Lesson Plan

Name of the Faculty : Mr. Sandeep

Discipline : B.TECH (ECE)

Semester : 2nd semester

Subject : Basics of Electronics

Lesson plan Duration : January 2018 to April 2018

Work Load (Lecture/Practical) per week (in hours) : Lecture – 04, Practical-01

WEEK Theory Practical

Lecture Day Topic(including

assignment/test)

Practical Day Topic

1st 1 Semiconductor Physics: Basic

concepts

1 To get familiar

with the working

knowledge of the

following

instruments:

a) Cathode ray

oscilloscope

(CRO)

b) Multimeter

(Analog and

Digital)

2 Intrinsic semiconductors

3 Extrinsic

semiconductors

4 Diffusion and

drift currents

2nd 5 p-n junction

under open-circuit

2 c) Function

generator

d) Power supply

6 Reverse bias

7 Forward-bias conditions

8 p-n junction in the breakdown

region

3rd 9 Ideal diode 3 To measure

phase difference

between two

waveforms using

CRO

10 Terminal characteristics of

junction diode

11 Amplifiers: Introduction

12 Different types of amplifiers

4th 13 and their characteristics

4 Plot the forward

and reverse V-I

characteristics of

P-N junction 14 Principle of

amplification

diode

15 Frequency

response of

RC coupled amplifiers

16 Amplifier

bandwidth and

Concept of

Cascaded Amplifiers

5th 17 Feedback

amplifiers

5 To get familiar

with pin-

configuration of

typical op-

amp(741) and its

use as:

a) Inverting

amplifier

b) Non-inverting

amplifiler

c) Summing

amplifier

d) Difference

amplifier

18 Positive and

negative

feedback amplifier

19 Effect of positive

and

negative

feedback on

amplifier gain and bandwidth

20 Oscillators: Introduction

6th 21 Criteria for oscillations

6 Use of op-amp as a) Integrator

b) Differentiator 22 Qualitative analysis of LC,

RC

23 Crystal oscillator

24 Clap oscillator

7th 25 Colpitt oscillator 7 Verification of

truth tables of all

logic gates

26 Hartley oscillator

27 Study of Wein

Bridge Oscillators

28 Operational

Amplifiers: Op-

amps

Introduction 8th 29 Characteristics of

op-amp 8 Verification of

truth tables of

flip-flops (S-R, J-

K) 30 Applications of

op-amp

31 Power Suppliers:

Introduction

32 Working of

Switched Mode

Power Supply

(SMPS)

9th 33 Voltage Regulator

9 To get familiar

with the working

and use of seven-

segment display 34 Introduction to

Inverters

35 UPS

36 Digital Electronics:

Introduction 10th 37 Binary 10 To find

frequency

response of a

given amplifier

and calculate its

bandwidth

38 Octal no. system

39 Hexadecimal

number systems

40 Conversions

11th 41 Boolean Algebra

42 Truth tables of

logic Gates

43 NAND & NOR as universal gates

44 Difference

between

combinational

circuits and

sequential circuits

12th 45 Introduction to flip-flops (S-R)

46 J-K flip flop

47 Electronics

Instruments: Role, importance

and applications

of general-

purpose test

instruments viz

Multimeter Digital & Analog

48 Cathode Ray

Oscilloscope (CRO)

13th 49 Function/Signal Generator

50 Seven segment

display

51 Fourteen segment display

52 Sixteen segment display

14th 53 Dot matrix display

54 LED Display : Introduction

55 Construction

56 Advantage of

LEDs in

electronics display

15th 57 Types of LCD

display:-

Dynamic

scattering

58 Field effect type

59 Types of liquid

crystal cells :-

Transmitting

type and

reflective type

60 Advantage &

disadvantage of

LCD display

with common applications

LESSON PLAN

Name of Faculty : Neeraj

Discipline : B. Tech. (Mechanical Engineering)

Semester : 2nd

Subject : Basics of Mechanical Engineering

Lesson Plan duration : 15 weeks

Work Load : Lecture-03, Practical-02

Week Theory Practical

Lecture

Day

Topic Practical

Day

Topic

1st 1st Introduction to Machine Tool to

Commonly used Machine Tools in a

Workshop

1st To Study the Cochran boiler.

