G. H. RAISONI COLLEGE OF ENGINEERING (An …ghrce.raisoni.net/timetable2015/Teaching Plan-All...
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G. H. RAISONI COLLEGE OF ENGINEERING
(An Autonomous Institute under UGC Act 1956 & Affiliated to RTM Nagpur University)
B.E. First Year/ Semester I &II
TEACHING PLAN
Session: 2015-16
Subject: APPLIED MATHEMATICS – I (BAML101)
Sections: All
Subject Coordinator: Prof. S.R.Pidurkar
Lecture
No. Portion of Syllabus to be Covered
1 Discussion of Course Objective, Outcomes of M-I Syllabus
2 Differential Calculus : Successive differentiation.
3 Successive differentiation.
4 Taylor’s series for one variable.
5 Maclaurin series for one variable./
6 Sequences and Series.
7 Sequences and Series.
8 Sequences and Series.
9 Tutorial-1
10 Indeterminate forms
11 Indeterminate forms
12 Indeterminate forms
13 Curvature and radius of curvature (excluding Newton’s method).
14 Tutorial-2
15 Curvature and radius of curvature (excluding Newton’s method).
16 Centre of curvature. Specific applications of respective branch & TAE –II.
17 Partial Differentiation : Partial differentiation.
18 Functions of several variables.
19 Tutorial-3
20 First and higher order derivatives
21 Euler’s theorem.
22 Examples on Euler’s theorem.
23 Chain rules.
24 Tutorial-4
25 Total differential coefficient.
26 Total differential coefficient.
27 Partial Differentiation (Jacobian) : Jacobian .
28 Jacobian .
29 Tutorial-5
30 Taylor’s and Maclaurin series of two variables
31 Maxima and minima of function of two variables.
32 Maxima and minima of function of two variables.
33 Integral Calculus: Beta and Gamma function.
34 Tutorial-6
35 Beta and Gamma function.
36 Beta and Gamma function.TAE –III
37 Differentiation under integral sign
38 Differentiation under integral sign.
39 Tutorial-7
40 Tracing of curves (Cartesian and polar curves).
41 Tracing of curves (Cartesian and polar curves).
42 Quadrature.
43 Volumes and Surface of solids of revolutions.
44 Tutorial-8
45 Specific applications of respective branch.
46 More Problems & TAE –I.
47 Matrices-I:Introduction,Inverse of matrix by adjoint method.
48 Solution of simultaneous equations by adjoint method.
49 Consistency of system of equations.
50 Consistency of system of equations.
51 Linear dependence.
52 Inverse of matrix by partitioning method. TAE –V.
53 Matrices-II : Characteristics equation
54 Tutorial-9
55 Eigen values & Eigen vectors.
56 Reduction to diagonal form
57 Cayley Hamilton theorem (statement & verification).
58 Sylvester’s theorem.
59 Tutorial-10
60 Association of matrices with linear differential equations of second order
with a constant coefficients & TAE –VII.
B.E. First Year/ Semester I &II
TEACHING PLAN
Session: 2015-16
Subject: APPLIED MATHEMATICS – II (BAML110 )
Sections: All
Subject Coordinator: Prof. S.R.Pidurkar
Lecture
No.
Portion of Syllabus to be Covered
1 Discussion of Course Objective, Outcomes of M-II Syllabus
2 Multiple Integral: Introduction, Elementary double integrals,
3 change of variables
4 change of order of integration (Cartesian and polar),
5 Applications to mass,
6 Applications to area, (Cartesian and polar)
7 Applications to volume (Cartesian and polar)
8 Applications to center of gravity (Cartesian and polar)
9 Tutorial-1
10 Elementary triple integrals,
11 Specific applications for respective branch.
12 Statistics : Fitting of straight line, y = a + bx,
13 Fitting of a parabola y = a + bx + cx2 .
14 Tutorial-2
15 Fitting of exponential curves by method of least squares.
16 Measures of central tendency
17 Lines of regression
18 correlation. Rank correlation.
19 TAE-3( Home Assignment) ,Tutorial-3
20 Differential Equations: First order first degree differential equations
21 Linear Differential Equations
22 Reducible to linear
23 exact differential equations
24 Tutorial-4
25 Higher order linear differential equations with constant coefficients
26 Higher order linear differential equations with constant coefficients
27 Higher order linear differential equations with constant coefficients
28 Higher order linear differential equations with constant coefficients
29 Tutorial-5
30 method of variation of parameters
31 Differential Equations (Applications) : Cauchy's homogeneous differential
equations .
