of Solids
06 Orthographic projections 1
07 Orthographic projections 2
08 Isometric projections
09 Sections of Solids
10 Development of Lateral Surface
Text Books
Sr. No Title Author Publisher Edition Year of
Edition
01 Engineering Drawing, N. D. Bhatt
Charotor
Publication House,
Bombay
53rd 2014
02 Engineering Drawing Dhananjay A.
Jhole
Tata Mc Graw
Hill International 5th 2011
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
03
Engineering Graphics with
an Introduction to computer
aided Profting.
H. G.
Phakatkar Nirali Publication 7th 2006
04 Engineering Graphics Agrawal B. TMH Publication 3rd 2012
Reference Books
Sr.
No Title Author Publisher Edition
Year of
Edition
01 Engineering Drawing
and Graphics K. Venugopal
New Age
Publication 5th 2004
02 Machine Drawing K. L. Narayana New Age
Publication 3rd 2006
03 Engineering Drawing N. B. Shaha and B.
C. Rana Pearson Education 2nd 2012
04 Fundamentals of
Engineering Drawing W. J. Luzadder
Prentice Hall of
India. 1st 1964
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Course Details
Class F. Y. B. Tech. Semester-I
Course Code and Course Title 1BSHS153, Professional Communication
Prerequisite/s 12th Standard English Grammar
Teaching Scheme: Lecture/Practical 02/02
Credits 03
Evaluation Scheme: ISE 50
Course Outcomes (COs):
Upon successful completion of this course, the student will be able to:
1BSHS153_1 Strengthen his communicative competence and able to achieve considerable success
in English Language competency tests such as IELTS.
1BSHS153_2 Solve the exercise related to Reading comprehension and Listening comprehension.
1BSHS153_3 Prepare and modify his portfolio considering own strength, weakness and career
opportunities.
1BSHS153_4 Construct grammatically sound and meaningful sentences necessary for effective
communication.
1BSHS153_5 Compose relevant professional letters and able to maintain official correspondence.
Course Contents:
Unit 1 Goal Setting and Portfolio (16hr)
Testing my competence in professional English (IELTS diagnostic test) , Analysis of all four
bands, Introducing my Portfolio, Achieving my goals, Exploring my career opportunities,
Challenging my assumptions, Planning my Career, Presenting my career choices
Unit 2 Grammar and Vocabulary (08hr)
Checking my English communication competence (IELTS test I - all four bands), Building
up my word power, Beginning to write and speak like a professional , Getting better at using
good sentences , How to avoid common errors
Unit 3 Listening band activities (06hr)
Listening like a Professional
Listening for answers
Unit 4 Reading band activities (08hr)
Getting better at reading professional literature - The Professional, Getting even smarter with
technical texts , Checking my English communication competence
(IELTS test II - all four bands)
Unit 5 Writing band activities (10hr)
Becoming skilled in writing professional correspondence, Analysing my skills in reading and
writing technical/scientific texts , Becoming a competent researcher
Getting smart with technical descriptions of charts/images and technical processes
Unit 6 Speaking band activities (08hr)
How to prepare and present my research review like a professional. Putting my research into
words: writing a technical review,
How good is my professional English? (IELTS test )
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Textbook
Sr.
No Title Author Publisher Edition
Year of
Edition
1 Cambridge Guide to
IELTS
Pauline Cullen,
Amanda French
Cambridge
University Press
Reprint 2017
2 Ultimate Guide to IELTS
Writing
Parthesh Thakkar M K Books Reprint 2013
3 Target Band 7 Braverman
Simone
Paperback Third 2018
4
The Professional: Defining
the New Standard of
Excellence at Work
Subroto Bagchi
Penguin Books India
Pvt. Ltd.
Revised
Edition
2011
Reference Books
Sr.
No Title Author Publisher Edition
Year of
Edition
1
High-school English
Grammar and
Composition
Wren and Martin S. Chand and Co.,
New Delhi
1st 2015
2 Grammar for IELTS Diana Hopkins,
Pauline Cullen
Cambridge
University Press
1st 2018
3 Vocabulary for IELTS Pauline Cullen Cambridge
University Press
1st 2013
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Teaching and Evaluation Scheme
B. Tech: II Semester
Course
Code Course
Teaching Scheme
Evaluation Scheme
Scheme
Theory Marks Practical Marks
L T P Credits Max.
Min.
for
Passing
Max.