2nd Lathe cont.

3rd Lathe

4th Shaper cont.

2nd 1st Shaper 1st To Study the Babcock &

Wilcox boiler. 2nd Planer cont.

3rd Planer

4th Milling cont.

3rd 1st Milling 1st To Study the working and

function of mountings in

boilers.

2nd Drilling cont.

3rd Drilling

4th Slotter cont.

4th 1st Slotter 1st To Study the working and

function of accessories in

boilers.

2nd Introduction to metal cutting

3rd Basic concept of thermodynamics: Introduction

4th States, Work, Heat, Temperature

5th 1st Zeroth & 1st law of thermodynamics 1st To study Two-Stroke &

Four-Stroke Diesel Engines. 2nd 2nd and 3rdlaw of thermodynamics

3rd Concept of internal energy enthalpy and entropy.

4th Problems

6th 1st Properties of Steam & Steam Generator 1st To Study Two-Stroke &

Four-Stroke Petrol Engines. 2nd Formation of steam at constant pressure

3rd Thermodynamic properties of Steam

4th Use of steam tables

7th 1st Measurement of dryness fraction by throttling calorimeter

1st To Study the vapor

compression Refrigeration

System and determination of

its C.O.P.

2nd Introduction to refrigeration and air - conditioning

3rd Rating of refrigeration machines

4th Coefficient of performance

8th 1st Simple refrigeration vapors compression cycle

1st To study the functioning of

Window Room Air

Conditioner. 2nd Psychrometric charts and its use, Human comforts

3rd Hydraulic Turbines & Pumps : Introduction, Classification

4th Construction details and working of Pelton Turbine

9th 1st Construction details and working of Francis Turbine

1st To study the constructional

features and working of

Pelton wheel Turbine. 2nd Construction details and working of Kaplan Turbine

3rd Specific speed and selection of turbines

4th Classification of water pumps and their working

10th 1st Power Transmission Methods and

Devices: Introduction to Power transmission

1st To study the constructional

features and working of

Francis Turbine. 2nd Belt: Open Belt

3rd Crossed Belt

4th Rope, Chain

11th 1st Gear Drives: Gears 1st To study the constructional

features and working of

Kaplan Turbine.

2nd Gear Trains

3rd Types of clutches: Single Plate Clutch

4th Multi Plate Clutch

12th 1st Cone Clutch 1st To calculate the Mechanical

Advantage, Velocity Ratio

and Efficiency of Single

Start, Double Start and

Triple Start Worm & Worm

Wheel.

2nd Centrifugal Clutch

3rd Stresses and Strains: Introduction

4th Concept & types of Stresses and strains

13th 1st Poison’s ratio, stresses and strains in

simple and compound bars under axial loading

1st To calculate Mechanical

Advantage, Velocity Ratio

and Efficiency of Single

purchase winch crab and plot

graphs.

2nd Stresses and strains in simple and compound bars under flexure loading

3rd Stresses and strains in simple and compound bars under torsional loading.

4th Stress- strain diagram

14th 1st Hooks law, Elastic constants & their relationships

1st To calculate Mechanical

Advantage, Velocity Ratio

and Efficiency of Double

purchase winch crab and plot

graphs.

2nd Introduction to Manufacturing Systems

3rd Fundamentals of Numerical Control (NC)

4th Fundamentals of Numerical Control (NC)

15th 1st Fundamentals of Numerical Control (NC)

1st To study simple screw jack

and compound screw jack

and determine their

efficiency.

2nd Advantage of NC systems

3rd Classifications of NC

4th Comparison of NC and CNC

LESSON PLAN

Name of Faculty : Dr.Yogita Yadav

Discipline : B. Tech.

Semester : 2nd

Subject : Applied chemistry

Lesson Plan duration : 15 weeks

Work Load : Lecture-03, Practical-01

Week Theory Practical

Lecture Day

Topic Practical Day

Topic

1st 1st Definations of phase rule == 2nd one Component systems 1 To determine the total

hardness of water by EDTA method.