32 Legendre differential equations
33 Term Work 2:
Numerical Computations by using Matlab:
1) Solving of differential equation using MATLAB
34 Tutorial-7
35 Simultaneous differential equations
36 Special types of differential equations
37 Application of differential equations to electric circuits, Kinematics and
vibrations (only up to second order).
38 Application of differential equations to electric circuits, Kinematics and
vibrations (only up to second order).
39 Tutorial-8
40 More proobems
41 Specific applications for respective branch.
42 Revision
43 Term Work 2:
Numerical Computations by using Matlab:
2) Creating & executing Simulink model for different application.
44 Vector Calculus: Scalar triple product. Vector triple product. differentiation
of vectors,
45 Gradient of scalar point function,
46 Directional derivatives
47 Divergence and Curl of vector point function
48 solenoidal motion and irrotational motion.
49 Tutorial-9
50 Vector Calculus (Integration): Vector integration
51 line surface
52 volume integrals
53 Term Work 2:
Numerical Computations by using Matlab:
3)Handeling Complex algebra using MATLAB.
54 Tutorial-10
55 Stoke’s theorem (without proof)
56 Gauss divergence theorem,
57 Gauss divergence theorem,
58 Green’s theorem in plane
59 Green’s identities and their simple applications
60 Specific applications for respective branch.
B.E. First Year/ Semester I &II
TEACHING PLAN
Session: 2015-16
Subject: APPLIED PHYSICS (BPHL102) Sections: All
Subject Coordinator: Mrs. V. D. Raut
LECTURE
NO.
TOPIC TO BE COVERED
• ELECTRON BALLISTICS
1 Motion of charges in uniform parallel electric field, energy equation
2 Motion of charges in uniform electric field perpendicular and at an
angle θ
3 Tutorial 1
4 Motion of charges in uniform parallel magnetic field and concept of
constant energy, Motion of charges in uniform perpendicular magnetic
field
5 Tutorial 2
6 Motion of charges in uniform magnetic field at an angle θ
7 Tutorial 3
8 Motion of charges in crossed fields
9 Tutorial 4
10 Electron optics : Bethe’s law
11 Electrostatic lens
12 Cathode Ray Tube
13 Block diagram of CRO, Working of each block of CRO
14 Applications of CRO
15 Applications of CRO
16 Cyclotron working and limitations (TAE-3:- Home Assignment)
17 Tutorial 5
• WAVE OPTICS
18 Reflection, refraction, concept of division of amplitude, Interference in
parallel thin films
19 Interference in non-uniform thin films: wedge shape and Newton’s
rings
20 Application of interference : Anti reflection coating, surface testing
21 Tutorial 6
22 Brewster’s law, Malus law, optics axis, double reflection in Quartz
prism
23 Quarter and half wave plate, Polarization and its types
24 Production and detection of linear, circular and elliptical polarizations
(TAE-1- Quiz/ question answer/Aptitude test/ Extempore)
25 Tutorial 7
• LASER
26 Laser characteristics and Applications
27 Three Quantum Process : Absorption, spontaneous and stimulated
emission of radiation
28 Population inversion, metastable state, active medium
29 Pumping and pumping schemes: Three and four level scheme
30 Optical resonator: working
31 Ruby laser : Construction and working
32 He-Ne Laser: Construction and working
33 Expressions for coherence length and coherence time (TAE-7 Poster
making/Paper review)
34 Tutorial 8
QUANTUM MECHANICS
35 Compton Effect ; concept, equations for conservation of momentum
and energy, Compton shift equation, significance
36 Tutorial 9
37 Wave particle duality, De Broglie Hypothesis
38 De Broglie model of an atom justification for Bohr’s postulate
39 Davisson and Germer Expt: Construction, polar graphs, wavelength
calculations by Bragg’s law and by de broglie concept
40 Tutorial 10
41 Phase velocity, Group Velocity
42 Concept of Wave Packet Heisenberg’s Uncertainty Principle with
significance
43 Thought experiment for electron diffraction through single slit
44 Wave Function and its probability interpretation [TAE-5 Seminar/PPT
( Applications of Polarization, Interference, Laser, Semiconductor)]
