sessional exam · test 1 section - a 1 introduction t scheme of examination , subject verb...
TRANSCRIPT
Name of Faculty:- Rashmi / Dr. Prem Singh Ahlawat
Discipline:- Applied Sciences
Semester:- 1st
sem 1August 2018 -30 Nov 2018
Subject: HSMC-ENG-101G ENGLISH LANGUAGE SKILLS
Week
Theory
Lecture
Day
Topic
(including assignment/
test
1
SECTION - A 1 Introduction – Scheme of examination , Subject verb agreement
2 Subject verb agreement
2 3 Noun Pronoun agreement
4 Governance of Nouns through Prepositions
3,4 5,6 Basic Verb Patterns (V)
7,8 Basic Verb Patterns (SVO) & ( SVO)
5,6 9,10 Basic Verb Patterns (SVC) , (SVOC)
11,12 Basic Verb Patterns (SVOA)
7
8
SECTION – B
13 Idioms , Foreign Words
14 Use of Active & Passive Voice.
Sessional exam 9
15,16
Referring Time in Language (Tenses)
10
17
Referring Time in Language (Tenses)
18
Referring Time in Language (Tenses)
SECTION - C
11
19 Basic concept – Vowels , Consonants
20 Phonemes
12 21 Syllable
22 Transcription of Words
13
Sessional exam
14
SECTION - D
23 The Secret of Work by swami Vivekananda
24 Patriotism beyond Politics & Religion By Abdul Kalam Azad
15 25 An Outline of Intellectual Rubbish by Bertrand Russell
26 Mother Teresa by Khushwant Singh
16 27 Writing Official Letters
28 Writing Official Letters
17
29 Essay ,Paragraph Writing
30
Discussion cum lecture for section - C
18
Pre University exam
Name of Faculty Dr. Kiran Malik
Discipline:- Civil
Semester:-M. TB.Tech Ist sem
Subject: Programming For Problem Solving
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
Lecture
Day
Topic
(including assignment/
test
Practical
Day Experiment
1 Introduction to Programming
2
Idea of Algorithm: Steps to solve
logical
3 Examples
4 Representation ofAlgorithm
5 Flowchart/Pseudocode
6 Examples
7 Examples
8 C Programming: Keywords
9 Variables and Data Types
10 basic, derived and user defined
11 Type Conversions
12
Header Files, Basic Input and
Output Functions
13 Statements, Compilation,
14
Syntax and Logical Errors in
compilation,
15
Object and Executable Code,
Storage Classes
16 Contd.
17
Arithmetic Expressions and
Precedence.