3rd reduced or Two component system.

2nd 1st Silver lead system, ==

2nd zinc magnesium System, 1 To prepare Urea- Formaldehyde resin.

3rd desilverisation of lead, incongruent m.pt, Na2So4 .H2O system, limitation & application of phase rule.

3rd 1st Assignment given chapter 1 and problemsolving

2nd Test chapter 1st 1 To prepare Phenol- formaldehyde resin.

3rd Definations of catalysis, types of catalysis, homogeneous and heterogeneous catalysis

4th 1st theories of catalysis, 1st To determine the flashpoint and fire point of a given sample of lubricating oil using Pensky Marten’s flash point apparatus.

2nd Michalis menton equation,

3rd acid base catalysis, enzyme catalysis, auto catalysis.

5th 1st Assignment of chapter 2nd wil be distributed to the students and problems will be taken.

1st Determination of strength of hydrochloric acid solution by titrating it against sodium hydroxide solution conduct metrically.

2nd Test chapter 2nd

3rd Definition of water, occurrence of water on earth surface, sources of water

6th 1st types of hardness, EDTA method , clarks method, units of hardness, degree of hardness

1st

2nd purification of water, boiler troubles Scale and sludge formation, priming and foaming

Determination of viscosity of given liquid using Redwood viscometers.

3rd external and internal conditioning, Desalination of H2O.

7th 1st Assignment given chapter 3rd 1st Determination of flash point of given lubricating oil using Able’s flash point apparatus.

2nd Class test chapter 3rd

3rd Softening techniques of water- lime soda process

8th 1st zeolite method, ion exchange method. 1st To determine alkalinity of a given water sample.

2nd Numerical problems of H2O

3rd Assignment given chapter 4 and problem-solving

9th 1st Class test chapter4 1st To determine the amount of sodium and potassium in a given water sample by flame photometer.

2nd Introduction, mechanism of dry and wet corrosion

3rd types of corrosion

10th 1st factors affecting corrosion 1st To determine dissolved oxygen (D.O.) in a given sample of water. (Wrinkler’s

method) 2nd preventive measures of corrosion,

galvanic corrosion.

3rd Assignment given chapter 5 and problem-solving

11th 1st Class test chapter 5 1st

2nd Introduction of lubricants, types of lubricants

revision

3rd classification of lubricants, synthetic lubricants

12th 1st silicones additives for lubricants, properties of lubricants

1st

2nd Assignment given chapter 6 and problem-solving

2nd Viva, File check

13th 1st Class test chapter 6 1st

2nd Polymer classification, effect of structure on the properties of polymers

3rd classification of plastics, natural rubber, elastomer .

14th 1st Assignment given chapter 7 and problem-solving

1st

2nd Class test chapter 7 Viva, file check

15th 1st Analytical methods, flame photometry, 1st

2nd I.R spectra, T.G.A, D.S.C, D.T. A, etc.

Lesson Plan

Name of the Faculty : Mr. kalyan singh

Discipline : BTECH (EE)

Semester : 2nd semester

Subject : ELECTRICAL TECHNOLOGY

Lesson plan Duration : January 2018 to April 2018

Work Load (Lecture/Practical) per week (in hours): Lectures -04, Practical – 01

WEEK Theory Practical

Lecture Day Topic(including

assignment/test)

Practical Day Topic

1st 1 Ohm’s Law 1 To verify KCL and KVL. 2 Application of

ohms law

3 Kirchoff’s current Laws

4 Kirchoff’s voltage Laws

2nd 5 Nodal methods of analysis

2 To verify Thevenin's and Norton theorem 6 Loop methods of

analysis 7 Star to Delta

transformation.

8 Delta to Star transformation.

3rd 9 Thevenin’s theorem

3 To verify Maximum Power transfer theorem in A.C. and D.C.

10 Numerical

11 Norton’s theorem

12 numerical

4th 13 superposition theorem

4 To verify Superposition theorem.

14 Numerical.

15

maximum power transfer theorem,.