45 Tutorial 11
46 Schrödinger’s Wave equations: time dependent and time independent
from time dependent
47 Infinite potential well, Eigen values and eigen function
48 Tutorial 12 (TAE-2 Surprise test/ Numerical test/ Derivation test)
49 Finite potential well: Tunneling
• SEMICONDUCTORS
50 Formation of energy bands in solids.
51 Classification of solids into insulators, semiconductors and conductors
52 Fermi function and Fermi energy level, intrinsic semiconductor
53 Intrinsic semiconductors, energy band diagrams of silicon and
germanium
54 Comparison with band diagrams of carbon (diamond) and Sodium
55 Tutorial 13
56 Extrinsic semiconductor, dependence of Fermi energy on temperature
57 Dependence of Fermi energy on doping concentration, derivation of
law of mass action
58 Current conduction in a semiconductor
59 Hall effect : concept, derivation of hall coefficient, Applications
60 Tutorial 14
61 p-n junction diode, diode rectifier equation
62 Zener diode, Avalanche and Zener break down mechanisms, LED
63 Tutorial 15
• ADVANCED TRENDS
64 Electrical: Diffraction/ Nuclear Physics/ Electromagnetics /Dielectric
and magnetic materials
Mechanical: Thermodynamics and Statistical Mechanics/ Thermal
properties of solids/ Magnetism and Superconductivity
ETRX, ETC, CSE and IT: Nanomaterials and Superconductivity
Civil: Applications of Polarization (Optical Activity) , Applications of
Laser- Holography/ Interferometer/ Acoustics / ultrasonics.
65 Electrical: Diffraction/ Nuclear Physics/ Electromagnetics /Dielectric
and magnetic materials
Mechanical: Thermodynamics and Statistical Mechanics/ Thermal
properties of solids/ Magnetism and Superconductivity
ETRX, ETC, CSE and IT: Nanomaterials and Superconductivity
Civil: Applications of Polarization (Optical Activity) , Applications of
Laser- Holography/ Interferometer/ Acoustics / ultrasonics.
B.E. First Year/ Semester I &II
TEACHING PLAN
Session: 2015-16
Subject: APPLIED CHEMISTRY (BCHL103) Sections: All
Subject Coordinator: Dr. R. R. Shrivastava
Lecture
No
TOPIC COVERED
1. Water technology- Introduction
2. Purification of domestic water : screening ,sedimentation coagulation
3. Purification of domestic water :Filtration ,Sterilization
4. Concept of Hardness Scale of hardness units of hardness
5. Tutorial-1: Calculations of hardness
6. Softening Methods–Cold lime soda –Principle reactions process
7. Hot lime soda- Advantage over cold lime soda process, reactions process
8. Zeolite Process: Principle Process , limitation
9. Ion -Exchange Method: Principle Process, Advantages
10. Tutorial-2: Numerical on Zeolite
11. Boiler Trouble: Caustic Embrittlement, Boiler corrosion
12. Boiler Trouble: Scale & Sludge Formation
13. Lime-Soda numerical - TAE- III
14. Internal Treatment Methods( Carbonate & Phosphate conditioning)
15. Tutorial-3 : Lime-Soda numerical
16. Internal Treatment Methods( Calgon & Colloidal conditioning)
17. Lime-Soda numerical: Purity Factor & Cost
18. Lubricants-Introduction & Mechanism: Hydrodynamic lubrication
19. Mechanism of lubrication: Boundary & Extreme-pressure lubrication
20. Tutorial-4: Lime-Soda numerical: Raw Water & Treated Water
21. Types of Lubricants: Solid Lubricant : Ex. Graphite
22. Semisolid Lubricants- Preparation & Properties of Greases
23. Emulsion & Synthetic lubricant
24. Properties of lubricant: Viscosity & V.I ,Cloud Point & Pour point
25. Tutorial-5: Lime-Soda numerical ( Combine)
26. Properties of lubricant :Flash & Fire point, Aniline point
27. Criteria for selection of lubricant
28. Corrosion: Introduction, Theories of Corrosion, Atmospheric and Electrochemical
Corrosion.