18 Preprocessors, Conditional
19 Branching Statements
20 Examples/Programming
21 Examples/Programming
22 Loops/ Iterative Statements
23 Examples/Programming
24 Examples/Programming
25 Examples/Programming
26 evaluation of conditionals and conseque
27 Examples/Programming
28 Examples/Programming
29 Introduction: Arrays (1-D, 2-D),
30 Examples/Programming
31 Contd.
32 Character Arrays and Strings,
2
3
4
5
6
2
3
4
5
6
Implements array
8
9
7
Sessional Exams
implement array7
Implement data types
Implement Banch Statemnents
Implements Loops
while,For,Do-While loop
Implement Function
Theory Practical
Week
1 1 implement Algorithm
33 Contd.
34 Examples/Programming
35 Examples/Programming
36 Arrays with Pointers
37
Functions (including using built in
libraries)
38 Parameter passing in functions
39 Contd. ,Examples
40
Call by Value, Call by Reference,
Passing arrays to function
41
Recursion, as a different way of
solving problems
42
such as Finding Factorial,
Fibonacci series, Ackerman
function etc
43
44 Examples/Programming
45 Introduction: Number System
46 Types Of Number System
47 Decimal to Binary number System
48 Examples
49
Decimal to Octal Number
system,hexadecimal
50
Binary ,octal,hexadecimal to
decimal
51 Inter conversion
52 Examples
53 Complemnents 1's and 2's
54 Addition ,subtraction
55 Examples
56 Examples
57 Revision
58 Revision
59 Revision
60 Revision
File completion work/ Internal viva17
13 Sessional Exams
14 10 implement recursion
15 11 Implement Pointer
16Practice Work/ File completion
work
11
12Practice Work/ File completion
work
implement structure,union9
10 implement array 2D ,3D array8
18 Sessional Exams
Name of Faculty:- Guest Dr. Kiran Malik
Discipline:- ECEECE
Semester:-M. TB.Tech Ist sem
Subject: Programming For Problem Solving
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
Lecture
Day
Topic
(including assignment/
test
Practical
Day Experiment
1 Introduction to Programming
2
Idea of Algorithm: Steps to solve
logical
3 Examples
4 Representation ofAlgorithm
5 Flowchart/Pseudocode
6 Examples
7 Examples
8 C Programming: Keywords
9 Variables and Data Types
10 basic, derived and user defined
11 Type Conversions
12
Header Files, Basic Input and
Output Functions
13 Statements, Compilation,
14
Syntax and Logical Errors in
compilation,
15
Object and Executable Code,
Storage Classes
16 Contd.
17
Arithmetic Expressions and
Precedence.
18 Preprocessors, Conditional
19 Branching Statements
20 Examples/Programming
21 Examples/Programming
22 Loops/ Iterative Statements
23 Examples/Programming
24 Examples/Programming
25 Examples/Programming
26 evaluation of conditionals and conseque
27 Examples/Programming
28 Examples/Programming
29 Introduction: Arrays (1-D, 2-D),
Theory Practical
Week
1 1 implement Algorithm
Implement data types
Implement Banch Statemnents
Implements Loops
while,For,Do-While loop
Implement Function
Implements array
8
7
Sessional Exams
2
3
4
5
6
2
3
4
5
6
30 Examples/Programming
31 Contd.
32 Character Arrays and Strings,
33 Contd.
34 Examples/Programming
35 Examples/Programming
36 Arrays with Pointers
37
Functions (including using built in
libraries)
38 Parameter passing in functions
39 Contd. ,Examples
40
Call by Value, Call by Reference,
Passing arrays to function
41
Recursion, as a different way of
solving problems
42
such as Finding Factorial,
Fibonacci series, Ackerman
function etc
43 .Idea of pointers, Defining pointers,
44
Use of Pointers in self-referential
structures
45 Examples/Programming
46 Dynamic Memory Allocation and its M
47 Examples/Programming
48 Examples/Programming
49 Define Structures,initialization
50 Examples/Programming
51 Examples/Programming
52 Defining Structures
53 and Array of Structures, .
54 File Handling
55 Examples/Programming
56 Examples/Programming
57 Revision
58 Revision
59 Revision
60 Revision
18 Sessional Exams
9
10
implement array
implement array 2D ,3D array
7
8
11
12Practice Work/ File completion
work
implement structure,union9
File completion work/ Internal viva17
13 Sessional Exams
14 10 implement recursion
15 11 Implement Pointer
16Practice Work/ File completion
work
Name of Faculty:- REENA
Discipline:- Applied Sciences
Semester:- 1st sem 1August 2018 -30 Nov 2018
Subject: BSE-CHE-101G CHEMISTRY
Week
Theory
Lecture Day
Topic (including assignment/
test
EXPERIMENTS
1
1,2
Schrondinger equation, forms of the hydrogen wave functions and plot of these functions their spatial
variation
Determination of surface tension of ion Liquid by drop number method.