Min.
for
Passing
1CSBS106 Applied
Mathematics- II 3 1 0 4
ISE I 10
40
-- --
MSE 30 -- --
ISE II 10 -- --
ESE 50 20 -- --
1CSPC107 Data
Communication 3 0 0 3
ISE I 10
40
-- --
MSE 30 -- --
ISE II 10 -- --
ESE 50 20 -- --
1CSES108
Basic
Mechanical
Engineering
2 0 0 2
ISE I 10
40
-- --
MSE 30 -- --
ISE II 10 -- --
ESE 50 20 -- --
1CSES109
Basic Electronics
Engineering
2 0 0 2
ISE I 10
40
-- --
MSE 30 -- --
ISE II 10 -- --
ESE 50 20 -- --
1CSBS110 Biology for
Engineers 2 0 0 2
ISE I 10
40
-- --
MSE 30 -- --
ISE II 10 -- --
ESE 50 20 -- --
1CSES154
Basic Electronics
Engineering
Laboratory
0 0 2 1 ISE -- 50 20
1CSBS155
Biology for
Engineers
Laboratory
0 0 2 1 ISE -- 50 20
1CSES156 Computer
Programming 3 0 4 5
ISE -- 50 20
ESE POE 50 20
Total 15 1 08 20 500 200
Total Contact Hours/ Week: 24Hrs
Course
Category HS BS ES PC PE OE PR
Credits - 7 10 3 - - -
Cumulative
Sum 3 16 19 3 - - -
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Course Details:
Class F.Y. B. Tech, Sem.-II
Course Code and Course Title 1CSBS106 Applied Mathematics-II
Prerequisite/s ---
Teaching Scheme: Lecture/Tutorial 03/01
Credits 04
Evaluation Scheme: ISEI/ MSE/ISEII/ESE 10/30/10/50
Course Objectives: The course aims to:
01 To develop mathematical techniques for solving engineering problems.
02 To develop mathematical skills and enhance logical thinking power of students.
03 To increase interest towards the use of mathematics in engineering field.
Course Outcomes (COs) : After successful completion of this course, the students will be able to:
1CSBS106_1
Utilize the knowledge of vector space, subspace and examine the Dependence and
Independence of vectors.(K3)
1CSBS106_2
Solve the mathematical problems involving algebraic and transcendental equations.
(K3)
1CSBS106_3
Solve the mathematical problems involving the Numerical Differentiation and
Integration.(K3)
1CSBS106_4 Use partial derivatives to solve the problems based on functions of two or more
variables. (K3)
1CSBS106_5 Solve problems on ordinary differential equations by using analytical method and
numerical techniques. (K3)
Course Contents: Contact
Hrs.
Unit1 Vector Space: Vector spaces, subspaces, orthogonal vectors, linear
dependence and independence of vectors, basis, dimension, four
fundamental subspaces, linear transformation
8 Hrs.
Unit2 Numerical Solution of Algebraic and Transcendental Equations:
Introduction, Bisection method, false position method, Secant method,
Newton Raphson’s method.
6 Hrs
Unit3 Numerical Differentiation and Integration: Numerical Differentiation –Newton’s Forward Difference, Newton’s
Backward Difference, Central Difference (Stirling’s Formula)
Numerical Integration - Trapezoidal Rule, Simpson’s 1/3rd And 3/8th Rule.
7 Hrs
Unit4 Partial Differentiation and Its Applications:
Function of two or more variables, Partial derivatives, Euler’s theorem,
Change of variables, Jacobin, Maxima and minima of functions of two
variables.
08 Hrs
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Unit5 Ordinary Differential Equation (First order and First degree):
Linear differential equation, Equation reducible to linear differential
equation, Exact differential equation, Equation reducible to exact equation.
07 Hrs
Unit6 Numerical Solution of Ordinary Differential Equation(First order and
First degree):
Picard’s method, Taylor’s series method, Euler’s method, modified Euler’s
method, Runge-kutta method.
06 Hrs
Text Books:
Sr.
No Title Author Publisher Edition
Year of
Edition
01 Numerical Methods in
Engineering & Science
Dr. B. S
Grewal
Khanna
Publishers 9th 2010
02
Advanced
Engineering
Mathematics
H. K. Das S. Chand 22nd 2018
03 Linear Algebra Seymour Lipschutz,
Marc Lars Lipson McGraw-Hill 4th 2009
04 Higher Engineering
Mathematics B. V. Ramana
Tata McGraw Hill
Publ. 6th 2010
Reference Books:
Sr.
No Title Author Publisher Edition Year of Edition
01 Higher Engineering
Mathematics
Dr. B. S
Grewal
Khanna
Publishers 44th 2018
02
Advanced
Engineering
Mathematics
N. P. Bali,
Manish Goyal
Infinity science
press 7th 2010
03 Linear Algebra and
its Applications
Gilbert Strang Thomson
publication(USA)
4th 2006
04 Numerical Methods
Dr. P. Kandasamy,
Dr. K.