29. Differential aeration theory of corrosion & Factors Affecting Corrosion
30. Tutorial-6: Viscosity Index & Acid Value
31. Types of corrosion by PPT & Protection against Corrosion-Design & Material
selection
32. Protection of Corrosion: Cathodic and Anodic protection
33. Fuels & Combustion: Calorific value: GCV & NCV
34. Determination of calorific value by Bomb calorimeter
35. Tutorial-7: Numericals on Bomb Calorimeter
36. Determination of calorific value by Boys calorimeter TAE- VII
37. Significance of ultimate analysis , Pulverized Coal and Storage of Coal
38. Liquid fuel & fractional Distillation of Crude oil
39. Cracking :Fluid bed catalytic Cracking
40. Tutorial-8 : Numericals on Boys Calorimeter
41. Synthesis of Synthetic gasoline: Fischer-Tropsch Process
42. Knocking in Internal Combustion Engine
43. Alternative Fuels: LPG, CNG, Biodiesel, Gasohol, Aviation fuel
44. Introduction to combustion calculation
45. Tutorial-9: Combustion calculation
46. Combustion calculation
47. Battery Technology : Reversible and Irreversible batteries
48. Construction & working of Dry Cell and Lead-Acid Battery
49. Construction & working of Lithium ion Battery
50. Tutorial-10 : Combustion calculation
51. Construction & working of Ni & Cd
52. Environmental Chemistry: Environmental Chemistry by PPT
53. Environmental Chemistry by PPT
54. Green Chemistry by PPT
55. Tutorial-11 : Combustion calculation
56. Advanced trends in Applied Chemistry: Ceramic materials
57. Types: Crystalline & Non-Crystalline
58. Properties of Ceramic Materials
59. Applications of Ceramic Materials
60. Revision
61. Revision
B.E. First Year/ Semester I &II
TEACHING PLAN
Session: 2015-16
Subject: ENGINEERING MECHANICS (BCEL107) Sections: All
Subject Coordinator: Prof. P J Wadhai
Lecture
No. Portion of Syllabus to be covered
1
Fundamentals of Statics:
Definition of mechanics, Body, Rigid Body, Scalar quantities, Vector
quantities, Representation of vector, Fundamental Units, Derived Units,
Particle, Mass, Weight, Fundamental principles of mechanics, Newton’s law of
universal gravitation
2 Equivalent Force System (2-D) :
Concept of Force, Unit Newton force, System of force, Principle of
transmissibility of force, Resolution and composition of coplanar force system,
3 Resultant, Equilibrant, Law of parallelogram of force, Triangle law, Polygon
law, Moment of force, Varignon’s theorem,
4 Exercise Class 1
5
Couple and it’s properties, Reduction of system of forces into a force couple
system. Numericals on equivalent force involving co-planer force systems
acting on body,
6 Numerical on Reduction of Force System into Single Resultant
7 Numericals on reduction of system of forces into a force couple system.
8 Exercise Class 2
9 Equilibrium of Two Dimensional Force System :
Force System :
Concept of equilibrium, Principles of equilibrium, Equations of Equilibrium,
10 Lami’s theorem, Numericals on equilibrium involving co-planer force systems
acting on body.
11
TAE – 7 : One Crossword / Puzzle Competition ( Objective Type ) for 15
to
20 Words Completion Related to Subject Matter.
( 45 Minutes Duration )
Weight age :
Absent or No Words Completion = 0 Mark.
1 To 3 Words Completion = 1 Mark
4 To 6 Words Completion = 2 Marks
7 To 9 Words Completion = 3 Marks
10 & More Words Completion = 4 Marks
Exercise Class 3
13
Beam :
Beam, Simply Supported Beam, Overhanging Beam, Beam reaction, Types of
load acting over beam i.e. Concentrated load, Uniformly distribute load (UDL),
Uniformly varying load (UVL),
14 Types of support i.e. Simple support, Hinge support, Roller Support,
15 Numerical on reaction of beam subjected to combination of loads.
16 Exercise Class 4
17 Analysis of Truss :
Perfect Frame, Imperfect frame, Deficient frame, Redundant frame,
18 Assumptions made in analysis of truss, Method of joints,
19 Method of sections, Numericals on forces in the members of a truss
20 Exercise Class 5
21 Numericals on forces in the members of a truss.
22
TAE - 2 : Surprise Test :
One Surprise Test ( Objective Type ) for 20 Marks. ( 45 Minutes Duration )
Weightage :
Absent = 0 Mark.
ST Score 0 to 3 Marks = 1 Mark
ST Score 4 to 7 Marks = 2 Marks
ST Score 8 to 11 Marks = 3 Marks
ST Score 12 & Above Marks = 4 Marks
23 Spatial Force System (Three Dimensional Force System ) :
Component of force in a space, Resultant spatial force system,
24 Force multiplier, Cartesian form of representation of vector,
25 Unit vector, Position vector, Displacement Vector, Scalar product or Dot
product,
26 Vector product or Cross product, Length of common perpendicular between
two non intersecting vectors, Shortest distance,
27 Moment of force about point, Moment of force about axis, Moment arm of
force about point,
28
Exercise Class 6
29 Moment arm of force about axis, Resultant moment, Couple,
30 Friction :
Definition of friction, Types of friction, Angle of repose
31 Coulombs laws of dry friction, Analysis of rigid bodies on rough inclined
surfaces, Numericals on friction
32 .Exercise Class 7
33
Properties of Areas :
Centroid of plane areas, Moment of Inertia of composite lamina, Radius of
gyration,
34 Second moment of area, Parallel axis theorem, theorem,
35 Product of inertia, Perpendicular axis, Polar moment of inertia,
36 Exercise Class 8
37 Moment of inertia & product of inertia about new axes,
38 Principal moment of inertia and principal axis direction by analytical method
only.