3,4 Molecular orbital energy level diagram of diatomic
molecules,
2
5 Pi molecular orbitals of butadiene and benzene Determine the viscosity of given Liquid by using Oswald viscometer. 6 Crystal field theory
7 Energy level diagram for transition metal ions
8 Band structure of solids
3 9,10 Role of doping on band structures Calculate the Rf value of given
Sample using Thin layer chromatography 11,12 Revision of UNIT-1 and question discussion
4
13 Introduction of periodic elements
14 Effective nuclear charge Removal of Ca and Mg hardness From given water sample using ion. .
15,16 Shielding and penetration power of orbitals, atomic
size
5
17 Atomic and ionic sizes Calculation the strength of strong acid by titrating it with strong base using conductometer.
18 Electronic configuration of all elements
19 Question discussion
20 Ionization energy,electron affinity
6
21,22 Variations of s,p,d and f orbital energies of atoms in
the periodic table TO Prepare the urea formaldehyde And phenol formaldehyde resin.
23 Electronegativity, polarizability
24 Oxidation states
7
25 Revision of Unit-2
26 Representation of 3 dimensional structures
27 Structural isomers and stereoisomers
28 Configurations, symmetry
8
Sessional exam
9 29,30 Chirality, enantiomers TO prepare iodoform.
31 diastereomers
32 Optical activity
10
33 Absolute configurations and confirmation analysis
To determine the total hardness of Given water sample by EDTA.
34,35 Isomerism in transition metal compounds
36 Introduction to reactions involving substitution TO prepare the urea formaldehyde
11 37,38,39,
40 Addition, elimination, oxidation reactons
and phenol formaldehyde resin.
12
41 Cyclization reactions TO prepare iodoform.
42 Synthesis of commonly used drug molecules
43 Aspirin , paracetamol synthesis
44 Ioinic, dipolar interactions
13
Sessional exam
14
45 Van der waals interactiuons Determine the viscosity of given Liquid by using Oswald viscometer. 46 Equation of state of real gages
47, 48 Critical phenomenon and revision af all topics
15
49 Hardness of water – introduction, types Calculate the Rf value of given Sample using Thin layer chromatography 50 Measurement of hardness by EDTA method
51, 52 Methods of water softening, (lime soda process, zeolite process, demineralisation process)
16
53 Corrosion, introduction, types, factors affecting
corrosion and methods of prevention
54, 55
Basic concept of spectroscopy, principle and application
56 Spectroscopic techniques (UV- visible and IR
Spectroscopy)
17
57 Nuclear magnetic resosnace
58, 59 Magnetic resosance imaging To determine the total hardness of Given water sample by EDTA method 60 Elementary discussion on Flame photometry
18
Pre University exam
Name of Faculty:- Dr. Navneet Ahlawat
Discipline:- Applied Sciences
Semester:- 1st sem 1August 2018 -30 Nov 2018
Subject:
BSC-PHY-103G Semiconductor Physics
Week
Theory
Lecture Day
Topic (including assignment/
test
EXPERIMENTS
1
1,2
Free electron Theory
To study the forward and reverse characterstics of P-N junction diode.
3,4 Density of States & Energy Band Diagrams To study the Characterstic of Transistor in common ase configuration.
2
5 Kronig –Penny model
6 Energy band in solids , E-K Diagram
7 Direct and Indirect Band Gaps
8 Direct and Indirect Band Gaps
3 9,10
Types of Electrone materials metals Semiconductor ,insulators
To study the charactersic of Transistor in common emitter configuration.
11,12 Types of Electrone materials metals
Semiconductor ,insulators
4
13 Density of States Occupation probability To study the characterstic of Junction field effect Transistor. 14 Effective mass , Phonons
15,16
Intrinsic & Extrinsic semiconductors
5
17 Dependence of Fermi level on Carrier-
concentration To study the characterstic of Metal oxide
semiconductor field effect Transistor.