Thilagavathy, Dr.
K. Gunavathi
S. Chand 1st 2010
List of Tutorials
Sr. No. Title of Tutorials
1 Vector Space
2 Vector Space
3 Numerical Solution of Algebraic and Transcendental Equations
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
4 Numerical Differentiation and Integration
5 Partial Differentiation
6 Application of Partial Differentiation
7 Ordinary Differential Equation.
8 Numerical Solution of Ordinary Differential Equation
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Course Structure:
Class B. Tech, Sem. II
Course Code and Course Title 1CSPC107- Data Communication
Prerequisite/s -
Teaching Scheme: Lecture/Tutorial 3/0
Credits 03
Evaluation Scheme: ISE I / MSE / ISE II / ESE 10/30/10/50
Course Objectives:
1 To study the fundamental concept and principles of data communication.
2 To learn data encoding techniques
3 To Compare and analyze various networking technologies and its types.
4 To make students understand working of various network models and layers.
Course Outcomes (COs):
Upon successful completion of this course, the student will be able to:
1CSPC107_1 Explain the fundamental of data communication. (K2)
1CSPC107_2 Explain different transmission media with analog and digital data transmission
methods.(K2)
1CSPC107_3 Apply the data encoding methods. (K3)
1CSPC107_4 Explain working of multiplexing and switching methods.(K2)
1CSPC107_5 Summarize the layered architecture of network models with topologies and its
types. (K2)
Course Contents:
Unit
No.
Unit Name Contact
Hours
Unit 1
Communication Basics:
DataCommunication–Definition,Components,Datarepresentation,DataFlow
Networks– Definition, Uses, Topologies, Categories,
The Internet–History, ISP hierarchy, Protocols & Standards–Protocols,
Standards, Standards Organizations
07 Hrs.
Unit 2
Transmission media.
Guided Media: Twisted pair cable, Coaxial cable, Optical Fiber cable.
Unguided Media: Radio waves, Microwaves, Infrared.
07 Hrs.
Unit 3 Data and Signal:
Analog & Digital data, Analog & Digital signals, Transmission Impairments,
Data Rate Limits, and Performance.
07 Hrs.
Unit 4
Data Encoding Digital-to-Digital conversion–Line coding, Line Coding Schemes ,Block coding,
Analog-to-Digital conversion–Pulse code modulation, delta modulation,
Digital-to-Analog conversion–ASK, FSK,PSK,
Analog-to-Analog conversion–AM, FM,PM.
08 Hrs.
Unit 5
Multiplexing & Switching Parallel and Serial transmission
Multiplexing–Frequency, Wavelength, Time-division,
Switching–Circuit switched, Datagram Networks, Virtual circuit network,
07 Hrs.
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Structure of switches
Unit 6 Network Models Network topologies, Categories of Networks, Layered Tasks, The OSI model,
Layers in the OSI model, TCP/IP protocol suit.
06 Hrs.
Text Books:
Sr.
No Title Author Publisher Edition
Year
of
Edition
01 Data Communications and
Networking
BehrouzA
Forouzan
TataMcGraw-
Hill
4th 2012
02 Computer Networks AndrewS.
Tanenbaum
PrenticeHall
5th 2011
03 Computer communications
And Networking
Technologies
MichaelAGallo
CengageLearning
1st 2001
04 TCP/IP Protocol Suite BehrouzA.
Forouzan
TataMcGrawHill
edition 3rd 2005
Reference Books:
Sr.
No
Title Author Publisher Edition Year of
Edition
01 Data & computer
communications
William
Stallings
Pearson Education 8th
2011
02 Data communication and
Computer Networks Ajit Pal
PHIL earning 1st
2014
03 Computer Networking:
Principles, Technologies
and protocols of network
design–
Natalia
Olifer and victor
Olifer
Wiley India
Edition
1st
2009
04 TCP/IPVolume1,2, 3, W.Richard
Stevens Addison Wesley 1st 2005
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Course Details
Class F.Y B.Tech, Sem.-II
Course Code and Course Title 1BSES108 Basic Mechanical Engineering
Prerequisite/s --
Teaching Scheme: Lecture/Practical 2/0
Credits 02
Evaluation Scheme: ISE1/ MSE /ISE2/ ESE 10/30/10/50
Course Objectives:
1. Summarize the Conventional and Non-Conventional Power plants and its functioning.
2. Explain fundamental concepts of thermodynamics from engineering point of view
3. Describe and demonstrate the various mechanical systems
4. Understand the working of power transmission system, its types.
5. Relate different production processes commonly used in industries.
Course Outcomes (COs): Upon successful completion of this course, the student will be able to:
1BSES108_1 Distinguish different operations/machines involved in manufacturing processes. (K1)
1BSES108_2 Describe power generation processes from different energy sources. (K2)
1BSES108_3 Explain the basic concept of Gas laws and IC engines. (K2)
1BSES108_4 Distinguish between various mechanical systems. (K2)
1BSES108_5 Explain principles of power transmission devices and its types. (K2)
1BSES108_6 Calculate the operating and geometric parameters in power transmission systems.
(K3)
Course Contents: Contact
Hrs
Unit 1
Energy Sources & Power Plants
Renewable and nonrenewable, Solar-flat plate collector, concentric collector–
Parabolic and cylindrical, Photovoltaic cell, Wind, Hydropower plant, Steam
Power plant.
05 Hrs.
Unit 2
Gas Laws & I. C. Engine
Ideal Gases – Concept of Constant Pressure, Constant Volume, Constant
Temperature, Adiabatic, Polytropic and their representation on p-V and T-s
diagrams, Basic Components of IC Engines and Terminology, Four stroke and Two
stroke engines.
05 Hrs.
Unit 3
Refrigeration & Air Conditioning System
Second Law of Thermodynamics, Carnot Refrigerator, Vapour compression and
Vapour absorption system.
04 Hrs.
Unit 4 Mechanical systemsand Energy Conversion Devices
Pumps, Compressors, Hydraulic turbines - Pelton, Francis and Kaplan 05 Hrs.
Unit 5
Power Transmission Belt drives and gears drives, (Numerical’s on belt tensions, gear ratio, and velocity
ratio)
05 Hrs.
Unit 6
Manufacturing Processes:Casting process -Sand casting and metal joining
processes - Arc welding, Gas welding, soldering and brazing, Metal Removing
Process- turning, drilling, milling and reaming.
04 Hrs.
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Text Books::
Sr.
No Title Author Publisher Edition
Year of
Edition
01 Non-Conventional Sources
of Energy G. D. Rai Khanna Publication 5th 2012
02 Engineering
Thermodynamics R. K. Rajput
Laxmi Publication,
Delhi. 8th 2011
03 IC Engines V. Ganesan Tata Mc- Graw Hill
Publication 4th 2013
04 Workshop Technology
Hajra
Choudhary,
Bose
Media Promoters &
publishers Pvt.
Ltd. (Vol.-I & II).
13th 2011
Reference Books:
Sr.
No Title Author Publisher Edition
Year of
Edition
01 Thermodynamics
Yunus A.
Cengel and
Boles
Tata Mc-Graw Hill
Publication 7th 2012
02 Manufacturing Technology P. N. Rao Tata Mc-Graw Hill
Publication 2nd 1999
03 Theory of machines S.S. Ratan Tata-McGraw Hill
Publications. 3rd 2012
04 Thermal engineering P.L Ballaney Khanna Publications 22nd 2000
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Course Details:
Class F.Y. B.Tech, Sem.-II
Course Code and Course Title 1CSES109 Basic Electronics Engineering
Prerequisite/s --
Teaching Scheme: Lecture/Tutorial 2/0
Credits 02
Evaluation Scheme: ISE I / MSE / ISE II / ESE 10/30/10/50
Course Objectives: The course aims to:
01 Provide an introduction to digital logic design, leading to understand number system, Boolean
algebra and its relevance to digital logic design.
02 Illustrate combinational & sequential digital circuits.
03 Provide basic knowledge in solid state electronics including passive and active components and
sensors.
04 Analyze logic processes and implement logical operations using combinational logic circuits.
Course Outcomes (COs):
Upon successful completion of this course, the student will be able to:
1CSES109_1 Explain fundamental concept of number system and its conversion amongst them(K2)
1CSES109_2 Interpret logic functions, circuits, truth tables and Boolean algebra expression. (K2)
1CSES109_3 Implement Combinational and Sequential circuits using standard gates by applying
reduction techniques.(K2)
1CSES109_4 Explain different Electronic components like resistor, capacitor, inductor etc.(K2)
1CSES109_5 Explain characteristics and working of basic electronic components like diode,
transistor. (K2)
Course Contents:
Unit 1 Number Systems:
Decimal, Binary, Octal & Hex number system. Inter-conversion of number system,
Unsigned and Signed binary numbers (Sign magnitude, 1’s complements, 2’s
complement)
05 Hrs.
Unit 2 Logic Gate and Boolean algebra:
Classification of Logic gates, binary addition, subtraction, division, multiplication.