39 Virtual Work :
Virtual Displacement, Definition of virtual work, Principles of virtual work
40
, Exercise Class 9
TAE - 1 : Quiz / Question & Answer Session :
Quiz / Question - Answer Session in Regular Class.
Overall Judgment : 04 Marks
41 Virtual work method applied to beams, frames & mechanisms.
42 Numerical On Virtual Work
43 Impulse And Momentum :
Linear impulse, Linear momentum, Momentum equation for a particle and a
system of particles,
44
Exercise Class 10
TAE - 3 : Submission of Home Assignment :
One Home Assignment..
Approximate 8 to 10 Numerical to be Submitted Within 15 Days After Display.
Submission of Home Assignment : 4 Marks.
45 Direct central impact, Coefficient of restitution. Numerical on impulse &
momentum.
46 Numerical on impulse & momentum.
47 Simple Stress & Strain :
Elasticity, Elastic body, Plastic body, Rigid body, Perfectly elastic body,
Partially elastic body, Axial loading.
48 Exercise Class 11
49 Stress, Strain, Tensile stress & strain, Compressive Stress & Strain,
50 Elastic limit, Hook’s law, Stress strain curve, Working stress, Allowable ( safe )
stress,
51
TAE - 5 : Seminar / Presentation / Self Study Technique (SST) :
Submission of Synopsis ( 5 to 6 pages ) on Seminar Topic of Students
Academic Interest . = 1 Mark.
Presentation & Delivery of Seminar : 3 Marks.
OR
Submission of Numericals ( 10-15 ) on the Topic Allotted for Self Study with
Viva Voce. = 4 Marks.
52 Factor of safety, Principle of superposition,
53 Exercise Class 12,
54 Natural deformation, Thermal stress & strain in homogeneous bars.
55 Numerical on Thermal stress & strain in homogeneous bars.
TAE-– 6 : Extra / Co-curricular Activity :
Topic of Students Interest / Aptitude Test / Model Making / Poster / Report
Writing / PPT Competition. One Engineering Mechanics Aptitude Test [EMAT].
Absent = 0 Mark.
Present / Participation =: Marks / As per norms circulated.
Prizes to Winner, 1st Runner and 2
nd Runner.
OR
Presentation on Innovative Practices Current Trends : Delivery of Expert
Lecture by Guest / Internal Faculty & Question Answer Session OR Multiple
Choice Question at the end of the Expert Lecture
56 to 58
REVISION
TAE - 4 : Theory Attendance :
Overall Attendance : 75 % & Above = 4 Marks
Overall Attendance : Below 75 % = 0 Marks
B.E. First Year/ Semester I &II
TEACHING PLAN
Session: 2015-16
Subject: BASIC ELECTRICAL (BEEL106) Sections: All
Subject Coordinator: Prof. H S Dalvi
Lecture
No.
Portion of syllabus to be covered
1 Introduction to Subject
2 D.C Circuit elements(Voltage, current, Resistance).
3 Voltage source, current source (definition & characteristics),Electric
Power
4 Series – parallel connection , Star-delta transformation
5 Kirchhoff’s Laws, Superposition Theorem
6 Numericals
7 Magnetic Circuit,flux, reluctance, Analogy with electric circuit series,
parallel
8 TAE-I
9 Kirchhoff’s Laws for Magnetic Circuit, Numericals on Series parallel
ckts.
10 A.C. circuit, Periodic functions,RMS value,Avg. value, Definitions
11 Introduction to Inductor, Capacitor with derivations (Relation between
voltage and current)
12 impedance in series-parallel,Numericals
13 Phasor representation for different circuits
14 Numericals
15 Principle OF generation of 3-phase,star-delta
16 3-phase voltage, Power in balanced in 3-phase ckt.
TAE-II
17 Electric measurement – ammeter & voltmeter, Electrodynamometer type
wattmeter
18 Induction type 1-phase wattmeter, Ext. of range
19 TAE-III
20 Basic Principle of 1 phase transformer, Types,emf Equation
21 Ideal transformer, on –load transformer,
22 Phasor dia. of transformer on load(unity,leading,lagging power factor)
23 Equi. ckt. of transformer,Numericals
24 Losses in transformer, Efficiency, regulation,Numericals
B.E. First Year/ Semester I &II
TEACHING PLAN
Session: 2015-16
Subject: BASICS OF COMPUTING (BITL104) Sections: All
Subject Coordinator: Prof. N S Raote
Lecture No. Headings Topic Description
1 Operating
System
Introduction, Windows, Linux
2 Linux basic commands
3 Computer Networks: Introduction, Peer to peer
connection
4 LAN, MAN, WAN, Internet, Wireless network.
5 TAE-7 Mind Maps
6 C Fundamentals Algorithm, Flowchart, Program development steps,
7 Basic structures of C language C tokens. Data types,
Declaration of variables.