18 Carrier generation and recombination
19 Carrier Transport : Diffusion & drift
20 Metal – semiconductor junction
6 & 7
To study the characterstics of solar cell and
find out the fill factor. To design and study Active and Passive
filteras. 21,22,23 Semi conductor material of interest for
optoelectronic devices
24,25,26 Optical Transitions in bulk semiconductor
27,28 Density of States for photons
8
Sessional exam
9
29,30 Transition rates To determine Planks constant using photocell. 31 Optical loss and gain Drude model
32 Optical loss and gain Drude model
10 33 Photovolatic effect
To determine e/m of electron using helical method.
34,35
Four – point probe and van der Pauw measurements for carrier density
36 Resistivity
11 37,38,39, 40
Hall mobility Hot point probe measurement
To Study the reverse characterstic of Zener diode and voltage regulation using Zener Diode.
12
41 Capacitance voltage measurement
42 Parameter extraction from diode I-v
characteristics
43 Densityofstatesin 2 d , 1 d & 0D
44 Practical examples of low – Dimensional
system such as quantum wells
13
Sessional exam
14
45 wires
46 Dots
47 Design Fabrication & characterization technique
48
15
49 Heterojunctions & associated band-
diagram
50 Heterojunctions & associated band-
diagram
51 Heterojunctions & associated band- diagram
52
16
53 Class test
54
Revision
55
56 Problem if any and test
17
57 Problem if any and test
58
Revision
59
60 Revision
18
Pre University exam
Name of Faculty:- Sonika
Discipline:- Applied Sciences
Semester:- 1st sem 1August 2018 -30 Nov 2018
Subject: BSC-MATH-103G Math – 1 (Calculus and Linear Algebra)
Week
Theory
Lecture Day
Topic (including assignment/
test
1
1,2 Indeterminate forms and L hospital rule
3,4 Maxima and minima Rolles theorem
2
5 Mean value theorem
6 Taylor's theorem & related questions
7 Maclaurin theorem & related questions
8 Evaluation of definite and improper integrls
3 9,10 Application of definite integrals &Beta & Gamma Function
11,12 Volume of revolution
4
13 Revision
14 Surprise Test
15,16 Matrices , Vector addition ,Scalar multiplication
5
17 Matrix Multiplication
18 Linear System of Equation
19 Rank Of a Matrix
20 Determinants
6 & 7
21,22,23 Inverse Matrix
24,25,26 Gauss elimination Method
27,28 Gauss Jordan Method
8
Sessional exam
9 29,30 Vector Space , Linear Dependence
31 Basis
32 Linear Transformation
10
33 Range & Kernal of a Linear map
34,35 Rank & Nulity
36 Revision
11 37,38,39,
40 Inverse of a Linear Transformation , Rank Nulity Theorem
12
41 Matrix Associated with a Linear Map
42 Composition of linear Maps
43 Eigen Values & Eigen Vector
44 Eigen Values & Eigen Vector
13
Sessional exam
14
45 Symmetric Matrix
46 Skew – Symmetric Matrix
47
Orthogonal Matrices 48
15
49 Eigenbases
50 Diagonalization
51
Inner Product Spaces 52
16
53 Class test
54
Inner Product Spaces 55
56 Gram – Schmidt Orthogonalization
17
57 Gram – Schmidt Orthogonalization
58
Revision 59
60 Problems if any & Test
18
Pre University exam
Name of Faculty:- Sonika
Discipline:- Applied Sciences
Semester:- 1st sem 1August 2018 -30 Nov 2018
Subject: BSC-MATH-101G Math -1 ( CALCULUS MATRICES )
Week
Theory
Lecture Day
Topic (including assignment/
test
1
1,2 Indeterminate forms and L hospital rule
3,4 Maxima and minima Rolles theorem
2
5 Mean value theorem
6 Taylor's theorem & related questions
7 Maclaurin theorem & related questions
8 Evaluation of definite and improper integrls
3 9,10 Application of definite integrals &Beta & Gamma Function
11,12 Volume of revolution
4
13 Revision
14 Surprise Test
15,16 convergence of sequence and series
5
17 Test for convergence
18 Power series
19 Taylor 's series