Boolean Laws, De-Morgan's Theorems, simplification of logic expressions.
05 Hrs.
Unit 3 Combinational Logic circuits:
Adders, Subtractors, Decoders, Encoders, Multiplexers, De-multiplexers
04 Hrs.
Unit 4 Sequential Logic circuits:
Introduction to Shift registers, Flip-flops & counters
04 Hrs.
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Unit 5 Introduction to Passive Components:
Resistors, Capacitors, Inductors (Various Types, Construction, Color coding,
Specifications, Mathematical representation.)
05 Hrs.
Unit 6 Introduction to Active Components Diode: Construction, Diode biasing, V-I characteristics, Types of Diode (Zener
diode, Photo diode, LED- symbol, construction, working, characteristics),
Introduction to transistor.
05 Hrs.
Text Books:
Sr. No Title Author Publisher Edition Year of
Edition
01 Fundamentals of Digital
Design Anand Kumar PHI 2nd 2009
02 Digital Principals &
Applications
Albert
Malvino,
Donald Leach
TMGH
Publication 3rd 1981
03 Principle of Electronics V.K. Mehta S. Chand 1st 2010
04 A Text Book of Applied
Electronics R S Sedha S. Chand 2nd 2013
Reference Books:
Sr.
No Title Author Publisher Edition
Year of
Edition
01 Digital Design John Wakerly Prentice Hall India
Publication 4th 2005
02 Modern Digital Electronics R.P Jain TMGH Publication 3rd 2005
03 Fundamental of Electronics
Engineering R.Prasad
CENGAGE-
Learning 3rd 2012
04 Electronic Devices and
Circuits
R. Boylestad
& L.
Nashelsky
PHI 11th 2012
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Course Details:
Class F.Y. B. Tech, Sem. II
Course Code and Course Title 1CSBS110 Biology for Engineers
Prerequisite/s -
Teaching Scheme: Lecture/Tutorial 2/0
Credits 02
Evaluation Scheme: ISE I / MSE / ISE II / ESE 10/30/10/50
Course Objectives:
01 To provide basic knowledge of biological systems and neural network.
02 To study the terms used in pathology and various disorders.
03 To learn knowledge of biomolecules, enzymes, genetic code and nucleic acids.
04 To provide the knowledge of microorganisms and understand the scope of microbiology.
Course Outcomes (COs):
Upon successful completion of this course, the student will be able to:
1CSBS110_1 Explain the fundamental of cell biology & neural network. K2)
1CSBS110_2 Define the various disorders & infectious diseases.( K1)
1CSBS110_3 Explain the biological significance & applied energetics of carbohydrates, lipids,
amino acids. ( K2)
1CSBS110_4 Understand the basics of genetic code & nucleic acids with mechanism of genetic
inheritance. (K2)
1CSBS110_5 Explain the basics & importance of microbiology with classification & cultivation of
bacteria fungi ,viruses (K2)
Course Contents: Contact
Hrs
Unit 1 Introduction to Biology: History and Significance of Biology; Origin of life; Biological Evolution;
Binomial Nomenclature; Classification of living organisms (five Kingdom
classification) Levels of structural organization and body systems, Basic life
processes, Homeostasis Cell Biology:
Definition; Types - Prokaryotic and Eukaryotic cell,
Structure of cell in human body; Functions of Cell; Transport across cell
membrane; Cell Division.
06 Hrs
Unit 2 Fundamentals of Nervous Systems:
Organization of nervous system; Neuron and Neuroglia; Classification and
Properties of nerve fibre; In brief structure and functions of Brain and Spinal cord.
Nerve Action Potential, Nerve Impulse- Generation & Conduction
04 Hrs
Unit 3 Introduction to Pathology:
Terminology used in Pathology; Subdivisions of Pathology; Histopathology:
Meaning, Technique used in histopathology; Terminological introduction to various
disorders- Hypertension, Ischemic heart disease, Arteriosclerosis, COPD, Renal
Failure, Anemia, Diabetes mellitus, Epilepsy, Stroke, Depression, Schizophrenia,
Peptic Ulcer, Jaundice, Hepatitis, Osteoporosis and Gout, Cancer; Infectious
diseases -Typhoid, Leprosy, Tuberculosis, UTI, AIDS, Syphilis, Gonorrhoea.
