LESSON PLAN

Name of Faculty : Dr.Yogita Yadav

Discipline : Applied Science

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 General metallurgical terms and operations with reference to iron

==

2nd Copper and aluminium, manufacture of steel- open hearth process

1 Gravimetric analysis and apparatus used in gravimetric analysis

3rd Alloys definition and pupose of alloying, types of alloys-ferrous and non-ferrous alloys, properties and applications-in var

2nd 1st Nichrome, stainless steel, alnico and non-ferrous alloys, brass, bronze

==

2nd Duralumin, magnalium, and solder, assignment given of unit-1

1 Determination of percentage purity of commercial sample of blue vitrol using N/20 NA2S2O3

3rd Test-unit-1

3rd 1st Corrosion – definition of corrosion, types

2nd Factors affecting corrosion rate, theories of corrosion-pilling bed worth rule, wet corrosion

1 Gravimetric estimation of moisture in the given coal sample

3rd Definition of passivity in metals, corrosion control methods-metal coatings, cathodic protection

4th 1st Cementation on base metal, application of Zn, Cr, Al, inorganic coatings-Anodizing and phosphating

1st

2nd Organic coatings-use of paints, Determination of

varnishies and enamels, corrosion preventive measures- alloying, heat treatment,assignment given unit 2

percentage composition of volatile/non volatile matter in the given coal sample.

3rd Class test-unit 2nd

5th 1st Definition of fuel, classification of fuel, characteristics of good fuel, relative merites of gaseous,liquid and solid fuel

1st

2nd Calorific value of good fuel and determination of calorific value by using bomb calori meter and numerical

Gravimetric estimation of ash content in the given coal sample.

3rd Coal-types of coal and proximate analysis of coal

6th 1st Fuel rating-octane number and cetane number ,fuel influence on octane and cetane number

1st

2nd Gesous fuel-chemical composition, calorific value and applications of natural gas, LPG, CNG, producer gas, water gas and bio gas

Determination of viscosity of given liquid using Redwood viscometers.

3rd Elementary idea on-hydrogen as future fuels, nuclear fuels ,assignment given unit 3rd

7th 1st Class test unit 3rd 1st

2nd Definition of lubricant and lubrication Determination of flash point of given lubricating oil using Able’s flash point apparatus.

3rd Classification of lubricants with example

8th 1st Iodine value 1st

2nd Emulsification factor To study the effect of metal coupling on corrosion of iron.

3rd Total acid value, carbon residue

9th 1st Oilyness of lubricant 1st

2nd Flash point and fire poit Detection of iron metal in the metal in the given solution of rust.

3rd Cloud and pour point

10th 1st Viscosity and viscosity index 1st

2nd types of lubrication-hydro dynamic boundry lubrication with digram

revision

3rd propreties of lubricant-physical properties and chemical properties

11th 1st Designation of lubricating oils according to society of automotive engineers

1st

2nd Cutting fluids-application of cutting revision

fluids,

3rd types and factors affecting lubricant

12th 1st Problem discussed unit 4th 1st

2nd Assignment given unit 4th 2nd Viva, File check

13th 1st Class test unit 4th 1st

2nd Polymers-defination of polymer,

3rd monomer and degree of polymerization

14th 1st Introduction to addition and condensation polymers with examples

1st

2nd Application of polymers in industry and daily life.

Viva, file check

15th 1st Assignment given unit 6th 1st

2nd Test unit 6th

Lesson Plan

Name of the Faculty : Mr. Rajeev Yadav

Discipline : Mechanical Engineering

Semester : 2nd semester

Subject : Engineering Drawing-II

Lesson plan Duration : January 2018 to April 2018

WEEK Theory Practical

Lecture

Day

Topic(including

assignment/test)

Practical

Day

Topic

1st 1 Principle and utility of detail and

assembly drawings

2 Wooden joints i.e. corner mortise

and tenon joint

3 Tee halving joint, Mitre faced

corner joints

2nd 1 Tee bridle joint, Crossed wooden

joint, Cogged joint, Dovetail joint

2 Through Mortice and Tenon joint,

furniture drawing - freehand and

with the help of drawing

instruments

3 Thread Terms and Nomenclature

3rd

1 Types of threads-External and

Internal threads,

2 Right and Left hand(Actual and

Conventional representation

3 single and multiple start threads

4th 1 Different Forms of screw threads-

V threads (B.S.W threads, B.A

thread)

2 Different Forms of screw threads-

V threads (American National and

Metric thread)

3 Square threads (square, Acme)

5th

1 Square threads (Buttress and

Knuckle thread)