20 Trigonometric & logarithm functions
6 & 7
21,22,23 Fourier series, Parseval' s Theorem
24,25,26 Limit and continuity
27,28 Partial derivative & Total derivative
8
Sessional exam
9 29,30 Tangent plane & Normal line, maxima, minima, Saddle point
31 Method of Lagrange multipliers
32 MethodofLagrangemultipliers
10
33 Gradient, Directional Derivative
34,35 Revision & test
36 Curl and Divergence
11 37,38,39,
40 Inverse and Rank of Matrix
12
41 Rank Nullity Theorem
42 Rank Nullity Theorem
43 System of Linear Equation
44 System of Linear Equation
13
Sessional exam
14
45 Symmetric Matrix
46 Skew – Symmetric Matrix
47
Orthogonal Matrices 48
15
49 Orthogonal Transformation
50 Orthogonal Transformation
51
Determinants 52
16
53 Eigen Values
54
Eigen Values & Eigen Vectors 55
56 Diagonalization of Matrices
17
57 Diagonalization of Matrices
58
Cayley – Hamilton Theorem 59
60 Revision
18
Pre University exam
Name of Faculty:- Dr. Navneet Ahlawat
Discipline:- Applied Sciences
Semester:- 1st sem 1August 2018 -30 Nov 2018
Subject
:
BSC-PHY-101G Introduction to Electromagnetic Theory
Week
Theory
Lecture
Day
Topic (including assignment/
test
EXPERIMENTS
1
SECTION - A
1,2 Calculation of electric field & electronic
potential for a charge distribution To study Hall effect in semiconductors and
measure the Hall coefficient.
3,4 Divergence and curl of electronic field
2
5
Laplace and Poisson Equation for electrostatic potential Boundary Condition of electric field
& electrostatic potential
To study frequency of AC mains using sonometer.
6
Laplace and Poisson Equation for electrostatic potential Boundary Condition of electric field
& electrostatic potential
7
Laplace and Poisson Equation for electrostatic potential Boundary Condition of electric field
& electrostatic potential
8 Energy of a charge distribution and its
expression in terms of electric field
3 9,10 Energy of a charge distribution and its
expression in terms of electric field To study the magnetic properties of materials
using B-H curve.
11,12 Electronic field and potential of a dipole
4
13 Bound charge due to electric polarization
14 Electric displacement Boundary conditions on
displacement To study the Curies temperature of materials
using Dielectric set up.
SECTION - B
15,16 Bio-Savart law , Divergence and curl of static
magnetic field
5
17 Vector potential and calculating
18 The equation for the vector potential and its
solution for given current densities To verify the inverse square law with the help
of a photovoltaic cell.
19 The equation for the vector potential and its solution for given current densities
20 Magnetostatics Ina linear magnetic medium
6 & 7
SECTION – C and SECTION – D
21,22,23
Magnetization and associated bound currents, auxiliary magnetic field
To determine Planks constant using photocell.
24,25,26
Boundary conditions on B & H , Paramagnetic and diamagnetic materials
27,28 Magnetic susceptibility and ferromagnetic
8
Sessional exam
9
29,30 Faraday law in terms of EMF produced by
changing magnetic flux To study the characterstics of Solar cell and
find out the fill factor.
31 Equivalence of Faraday law and motional EMF
32 Lenz law , electromagnetic breaking and its
applications
10
33 Different form of Faraday law ,
To design and study Active & Passive Filters.
34,35 Energy stored in a magnetic field
36 Surprise Test
11 37,38,39, 40
Continuity equation for current densities , Modified equation for the curl of magneti field to satisfy contiuity equation
To find impedance and Q factor using LCR circuit.
12
41 Maxwell equation in vacuum and non
conducting medium To study resonance phenomena in LCR circuit.