16 Class Test-1

5th 17 Milman’s theorem

18 Single Phase A.C. Circuits

5 To study frequency response of a series R-L-C circuit and determine resonant frequency and Q- factor for various values of R, L, C

19 Sinusoidal signal, instantaneous and peak values.

20 RMS and average values.

6th 21 crest and peak factor

6 To study frequency response of a Parallel R-L-C circuit and determine resonant frequency and Q- factor for various values of R,L,C.

22 Concept of phase

23 phasor representation- polar & rectangular

24 exponential and trigonometric forms

7th 25 behaviors of R,L and C components in A.C. circuits.

7 To perform direct

load test of a

transformer and

plot efficiency

Vs load characteristic. 26 Series and

Parallel A.C. circuits

27 Series and Parallel A.C. circuits

28 power factor 8th 29 Series and

Parallel resonance

8 To perform direct load test of a D.C. shunt generator and plot load voltage Vs load current curve.

30 Q Factor, cut-off frequencies and bandwidth

31 Numericals.

32 Class Test-2

9th 33 THREE PHASE A.C. CIRCUITS :

9 To perform O.C. and S.C. tests of a transformer 34 Phase and line

voltage and currents

35 balanced star and delta circuits,

36 power equation 10th 37 measurement of

power by two wattmeter method

10 To study various type of meters.

38 introduction to unbalanced circuits

39 TRANSFORMERS :

Construction, EMF equation

40 Ideal transformer, Phasor diagram on no load and full load

11th 41 equivalent circuit,

42 losses, regulation and efficiency, open and short circuit test..

43 Application of DC machines

44 Moving Coil Type 12th 45 ELECTRICAL

MACHINES :

Construction,

Principle,

46 ELECTRICAL

MACHINES :

working

47 E.M.F. equation and losses of D.C. machine

48 Class Test-3

13th 49 E.M.F. equation and losses of D.C. machine

50 comparison of construction and working of D.C. machine with Induction motor and sunchronous machine

51 MEASURING

INSTRUMENTS :

Construction,

52 operation and uses of moving iron type

14th 53 moving coil type 54 induction type

Voltmeter

55 Ammeter, 56 Watt meter

15th 57 Energy meter. 58 numerical

59 Revision.

60 Revision.

LESSON PLAN

Name of Faculty : Rajesh Rana

Discipline : B. Tech.

Semester : 2nd

Subject : ENGINEERING GRAPHICS & DRAWING

Lesson Plan duration : 15 weeks

Work Load : Lecture-00, Practical-01

Week Theory Practical

Lecture Day

Topic Practical Day Topic

1st

-

-

1st

Introduction, Drawing Instruments, Various types of lines, Title Block, Various types of projections, first and third angle systems of orthographic projections

2nd

-

-

2nd

Types and use of lines and lettering. Dimensioning, Projection of points in different quadrants

3rd

-

-

3rd

Projections of lines for parallel, perpendicular & inclined to horizontal And vertical reference planes.

4th

-

-

4th Projections of planes for parallel, Perpendicular & inclined to horizontal and vertical reference planes.

5th

-

-

5th

Projections Solids: Cylinder, Cone, Pyramid & Sphere with axes parallel, perpendicular & inclined to both reference planes

6th - - 6th Development of surfaces of various solids

7th

-

-

7th

Sections of Solids: Section planes, Sectional views, True shape of Sections for Prism, Cylinder, Pyramid, Cone & Sphere.

8th

-

-

8th

Orthographic Projections: Simple objects and simple Machine Components like Bolts and Screw.

9th - - 9th Isometric Projections: Isometric scales, Isometric views of Simple objects

10th

-

-

10th

Introduction to computer-aided drafting (CAD) : Cartesian and Polar Co- ordinate system, Absolute and Relative Coordinates systems

11th

-

-

11th

Basic Commands : Line, Point, Rectangle, Polygon, Circle, Arc, Ellipse, Polyline : Basic editing Commands : Basic Object Selection Methods, Window and Crossing Window Erase, Move, Copy, Offset, Fillet, Chamfer, Trim, Extend, Mirror : Display Commands : Zoom, Pan, Redraw, and Regenerate : Simple dimensioning and text

12th - - 12th Simple Exercises

13th - - 13th Solid modeling: Basics of 2-D and 3-D solid modeling

14th

-

-

14th

Orthographic, iso-metric Projection Drawing And Sectional Views Of Simple Machine Elements.