2 Nuts and Bolts Different views of

hexagonal nuts

3 Square nuts and hexagonal headed

bolt

6th 1 Assembly of Hexagonal headed

bolt

2 Assembly of Hexagonal nut with

washer

3 Assembly of square headed bolt

with hexagonal nut

7th 1 Assembly of square headed bolt

with washer

2 Different types of locking devices-

Lock nut

3 castle nut, split pin nut,

8th 1 locking plate, slotted nut and

spring washer

2 Foundations bolts-Rag bolt, Lewis

bolt

3 Curved bolt and eye bolt.

9th 1 Drawing of various types of

machine screw, set screw

2 studs and washers

3 Various types of keys and cotters

and their practical application

10th 1 preparation of drawing of various

keys showing keys in position

2 preparation of drawing of various

cotters showing cotters in position

. 3 Spigot and socket joint

11th 1 Gib and cotter joint

2 Knuckle joint

3 Types of general purpose-rivets

heads (4 Sheets) Caulking and

fullering of riveted joints

12th 1 Lap joint-Single riveted, double

riveted (chain and zig-zag type)

2 Single riveted, Single cover plate

butt joint (chain type)

3 Single riveted, double cover plate

butt joint (chain type)

13th 1 Double riveted, double cover plate

butt joint(chain and zigzag type)

2 Flange coupling (Protected and

non-protected)

3 muff coupling and half-lap muff

coupling

14th 1 Symbols and Conventions Civil

engineering sanitary fitting

symbols

2 Electrical fitting symbols for

domestic interior installations

3 Concept of AutoCAD, Tool bars in

AutoCAD

15th 1 Coordinate system, snap, grid, and

2 Drawing commands – point, line,

arc, circle, ellipse

3 Editing commands – scale, erase,

copy, stretch, lengthen and explode

LESSON PLAN

Name of Faculty : Dr. Yogita Yadav

Discipline : Applied Science

Semester : 2nd

Subject : EVS

Lesson Plan duration : 15 weeks

Work Load : Lecture-03

Week Theory Practical

Lecture Day

Topic Practical Day

Topic

1st 1st Basics of ecology, eco system-concept, structure and importance of ecosystem

==

2nd Carbon ,Nitrogen , sulphur cycle ,Sustainable development, assignment given unit 1st

3rd Test unit 1st Conservation of land reforms, preservations of species, prevention of advancement of desert sand lower ring of water table, rain water Harvesting

2nd 1st Acid rain, maintenance of ground water

==

2nd water supply engineering

3rd Deforestation Its effects and control measure

3rd 1st Assignment given unit 2nd

2nd Test of unit 2nd

3rd Pollution: sources of pollution – natural and man made.

4th 1st classification of pollution,

2nd causes, effects

3rd control measure of pollution(air, water ,noise, soil radioactive and nuclear).

5th 1st Preventation of pollution introduction to cleaner production technologies

2nd physical chemical and biological treatment of pollutants

3rd Photo catalytic degradation of pollutants

6th 1st waste minimization techniques chemical degradation of waste

2nd concept of zero discharge

3rd Assignment given unit 3

7th 1st Test unit -3rd

2nd Solid waste management, classification of fuse material

3rd Sources of fuel

8th 1st Effect of control measure Introduction to e-waste management

2nd Assignment- 4th unit given

3rd test -4th

9th 1st Environmental legislation- water (preventation and control of pollution) act 1974

2nd air (preventation and control of pollution)act 1981and environmental protection

3rd Act 1986 role of function state pollution control board environmental impact assessment (EIA)

10th 1st introduction of energy conversion Act 2001 and energy conservation (Amendment) Act 2010& its importance

2nd Assignment given 5th

3rd Test- 5th

11th 1st Energy converservation: introduction of energy management,

2nd energy conservation energy efficiency& its need.

3rd Role of non- conventation Energy resourse (solar energy, wind energy

12th 1st bio energy hydro energy) in environmental protection

2nd Impact of energy usage on environmental-global warming

13th 1st green house effect

2nd depletion of ozone layer.

3rd Assignment given unit- 6th

14th 1st Test unit 6th

2nd Eco-friendly material: recycling of material, concept of green buildings.