42 Energy in an electromagnetic field
43 Flow of energy and Poynting vector
44 Class Test
13
Sessional exam
14
45 The wave equation
46 Plane electromagnetic waves in vacuum
47 Realation between electric and magnetic field of an electromagnetic wave
48
15
49 Energy carried by electromagnetic waves and
examples
50 Energy carried by electromagnetic waves and
examples
51 Momentum carried by electromagnetic waves and resultant pressure
52
16
53
Reflection and transmission of electromagnetic waves from a non –
conducting medium – vacuum interface for normal incidence.
54 Reflection and transmission of electromagnetic waves from a non –
conducting medium – vacuum interface for normal incidence.
55
56
Reflection and transmission of electromagnetic waves from a non –
conducting medium – vacuum interface for normal incidence.
17
57 Revision
58
Test
59
60 Revision for
18
Pre University exam
Name of Faculty:- VINAY MALIK
Discipline:- CIVIL/ECE
Semester:- 1ST
Subject: WORKSHOP TECHNOLOGY
Lesson Plan duration:- 30 JULY 2018 TO 30 NOVEMBER 2018
PracticalLecture
Day
Topic (including assignment/
test
1
Introduction to Manufacturing Processes and their
Classification2
3
4
5
Industrial Safety; Introduction, Types of Accidents,
CausesandCommon Sources of Accident
6
7
8
9Methods of Safety, First Aid
10
11
12
13
Objectives of Layout, Types of Plant Layout
and their Advantages14
15
16
17
Basic Principle of Hot & Cold Working, Hot
& Cold Working Processes, Rolling, Extrusion, Forging, Drawing,
Wire Drawing and Spinning.18
19
20
21
Sheet Metal Operations : Measuring,
Layout marking, Shearing, Punching, Blanking, Pierching,
Forming,
Bending and Joining.222324
25Advantages of timber,types of timber ,defects in timber
26
27
28
29
Carpentry tools,classification of metals ,fitting tools,fitting
operations
30
31
32
Week
Theory
1
2
3
4
6
7
5
9
8Sessional
exam
To study different types of measuring tools
used in metrology
and determine least counts of vernier calipers,
micrometers and
vernier height gauges
Revision and file checking
To study different types of machine tools
(lathe, shape or planer
or slotter, milling, drilling machines)
Revision and file checking
To prepare a job on a lathe involving facing,
outside turning,
taper turning, step turning, radius making and
parting-off.
Revision and file checking
To study different types of fitting tools and
marking tools used in
fitting practicle
To prepare lay out on a metal sheet by making
and prepare
rectangular tray, pipe shaped components e.g.
funnel
33
Introduction to Casting Processes, Basic Steps in Casting
Processes
34
35
36
37
Pattern : Types of Pattern and Allowances, Sand Casting
: Sand Properties, Constituents and Preparation. Mould &
Core
Making with assembly and its Types38
39
40
41
Gating System. Melting of Metal,
Furnaces and Cupola, Metal Pouring, Fettling.
42
43
44
45
Casting Treatment,
Inspection and Quality Control. Sand Casting Defects &
Remedies464748
49
Plastic moulding,lathe machine,lathe operation,CNC
machining,shaper
and planar machine505152
53
Introduction to Welding, Classifiction of Welding
Processes,
Gas Welding : Oxy-Acetylene Welding545556
57
Resistance Welding : Spot
and Seam Welding, Arc Welding : Metal Arc, TIG & MIG
Welding,
585960
17
18
10
11
14
15
16
PRE UNIVERSITY EXAMS
13Sessional
exam
12
To prepare joints for welding suitable for butt
welding and lap
welding
To prepare horizontal surface/ vertical surface/
curved surface/
slots or V-grooves on a shaper/planner
To prepare a job involving side and
face milling machine
Revision and file checking
To study various types of carpentry tools and
prepare simple
types of at least two wooden joints.
Revision and file checking
To prepare simple engineering components/
shapes by forging.
To prepare mold and core assembly, to put
metal in the mold
and fettle the casting