04 Hrs
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Unit 4 Biomolecules and Enzymes:
Introduction, Classification, Chemical nature and Biological role of Carbohydrate,
Lipids, Nucleic acids, Amino acids; Concept of free energy, Endergonic and
Exergonic reaction Glycolysis and Citric acid cycle – Pathway, Energetics and
Significance. Introduction, properties, and IUB classification of Enzymes. Enzyme
kinetics (Michaelis plot, Line Weaver Burke plot)
Regulation of enzymes: enzyme induction and repression, allosteric enzymes
regulation
06 Hrs
Unit 5 Genetics, Genetic Information Transfer and Inheritance:
Introduction to Chromosomes, Genes, DNA, RNA, Organization of mammalian
genome. Structure & Functions of DNA and RNA. Sex determination– In humans,
Inheritance: Mechanisms of inheritance, Unifactorial Inheritance, Multifactorial
inheritance, Sex-linked Inheritance.
04 Hrs
Unit 6 Microbiology:
Introduction, History, Branches, Scope and importance of Microbiology.
Introduction to Prokaryotes and Eukaryote Study of ultra-structure and
morphological classification and cultivation of bacteria, fungi and viruses.
04 Hrs
Text Books:
Sr. No Title Author Publisher Edition Year of
Edition
01 Concept of Cell
Biology
P. S. Verma and V.
K. Agarwal
S. Chand and
Company Ltd
- 2002
02 A Text book of
Zoology
R. D. Vidyarthi and
P. N. Pandey
S. Chand and
Company Ltd
- 2004
03 Practical Book of
Biochemistry
Surya Prakash Nirali Prakashan - 2018
04 A & P Textbook of
Microbiology
R. Ananthanarayan Orient Black
Swan;
9th 2013
Reference Books:
Sr. No Title Author Publisher Edition Year of
Edition
01 Principles of
Anatomy &
Physiology
Gerard J. Tortora John Wiley &
Sons
14th 2014
02 Textbook of
Pathology
Harsh Mohan Jaypee Brothers
Medical
Publishers (P) Ltd
6th 2010
03 Biochemistry U. Satyanarayan Books & Allied
(P) Ltd, Kolkata
5th 2017
04 Lehninger Principles
of Biochemistry
David L. Nelson W H Freeman &
Co
6th 2012
05 Microbiology Pelczar Jr., M J,
Chan, E C S and
Krieg, N R
McGraw-Hill 1st 2012
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Course Details:
Class F.Y. B. Tech, Sem.- II
Course Code and Course Title 1CSES154 Basic Electronics Engineering
Laboratory
Prerequisite/s --
Teaching Scheme: Practical/Tutorial 02/00
Credits 01
Evaluation Scheme: ISE 50
Course Objectives:- The Course aims to,
1 Familiarize the students with basic electronics equipment and components
2 Develop the ability to analyze analog and digital electronics circuits
3 Develop competence in Combinational Logic Problem formulation and Logic
Optimization.
4 Acquire basic knowledge on the working of various semi-conductor devices.
Course Outcomes (COs):-
After successful completion of this course, the student will be able to,
1CSES154_1 Implement combinational & sequential circuits by applying the knowledge of logic
gates. (K3)
1CSES154_2 Explain the characteristics of different electronics devices such as diodes , transistors
etc. (K2)
1CSES154_3 Use Laboratory equipments for testing and measurement of various electronic
components.(S3)
1CSES154_4 Construct and take measurement of various circuits to compare experimental results in
the laboratory with theoretical analysis. (S3)
1CSES154_5 Interact effectively with the instructor and the teaching assistant(s) during lab hours
and discussions in order to further their learning experience and their interest.(A3)
Sr.
No. Title of Experiment
1
Familiarization with Laboratory Instruments (Oscilloscope, Function Generator, Digital
Multimeter, DC Power Supply) and electronics components (R, L, C, Diodes, Transistor, LED,
Switches)
2 Implement logic gates and verify its truth table. ( OR, AND, NOT, NAND, NOR, EXOR,
EXNOR)
3 Implement NAND & NOR as a universal gate
4 Design and implement adder circuits.
5 Design and implement Subtractor circuits
6 Design and implement Multiplexers
7 Design and implement De-multiplexers.
8 Design and implement Encoders
9 Design and implement Decoders
10 Verify V-I Characteristics of PN junction diode.
11 Verify V-I Characteristics of Zener diode.
12 Study of rectifiers(Half wave rectifier & Full wave rectifier)
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
*Any Ten Experiments should be performed from above listed table.