15th - - 15th Continue

NAME OF Faculty : Mr. Vikash

Discipline : B. Tech

Semester : 2nd

Subject : Essentials of communication-2

Lesson Plan Duration: 15 Weeks( from January to April 2018)

Work Load (Lecture/Practical) per week (in Hours ) :Lectures 03

Theory Practical

Week Lecture day Topics Practical day Topic

1`st 1st Spotting the errors pertaining to parts of speech

1st

2nd nouns, pronouns 2nd

3rd adjective, adverbs

2nd 1st preposition 1st

2nd conjunction, genders 2nd

3rd infinitives, participles, form of tenses

3rd 1st use of articles Concord - grammatical concord

1st

2nd Assignment 2nd

3rd notional concord and the principle of proximity between subject and verb and other exceptional usages

4th 1st notional concord and the principle of

proximity between subject and verb and

other exceptional usages

1st

2nd Idioms and phrases; Words often confused

2nd

3rd One-Word Substitutes; Foreign

Words

5th 1st Formation of words 1st

2nd Class Test 2nd

3rd Word-stress patterns

6th 1st Intonation, Weak forms in English

1st

2nd Intonation, Weak forms in English

2nd

3rd role play activities

7th 1st Practising short dialogues

1st

2nd Group discussion 2nd

3rd Debates, Speeches, Listening to news bulletins

8th 1st Debates, Speeches, Listening to news bulletins

1st

2nd Viewing and reviewing T.V. programmes etc.

2nd

3rd Assignment

9th 1st Developing reading and writing skills through such tasks/activities as developing outlines,

1st

2nd key expressions 2nd

3rd situations, slogan

10th 1st situations, slogan 1st

2nd writing and theme building exercises

2nd

3rd Reading verbal and non-verbal texts-like cartoons, Graphs and tabulated data etc.

11th 1st Business Letters, Format of Business letters and Business letter writing-Fully- blocked layout may be used.

1st

2nd Business Letters, Format of Business letters and Business letter writing-Fully- blocked layout may be used.

2nd

3rd Class Test

12th 1st E-mail writing 1st

2nd Reports, Types of Reports and Format of Formal Reports

2nd

3rd Reports, Types of Reports and Format of Formal Reports

13th 1st Press Report Writing 1st

2nd Press Report Writing 2nd

3rd Assignment

14th 1st Book Review - Herein the students will be required to read and submit a review of a book (Literary or non- literary) of their own choice. This will be followed by a presentation of the same in the class

1st

2nd Book Review - Herein the students will be required to read and submit a review of a

2nd

book (Literary or non- literary) of their own choice. This will be followed by a presentation of the same in the class

3rd Book Review - Herein the students will be required to read and submit a review of a book (Literary or non- literary) of their own choice. This will be followed by a presentation of the same in the class

15th 1st Book Review - Herein the students will be required to read and submit a review of a book (Literary or non- literary) of their own choice. This will be followed by a presentation of the same in the class

1st

2nd Book Review - Herein the students will be required to read and submit a review of a book (Literary or non- literary) of their own choice. This will be followed by a presentation of the same in the class

2nd

3rd Class Test

LESSON PLAN

Name of Faculty : Anil Vadhwa

Discipline : B. Tech

Semester : 2nd Sem

Subject : Fundamental of Computer and programming in ‘C’

Lesson Plan duration : 15 weeks

Work Load : Lecture-03, Practical-02

Week Theory Practical

Lecture Day

Topic Practical Day

Topic

1st 1st Fundamentals: - Evaluation of Computers

1st Write a program to print

“Hello” using C. 2nd Hardware organization of a computer

3rd Introduction to microprocessor, generations of microprocessors

2nd 1st Commonly used CPUs. 2nd Write a program to

perform addition of two

numbers using C.

2nd Input/output devices,

3rd Input/ Output ports and connectors.