8 Assigning values, Arithmetic, Relational and logical
operators.
25 OC/SC tests and numericals
26 TAE-V
27 D.C. machines-Introduction, construction
28 EMF & torque equation for generator and motor resp.
29 Classification of D.C. Motor,generator with numericals
30 EMF, Voltage, Current relations in generator, motor
31 Characteristics of D.C. Motor
32 Starting & speed control of D.C. motor with numericals
34 Introduction to three phase induction motor, production of Rotating
magnetic Field
35 Construction, working of I.M., Slip, TAE VI
36 Torque equation,slip torque characteristics,
37 Power stages in I.M.,Numericals
38 Introduction to single-phase Induction Motor.
39 Capacitor Start, shaded pole 1-Phase IM
40 Basic of Energy Storage devices
41 Flywheel applications
42 Super capacitor Applications
43 Material Characteristics of Energy storage devices
44 Revision
45 Revision
9 Increment and Decrement operators. Control operators.
10 Expressions, Evaluation. I/O operations. If Else
statement
11 SWITCH case statements. WHILE, DO-WHILE
12 FOR Statements. Programming Examples under linux.
13 TAE-2 Surprise Test Programming Examples under
linux
14 Arrays, string &
structure
One and Two Dimensional Arrays, Initialization, String
variables,
15 Declaration, Reading, Writing, String handling functions,
16 User defined functions, Variables and storage classes.
17 Recursion, Preprocessor, Structure definition. Unions,
18 Initializing, Assigning values, Passing of structure as
arguments,
19 Programming Examples.
20 TAE-1 Quiz/Activities
21 Enumerated Data
types
Enumerated data types, Renaming data types with
typedef( ), Type casting,
22 Bit wise operators. and bit manipulation.
23 Pointers Declaration and initializing pointers,
24 Pointer based expressions, Arrays, Strings.
25 goto and structures, C program examples. TAE-3 Home
Assignments
26 Functions Functions with variable number of arguments, Dynamic
memory allocation. Programming Examples.
27 pointer to pointer, Pointers to functions, Functions
Returning pointers,
28 File management File management in C,
29 Opening and closing, I/0 operations on files.
30 Programming Examples TAE 5-PPT
B.E. First Year/ Semester I &II
TEACHING PLAN
Session: 2015-16
Subject: BASICS ELECTRONICS (BECL105) Sections: All
Subject Coordinator: Prof. L P Thakre
Lecture
no. Topic to be covered
1 Introduction of BJT and transistor action
2 BJT configuration CB, CE and CC mode with normal biasing
3 I/p O/p characteristics of transistor, DC load line and numerical
4 Single stage CE amplifier, i/p & o/p impedance
5 Practical amplifier biasing, RC coupled single stage CE amplifier,
6 Freq. response curve and band width
7 BJT as switch, Revision on complete unit
8 TAE : Slide show on semiconductors and group discussion on it
Evaluation : depending on understanding and discussion on concept
9 Revision for BJT & its applications
10 Introduction to logic gates and their truth tables
11 Logic families: RTL logic for AND, OR, NOT gates
12 TTL logic for NAND gate, Properties of logic gates,
13 Boolean Algebra, Boolean Identities, D Morgan’s Laws, Simplification of
logical expressions
14 Implementation of expressions with basic gates and universal gates,
15 Sum of products & Product of Sums
16 Implementation of SOP on Karnaugh Map and solving techniques
17 Karnaugh Map continued, Quine Macklousky method
18 Number system Binary, Gray, Octal, Hex & ASCII codes,
19 Arithmetic Circuits-Adders, Subtractors, (Half & Full), revision on unit
20 TAE : Surprise test
Evaluation : relative grade wise
21 Revision for Digital Electronics Fundamentals
22 Combinational circuits : Parallel adder, Fast adders (carry look ahead)
23 Multiplexers, Demultiplexers,
24 encoder, decoder,
25 Comparators, Sequential circuits : Flip flops : SR,
26 Clocked SR, D, JK
27 Registers : Shift register, Counters : binary counter, revision on unit
28 TAE : Home Assignment
Evaluation : as per date of submissions
29 Nano Technology(Benefits of Nanotechnology, Memory and Storage)
30 Nano Technology(Benefits of Nanotechnology, Memory and Storage)
31 Revision for Combinational circuits
32 Revision for Combinational circuits
33 Revision for sequential circuits
34 Revision for sequential circuits
35 Revision for Nano Technology(Benefits of Nanotechnology, Memory and
Storage)
B.E. First Year/ Semester I &II
TEACHING PLAN
Session: 2015-16
Subject: ENGINEERING GRAPHICS (BMEL108) Sections: All
Subject Coordinator: Prof. S.R.Karale
Lecture
No.