Text Books:
Sr. No Title Author Publisher Edition Year of
Edition
01 Fundamentals of Digital
Design Anand Kumar PHI 2nd 2009
02 Digital Principals &
Applications
Albert
Malvino,
Donald Leach
TMGH
Publication 3rd 1981
03 Principle of Electronics V.K. Mehta S. Chand 1st 2010
04 A Text Book of Applied
Electronics R S Sedha S. Chand 2nd 2013
Reference Books:
Sr.
No Title Author Publisher Edition
Year of
Edition
01 Digital Design John Wakerly Prentice Hall India
Publication 4th 2005
02 Modern Digital Electronics R.P Jain TMGH Publication 3rd 2005
03 Fundamental of Electronics
Engineering R.Prasad
CENGAGE-
Learning 3rd 2012
04 Electronic Devices and
Circuits
R. Boylestad
& L.
Nashelsky
PHI 11th 2012
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Course Details:
Class B. Tech Sem. -II
Course Code & Course Title 1CSBS155- Biology for Engineers
Laboratory
Prerequisite/s --
Teaching Scheme (Lecture/Tutorial/Practical) 0/0/2
Credits 1
Evaluation Scheme: ISE/ESE 50/0
Course Objectives
1 To learn the basics of microscope and its uses for study nervous system using specimen
2 To provide the basic knowledge regarding the qualitative analysis of carbohydrates and
proteins.
3 To learn the enzymatic hydrolysis of starch.
4 To study different equipment’s and it’s processing for sterilization and cultivation of bacteria
and fungi.
Course Outcomes (COs) Students will be able to:
1CSBS155_1 Make use of different equipment’s used in microbiology. (K3)
1CSBS155_2 Identify the carbohydrates & proteins by using various chemical tests(K3)
1CSBS155_3 Determine salivary amylaze activities on starch. (K3)
1CSBS155_4 Understand the concepts of sub culturing of bacteria, fungi and its stenning techniques
or methods. (K2)
1CSBS155_5 Perform different biological experiments. (S2)
1CSBS155_6 Follow professional and ethical principles during laboratory work in a team for
laboratory activities. (A2)
List of Experiments: It should consist of minimum 8-10 experiments based on following list.
1. Study of Microscope
2. Study of nervous system using specimen, models, etc.
3. Qualitative analysis of Carbohydrates
(Glucose, Fructose, Lactose, Maltose, Sucrose and starch)
4. Identification of Proteins (albumin and Casein)
5. Study of enzymatic hydrolysis of starch.
6. Determination of Salivary amylase activity.
7. Study of different equipment’s and processing, e.g., B.O.D. incubator, laminar flow, aseptic
hood, autoclave, hot air sterilizer, deep freezer, refrigerator, microscopes used in experimental
microbiology.
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
8. Sterilization of glassware, preparation and sterilization of media.
9. Sub culturing of bacteria and fungus. Nutrient stabs and slants preparations
10. Staining methods- Simple, Grams staining.
11. Staining methods-Acid fast staining.
12. Preparation of permanent slides of organs.
Text Books:
Sr.
No Title Author Publisher
Year of
Edition
01 Concept of Cell Biology P. S. Verma and V.
K. Agarwal
S. Chand and
Company Ltd
2002
02 A Text book of Zoology R. D. Vidyarthi and
P. N. Pandey
S. Chand and
Company Ltd
2004
03 Practical Book of
Biochemistry
Surya Prakash NiraliPrakashan 2018
04 A & P Textbook of
Microbiology, 9th Edition
R. Ananthanarayan Orient BlackSwan; 2013
Reference Books:
Sr.
No Title Author Publisher Edition
Year of
Edition
01 Principles of Anatomy &
Physiology
Gerard J. Tortora John Wiley &
Sons
14th 2014
02 Textbook of Pathology Harsh Mohan Jaypee Brothers
Medical
Publishers (P) Ltd
6th 2010
03 Biochemistry U. Satyanarayan Books & Allied
(P) Ltd, Kolkata
5th 2017
04 Lehninger Principles of
Biochemistry
David L. Nelson W H Freeman &
Co
6th 2012
05 Microbiology Pelczar Jr., M J,
Chan, E C S and
Krieg, N R
McGraw-Hill 1st 2012
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Course Details:
Class F.Y. B. Tech, Sem. I
Course Code and Course Title 1BSES156 Computer Programming
Prerequisite/s --
Teaching Scheme: Lecture/Tutorial/Practical 3/0/4
Credits 05
Evaluation Scheme: ISE /ESE 50/50
Course Objectives: The course aims to:
01 To expose programming constructs of C language to the students.
02 To develop problem solving skills amongst the students.
03 To learn how to write modular and efficient C programs.
04 To implement C programs for various problem statements.
Course Outcomes (COs): Upon successful completion of this course, the student will be able to:
1BSES156_1 Write, compile and debug programs in C language. ( K2)
1BSES156_2 Make use of different data types in a computer program ( K3)
1BSES156_3 Make use of conditional expressions and looping statements to solve problems
associated with conditions and repetitions ( K3)
1BSES156_4 Construct the C code using a modular approach.( K3)
1BSES156_5 Demonstrate C Programs for various problem statements. (A3)
1BSES156_6 Practice C program for various problem statements. (S3)
Course Syllabus
Course Contents: Contact
Hrs.