3rd 1st Introduction to Operating system, Functions of an Operating system,

3rd Write a program to find

largest no. among three

numbers using nested if-

else statement

2nd Classification of Operating Systems

3rd Basic introduction to DOS, UNIX/LINUX OS, Windows XP

4th 1st Machine Language, Assembly Language, Low level languages, High level Languages, Types of high level languages,

4th Write a program to find

whether the given

number is even or odd. 2nd Complier, Interpreter, Assembler,

Loader, Linker 3rd Relationship

between Complier, Interpreter, Loader and Linker.

5th 1st Data Communication, modulation, Network devices, LAN, MAN

5th Write a program to find

topologies, WAN the real roots of any given

Quadratic

Equation.

2nd OSI Reference model,

3rd Introduction to Internet and protocols: TCP/ IP Reference model.

6th 1st Backbone network, Network connecting devices,

6th Write a program to find

the greatest no. among

ten numbers using for

statement.

2nd Hypertext documents, HTTP, DNS, Network Security.

3rd Constants, Variables and Data types

7th 1st operators and Expressions 7th Write a program to

perform addition of two

given matrices.

2nd managing I/O operations

3rd Decision Making and branching.

8th 1st Decision Making and looping. 8th Write a program to

perform multiplication of

two given matrices.

2nd Arrays

3rd Character Arrays and Strings

9th 1st User Defined Functions. 9th Write a program to find

whether the given

number is prime or not.

2nd Defining structure, declaring variables, Accessing structure members

3rd structure initialization, copying and comparing structure variables

10th 1st operations on individual members, Array of structure

10th Write a program to find

whether the given string

is palindrome or not. 2nd structure with structure, Unions, size of structure.

3rd Introduction, Understanding Pointers

11th 1st Accessing the address of a variable, Declaring Pointer variables

11th Write a program to

perform swapping of two

numbers using Call by

Value.

2nd initialization of Pointer variables, Accessing a variable through its pointer

3rd Chain of pointers, Pointer Expressions, Pointer increments and scale Factors

12th 1st pointer and Arrays, Pointer and Character Strings.

12th Write a program to

perform swapping of two 2nd Arrays of Pointer, Pointers as Function

Arguments, Functions Returning

Pointers, Pointers to Functions. numbers using Call by

Reference.

13th 1st Introduction, Dynamic memory allocation, allocating a block of memory : Malloc

13th Write a program to find

the factorial of given no.

using function. 2nd allocating multiple blocks of memory :

Calloc 3rd Releasing the used space : Free,

Altering the size of Block ; Realloc

14th 1st Defining and opening file, closing file 14th Write a program to copy the contents of one file into another file

2nd I/O operation on files

15th 1st error handling during I/ O operations, Random Access to files

15th Write a Program to perform malloc,calloc ,realloc,free

2nd command line arguments.

LESSON PLAN

Name of Faculty : Mukesh Kumari

Discipline : B. Tech

Semester : B. Tech 2nd

Subject : Mathematics-II

Lesson Plan duration : 15 weeks

Work Load : Lecture-04, Practical-00

Week Theory Practical

Lecture Day

Topic Practical Day

Topic

1st 1st Differentiation of Vectors, Scalars and vector point functions.

2nd Gradient of a scalar field

3rd Directional derivatives

4th Divergence and curl of a vector field

2nd 1st Integration of vectors

2nd Line integral and surface integral

3rd Volume integral

4th Green’s theorem

3rd 1st Stoke’s theorem

2nd Gaur’s theorem

3rd Applications of Green’s, Stoke’s and Gaur’s theorem

4th Problems based on vectors

4th 1st Class test-1

2nd Exact differential equation

3rd Equations reducible to exact differential equations

4th Applications of Differential equations

5th 1st Newton’s law of cooling

2nd Heat flow

3rd Orthogonal trajectories

4th Linear differential equations of second and higher order

6th 1st Complete solutions

2nd Complementary functions and particular integral

3rd Methods of variations of parameters to find particular Integral.