Topic
1 Use of various drawing instruments, lines, lettering and ISI standards for
drafting. Simple geometrical construction.
2 Theory, techniques, first and third angle projections, multi view drawing from
pictorial views.) And view in orthographic projections. Projection of points.
3 Projection of straight lines inclined to both reference plane.
4 Projection of plane figures such as triangle, quadrilateral, regular polygons
circle, Plane inclined to both reference plane.
5 Auxiliary planes and view: Auxiliary vertical plane and Auxiliary inclined plane.
True shapes of plane figures.
6 Projections of solids such as Prisms with varying position of axes with ground
line.
7 Projections of solids such as pyramids with varying position of axes with ground
line.
8 Projections of solids such as cone, cylinder with varying position of axes with
ground line.
9 Section of solid such as Prisms, pyramids. Hatching lines
10 Section of solid such as cone, cylinder
11 Introduction to development of surfaces.
12 Conversion of pictorial view of solid to orthographic views.
13 Isometric projections
14 Isometric projections
15 Definition of scale, Representative fraction, construction of various scales such
as Plain, Diagonal, Comparative, Vernier, and Scale of Chords. Introduction to
basic Engineering curves (conic sections )
B.E. First Year/ Semester I &II
TEACHING PLAN
Session: 2015-16
Subject: COMMUNICATION SKILLS (BHUl113) Sections: All
Subject Coordinator: Dr. Zakeriya
Lecture
No.
Theory /
Activity /
Practical *
Unit Topics
1 --- --- Introduction to the Subject and Syllabus;
Diagonistic Test for English Profeciency
2 Theory I
Importance of Communication; Importance of
Communicating effectively in English;
Communication Process
3 Theory /
Activity I
Channels of communication; Barriers to effective
communication (Activity and Theory)
4 Theory II
Introduction to Technical Communication;
differences between General and Technical
Communication; importance of Technical
Communication
5 Theory II Technical Communication Skills – Listening,
Speaking, Reading, Writing
6 Theory III Listening Process; Hearing and Listening; Poor
listening habits; Traits of a good listener
7 Theory /
Activity III
Types of Listening; Barriers to Listening (Activity
and Theory)
8 Practical III Practical Exercises for Listening
9 Practical III Practical Exercises for Listening
10 Practical III Practical Exercises for Listening
11 Practical III Practical Exercises for Listening
12 Practical IV Phonetics and Diction
13 Practical IV Phonetics and Diction
14 Practical IV Phonetics and Diction
15 Practical IV Phonetics and Diction
16 Theory /
Activity IV
Body Language / Miscellaneous tips and
techniques on speaking
17 Activity IV Group Discussions
18 Activity IV Group Discussions
19 Theory V
Reading Process; Reading Skills - Vocabulary
Skills, Visual Perception Skills, Prediction
Techniques
20 Theory /
Activity V
Reading Comprehension – Techniques for good
comprehension - Skiming, Scanning, Intensive
Reading Skills
21 Activity V Reading Comprehension – Interpreting charts and
tables and other graphics
22 Theory /
Activity V Developing reading speed
23 Practical V Developing reading speed
24 Theory V Loud Reading
25 Theory V Loud Reading
26 Theory VI
Characteristics of Technical Writing –
introduction, characteristics, techniques; Choice of
right words, phrases and sentences; Principles of
paragraph writing
27 Theory /
Activity VII
Business Letters – The 7 Cs of Letter Writing,
structure of business letters, writing business
letters - applications
28 Theory VII Writing business letters - enquiry, quotations
29 Theory VII Writing business letters - complaints, cover letters
30 Theory VII Writing professional emails
31 Practical VII Writing professional emails
32 Practical VII Writing professional emails
33 Theory VIII Writing proposals, reports, press release
34 Theory VIII Writing articles, essays
35 Theory VIII Drafting of Notices and Advertisements (for
newspapers); note-making
36 Theory IX Effective use of dictionary; etymology;
homophones and homonyms
37 Theory IX Synonyms and antonyms; words frequently
confused or misspelt, idioms and phrases
38 Theory X Parts of Speech – introduction, prepositions
39 Theory X articles; tenses;
40 Theory X narration; punctuation; voice
B.E. First Year/ Semester I &II
TEACHING PLAN
Session: 2015-16
Subject: ETHICS & PROFESSIONAL COMPETENCY (BHUP109)
Sections: All
Subject Coordinator: Prof. Rutika Meshkar Sr. No. Topic Description
1 Ethics � Behavioural Values
� Code of Conduct in College
Premises
� Addiction
� Patriotism – Building respect for the
Country, National Anthem and
National Flag
� Ragging
� Respect for Individuals &
Environment
� Peer – Pressure & Support
� Moral Uprightness
� Importance of Altruism
� Living by the Rules.