Unit 1
Basics of Programming
The meaning of algorithms, Flowcharts, Pseudo codes, Writing algorithms and
drawing flowcharts for simple exercises, Memory concepts, C Program
development environment.
03 Hrs.
Unit 2
C Fundamentals
Importance of ‘C’ Language, History, Structure of ‘C’ Program, Sample ‘C’
Program, Constants, variables and data types, Enumeration. Operators and
expressions, Managing input / output operations, Control statements-Decision
making, Case control & Looping Constructs.
06 Hrs.
Array
The meaning of an array, one dimensional and two dimensional arrays, declaration
and initialization of arrays, reading , writing and manipulation of above types of
arrays, multidimensional arrays.
05 Hrs.
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Strings-Declaring and initialing character array, reading and writing string to/from
terminal, arithmetic operations on characters, putting strings together, string
handling functions.
Unit 4
Functions
Need of user defined functions, elements of User defined functions, defining
functions, return values and their types, function calls, function declaration,
methods of parameter passing, Scope rule of functions, user defined and library
functions.
04 Hrs.
Unit 5
Structure & Pointers
Need of Structure, Defining a structure, declaring and accessing structure variables,
structure initialization, copying and comparing structure variables, array of
structures, structures and functions, Unions.
Understanding pointers, accessing the address space of a variable, declaring and
initialization pointer variables, accessing a variable through its pointer, pointer
expressions, pointers and arrays, pointer and character strings, pointer and structure,
Void pointer and generic pointer, null pointer, dangling pointer, pointer to a
function, Calling A function through function pointer.
Dynamic memory allocation malloc() ,calloc() ,realloc(),free(),Core dump ,
Memory leak.
07 Hrs.
Unit 6
File Handling
Defining and opening a file, closing a file, input/output operations on files, error
handling during I/O operations, random access files, command line arguments, C
preprocessor.
03 Hrs.
Experiment List:
1 Write an algorithm for given problem statement.
2 Draw a flowchart for given problem.
3 program using different data types and operators in C.
4 Program using different operators and demonstration of operator precedence.
5 Program using if and if else construct.
6 Program using if else ladder and nested if else.
7 Program using switch case.
8 program to demonstrate looping constructs(while and for loops)
9 program to demonstrate looping constructs(do while and nested loops)
10 program to demonstrate one dimensional array
11 program to demonstrate two dimensional array
12 Implement a program to demonstrate String handling functions.
13 Implement a program to demonstrate user defined functions.
14 program to demonstrate concept of recursion (factorial, Fibonacci)
15 program to demonstrate concept of structures in c.
16 program to demonstrate concept of array of structures in c.
17 program to demonstrate pointers in c.
18 program to demonstrate pointers arithmetic in c.
19 Program to demonstrate function pointer.
20 Implement a program to demonstrate file handling.
21 Program to demonstrate command line arguments.
Annasaheb Dange College of Engineering and Technology, Ashta
Department of Computer Science & Engineering
HOD Dean Academics Director Executive Director
Text Books:
Sr.
No Title Author Publisher Edition
Year of
Edition
01 Programming And
Problem Solving Using C
Language
ISRD Group McGraw-Hill
Publications 1st 2012
02 Let Us C Yashwant Kanetkar BPB 3rd 2011
03
C How to Program
Harvey M. Deitel ,
Paul J. Deitel,
Abbey Deitel
Pearson 2nd 2009
04 Programming in ANSI C E. Balguruswamy Tata Mc-Graw
Hill
4th 2008
Reference Books:
Sr.
No
Title Author Publisher Edition Year of
Edition
01 The ‘C’ Programming
Language D. M. Ritchie Pearson 2nd 1998
02 C Programming
Laboratory: Handbook for
Beginners
Sidnal Wiley India
Limited 1st 2012
03 Understanding pointers in
C
Yashwant Kanetkar BPB Publications 4th 2001
04 Test your C Skills Yashwant Kanetkar BPB Publications 5th 2013
top related