4th Cauchy’s equations

7th 1st Legendre’s linear equations

2nd Simultaneous linear equations with constant co-efficient

3rd Applications of linear differential equations to simple pendulum

4th Applications of linear differential equations to oscillatory circuits

8th 1st Problems based on differential equations

2nd Class test-2

3rd Laplace transforms of elementary functions

4th Properties of Laplace transforms

9th 1st Existence conditions

2nd Transforms of derivatives

3rd Transforms of integrals

4th Evaluations of integrals by Laplace transforms

10th 1st Laplace transforms of unit step functions

2nd Laplace transforms of periodic functions

3rd Inverse transforms

4th Convolution theorem

11th 1st Application to linear differential equations and simultaneous linear differential equations

2nd Applications to integral equations

3rd Problems based on Laplace transform

4th Class test

12th 1st Definition of partial differential equation

2nd Formation of partial differential equations

3rd Lagrange ‘s linear partial differential equations

4th First order non-linear partial differential equation

13th 1st Problems based on partial differential equation

2nd Charpit’s method

3rd Problems based on Charpit’s Method

4th Methods of separation of variables

14th 1st Problems based on method of separation of variables

2nd Application of wave equation

3rd Problems based on wave equation

4th One dimensional heat equation

15th 1st Problems based on one dimensional heat equation

2nd Two dimensional heat flow

3rd Problems based on two dimensional heat flow

4th Class test

NAME OF Faculty : Mr. Navin Kumar( Theory and Practical)

Discipline : B. Tech

Semester : 2nd

Subject : PHYSICS- II

Lesson Plan Duration: 15 Weeks( from January to April 2018)

Work Load (Lecture/Practical) per week (in Hours ) :Lectures 03 , Practical’s 02

Theory Practical

Week Lecture day Topics Practical day Topic

1`st 1st Space lattice, unit

cell and

translation vector, Miller indices

1st To find the low

resistance by

carey- Foster's bridge

2nd simple crystal

structure. Laue's

treatment to Bragg's law,

2nd

3rd point defects in

solids- Schottky

and Frenkel

defects

2nd 1st point defects in

solids- Schottky

and Frenkel

defects, Bonding

in solids- lonic

and

covalent bonds.

1st To find the

resistance of a

galvanometer by

Thomson's

constant

deflection method

using a post office box

2nd point defects in

solids- Schottky

and Frenkel

defects, Bonding

in solids- lonic

and covalent bonds

2nd

3rd Class test

3rd 1st Difficulties with

classical physics,

introduction to

quantum

mechanics-

simple concepts,

1st To find the value

of high resistance

by Substitution

method

Black body

radiations

Discovery of

Planck's constant

2nd phase velocity

and group velocity

2nd

3rd Schrodinger wave

equations-time

dependent

and time

independent,

Expectation

value,

4th 1st particle in a one-

dimensional box.

Quantum

Statistics (Bose-

Einstein and

Fermi-Dirac

Statistics).

Elementary ideas

of quark, gluons

and hadrons

1st To find the value

of high resistance

by Leakage

method.

2nd Class test 2nd

3rd Features of

nanosystems,

concept of

quantum size effect

5th 1st quantum dots and

their applications

1st To study the

characteristics of

a solar cell and to find the fill factor

2nd ASSIGNMENT 2nd

3rd Elements of

classical free

electron theory and its limitations

6th 1st Drude's theory of

conduction,

quantum theory of free electrons

1st To find the value

of e/m for

electrons by Helical method

2nd Fermi level,

density of states,

Fermi-Dirac

distribution function

2nd

3rd Thermionic

emission,

Richardson's

equation.

7th 1st Class test 1st To find the

ionisation

potential of

Argon/Mercury

using a thyratron tube

2nd Origin of energy bonds

2nd

3rd Kronig-Penny

model

(qualitative) E-K diagrams

8th 1st Kronig-Penny

model

(qualitative) E-K

diagrams

1st To study the

variation of

magnetic field

with distance and

to find the radius

of coil by Stewart

and Gee's apparatus.

2nd ASSIGNMENT 2nd

3rd Brillouin Zones

9th 1st Concept of

effective mass

and holes

1st To study the

characteristics of

(Cu-Fe, Cu-

Constantan) thermo couple

2nd Classification of

solids into metals,

semiconductors and insulators

2nd

3rd Fermi energy and

its variation with

temperature

10th 1st Hall effect and its

applications

1st To find the value

of Planck's

constant by using

a photo electric cell.