Value System & Value
Education
� Understanding how value system
affects behaviour and perception
� Difference between Values, Moral
& Ethics
� Concept of Equality, Acceptance,
Humility
� Importance of Empathy
� Understanding the values in
Human- Human relationship
� Overview on core Human Values
� Importance of Value education for
College Student
� Understanding the meaning of
Vishwas : Differentiating between
intention and competence
� How to resolve ethical dilemma
� “Right” and “Wrong” Action
Copyrights, Corruption&
Integrity
� Introduction
� Moral Obligations
� Copyright Infringement
� Patent Law
� Case Study Analysis
2 Self Analysis The students are made aware of the
concept and importance of self-
analysis.
The following tools are explained along
with an activity for each: - SWOT Analysis
- JoHari Window
3 Goal Setting The importance and benefits of proper
goal setting is explained to the
students. The following topics are
covered: - S.M.A.R.T. Goals
- Principles of Goal Setting
- Steps for Goal Setting
- Activity
4 Grooming & Body
Language
The students are trained on various
aspects of self-grooming and body-
language.
5 Attitude Development Types of Attitude, How society affects
attitude, Importance of right
attitude, Activity
6 Vocabulary Building,
Public Speaking &
Extempore
Vocabulary Building, Crosswords,
Word & Meaning, Spellings,
Conversation Practice, Extempore
Practice, Intonation, Speech Anxiety
7 Making & Delivering
PowerPoint
Presentations
Tips & Techniques on making effective
presentation. Present with a
panache, Practice Presentation,
Body Language
8 Creative Thinking Creativity, Creative writing, Out of the
box thinking, Phases of Critical
Thinking, Ways to enhance
creativity, Creative habits of the
Mind, Brainstorming.
9 Self Awareness&
Mindfulness
Being Self Aware, Self Awareness in
relationships, SWOT, Developing
Self Awareness, Self Mastery
10 Value System & Value
Education
� Understanding how value system
affects behaviour and perception
� Difference between Values, Moral
& Ethics
� Concept of Equality, Acceptance,
Humility
� Importance of Empathy
� Understanding the values in
Human- Human relationship
� Overview on core Human Values
� Importance of Value education for
College Student
� Understanding the meaning of
Vishwas : Differentiating between
intention and competence
� How to resolve ethical dilemma
� “Right” and “Wrong” Action
11 Cheating, Copyrights,
Corruption
� Introduction
� Moral Obligations
� Copyright Infringement
� Patent Law
� Case Studies
� Case Study Analysis
B.E. First Year/ Semester I &II
TEACHING PLAN
Session: 2015-16
Subject: BIO SYATEMS IN ENGINEERING (BIDL101) Sections: All
Subject Coordinator: Prof. S. S. Wazalwar
LECTURE
NO.
UNIT
NO. Topic/Topic Description
UNIT 1
Genetic Engineering:
1.
Basic of biology, import aces and origin of life, introduction to
subfields of biology
2. DNA , Structure of DNA, cell types
3.
Basic of RNA, its structure ,Conversion process in prokaryotes
and eukaryotes
4.
Protein Engineering, Structure of protein, level of protein, protein
folding problem
5. TAE- I : Poster Making
UNIT 2
Human Physiology
6. Introduction to Human Anatomy and Physiology
7. The Nervous System
8. Cardiovascular System
9. TAE-2:- Technical Presentation
UNIT 3
Biomedical Instrumentation
10. Bio-imaging techniques, ECG, Computer aided ECG
11. X-Ray, MRI, CT Scan
12. Blood pressure measurement instrument, spirometry
13. TAE-3:- Bio Medical Instrumentation
UNIT 4
Telemetry
14. Introduction to telemetry, wireless telemetry, Signal channel
telemetry
15. Temperature telemetry, remote operation
16. Case study of various tools
17. Overview of various projects in different fields.
18. TAE-4:- Case Study on remote operation
UNIT 5
Brain Machine Interface
19. Invasive BMI,
20. Partially Invasive BMI
21. Non-Invasive BMI
22. Cell Culture BMI
UNIT 6
Applications of Biomedical Engineering
23. Biomedical Signal Processing and Modelling
24. Biomaterials and Prosthetic Devices
25. Biomedical Image Processing