2nd ASSIGNMENT 2nd

3rd Class test

11th 1st Photoconductivity in insulating

1st To find the value of co-efficient of

crystal self-inductance by

using a Rayleigh bridge

2nd variation with illumination

2nd

3rd effect of traps

12th 1st applicaiton of

photoconductivity

1st To find the value

of Hall Co-

efficient of semi- conductor

2nd photovoltaics

cells

2nd

3rd solar cell and its characteristics

13th 1st Class test 1st To study the V-I

characteristics of a p-n diode

2nd Assignment 2nd

3rd Atomic magnetic moments

14th 1st orbitals

diamagnetism

1st To find the band

gap of intrinsic

semi-conductor

using four probe method

2nd Classical theory of paramagnetism

2nd

3rd Classical theory

of

ferromagnetism

15th 1st Weiss theory of

diamagnetism

1st To calculate the

hysteresis loss by

tracing a B-H curve

2nd molecular fields

and domain

hypothesis

2nd

3rd Class Test

LESSON PLAN

Name of Faculty : Rajiv Yadav

Discipline : B. Tech

Semester : 2nd

Subject : Workshop Technology

Lesson Plan duration : January 2018 to April 2018

Work Load : Lecture-02, Practical-2

Week Theory Practical

Lecture Day

Topic Practical Day

Topic

1st 1 Introduction to Manufacturing Processes and their Classification

1 To study different types of measuring tools used in metrology and determine least counts of vernier calipers, micrometers and vernier height gauges

2 Industrial Safety; Introduction, Types of Accidents, Causes and Common Sources of Accident

2

2nd 1 Methods of Safety, First Aid 1 To study different types of machine tools (lathe, shaper, milling, drilling machines)

2 Objectives of Layout, Types of Plant Layout and their Advantages.

2

3rd 1 Foundry: Introduction to Casting Processes, Basic Steps in Casting Processes.

1 To study different types of fitting tools and marking tools used in fitting practice.

2 Pattern : Types of Pattern and Allowances,

2

4th 1 Casting : Sand Properties, Constituents and Preparation

1 To study various types of carpentry tools and prepare simple types of at least two wooden joints.

2 & Core Making with assembly and its Types. Gating System.

2

5th 1 Melting of Metal, Furnaces and Cupola furnace. Metal Pouring

1 To prepare a job of fitting practice e.g. Rectangular block.

2 Metal Pouring, Fetling, Casting Treatment.

2

6th 1 Inspection and Quality Control 1 To prepare Cross half lap joint in carpentry shop. 2 Sand Casting Defects & Remedies. 2

7th 1 Forming Processes: Basic Principle of Hot & Cold Working.

1 To prepare lay out on a metal sheet by making and prepare rectangular tray pipe shaped components e.g. tray.

2 Hot & Cold Working Processes: Rolling, Extrusion

2

8th 1 Hot & Cold Working Processes: 1 To prepare joints for welding

Forging, Drawing. suitable for butt welding and lap welding. 2 Hot & Cold Working Processes: Wire

Drawing and Spinning. 2

9th 1 Sheet Metal Operations : Measuring Layout and marking.

1 To prepare a job on a lathe involving facing, outside turning.

2 Sheet Metal Operations : Shearing, Punching, Blanking.

2

10th 1 Sheet Metal Operations : Drawing, Wire Drawing and Spinning.

1 To prepare a job on a lathe involving taper turning, step turning, radius making and parting-off.

2 Welding: Introduction to welding, Classification of Welding Processes.

2

11th 1 GAS Welding : Various types, Oxy- Acetylene Welding.

1 To prepare horizontal surface/vertical surface/curved surface/slats or V-grooves on a shaper/planner.

2 Resistance Welding : Spot and Seam Welding.

2

12th 1 Arc Welding : Types, Metal Arc welding.

1 To prepare a job involving side and face milling on a milling machine. 2 TIG & MIG Welding 2

13th 1 Welding Defects and Remedies. Internal Practical Viva. 2 Soldering & Brazing