15th 1st Assignment given of unit 7th

2nd Test unit 7th

LESSON PLAN

Name of Faculty : Mrs. Mukesh Kumari

Discipline : Applied Science

Semester : 2nd

Subject : Applied Mathematic

Lesson Plan duration : 15 weeks

Work Load : Lecture-03, Practical-00

Week Theory Practical

Lecture Day

Topic Practical Day

Topic

1st 1st Definition of function and types of function

2nd Concept of limits and algebra of limits

3rd Methods for finding limits

2nd 1st Evaluation of exponential and logarithmic limits

2nd Definition of differentiation

3rd Differentiation of sinx, cosx by first principle

3𝑟𝑑 1𝑠𝑡 Differentiation of tanx by first principle

2nd Differentiation of sum and product of functions

3rd Problems related to Differentiation of product and sum

4th 1st Differentiation of Trigonometric functions

2nd Class Test 1: Chapter 1st.

3rd Successive Differentiation

5th 1st Differentiation of Infinite series

2nd Application of Derivative

3rd Application of Derivative in Maxima and Minima

6th 1st Problems based on Maxima and Minima

2nd Definition of Integration

3rd Problems based on some standard elementary Integrals

7th 1st Integration by substitution 1st

2nd Problems related to Integration

3rd Class test 2nd

8th 1st Definite Integral

2nd Evaluations of Definite Integral using properties

3rd Evaluations of Definite Integral using some standard results

9th 1st Problems based on Definite Integral

2nd Application of Integration

3rd Application of Integration for evaluation of area under curve and axes

10th 1st Numerical Integration by Trapezoidal rule

2nd Problems based on Trapezoidal rule

3rd Simpson’s rule

11th 1st Problems based on Simpson’s rule

2nd Definition of Differential equation

3rd Order of Differential equation

12th 1st Linear and non-linear equations

2nd Formation of Differential equation

13th 1st Measures of central tendency

2nd Mean, Median and Mode

3rd Problems based on Measures of central tendency

14th 1st Measures of Dispersion

2nd Problems based on Measures of Dispersion

15th 1st Rank and Rank correlation

2nd Coefficient of Rank correlation

LESSON PLAN

NAME OF Faculty : Mr. Navin Kumar

Discipline : Applied Science

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 Definition of wave with examples 1st To determine and

verify the time period

of cantilever.

2nd Types of wave motion, transverse and

longitudinal wave motion with

examples

2nd

To determine and

verify the time period

of cantilever.

3rd Relation between velocity of wave,

frequency and wave length of a wave (v

= n λ)

2nd 1st Simple harmonic motion: definition,

expression for displacement, velocity,

acceleration, time period, frequency in

S.H.M.

1st To determine time

period of Simple

Pendulum.

2nd Simple harmonic motion: definition,

expression for displacement, velocity,

acceleration, time period, frequency in

S.H.M.

2nd To determine time

period of Simple

Pendulum.

3rd Simple harmonic motion: definition,

expression for displacement, velocity,

acceleration, time period, frequency in

S.H.M.

3rd 1st Simple harmonic motion: definition,

expression for displacement, velocity,

acceleration, time period, frequency in

1st To verify ohm’s law.

S.H.M.

2nd Vibration of spring mass system,

cantilever and determination of their

time period. Free, forced and resonant

vibrations with examples

2nd To verify ohm’s law.

3rd Numerical

4th 1st ASSIGNMENT 1st To verify law of

resistance in series.

2nd Acoustics of buildings-reverberation,

reverberation time, echo, noise,

coefficient of absorption of sound,

methods to control reverberation time,

2nd To verify law of

resistance in series.

3rd Acoustics of buildings-reverberation,

reverberation time, echo, noise,

coefficient of absorption of sound,

methods to control reverberation time

5th 1st Acoustics of buildings-reverberation,

reverberation time, echo, noise,

coefficient of absorption of sound,

methods to control reverberation time

1st To find resistance of

galvanometer by half

deflection method.

2nd Ultrasonics-Methods of production

(magnetostriction oscillator only) and

their

engineering applications to cold

welding, drilling, cleaning and SONAR

2nd To find resistance of

galvanometer by half

deflection method.

3rd Ultrasonics-Methods of production

(magnetostriction oscillator only) and

their

engineering applications to cold

welding, drilling, cleaning and SONAR

6th 1st ASSIGNMENT

1st To verify law of

resistances in parallel.

2nd Lenses, reflection & refraction of light,

refractive index, lens formula (no

derivation), real and virtual image,

magnification

2nd To verify law of

resistances in parallel.

3rd Lenses, reflection & refraction of light,

refractive index, lens formula (no

derivation), real and virtual image,

magnification

7th 1st Power of lens, microscope, telescope

(definition only)

Total internal reflection, critical angle

and conditions for total internal

reflection.

1st To convert a

galvanometer into an

ammeter of given

range.

2nd Power of lens, microscope, telescope 2nd To convert a

(definition only)

Total internal reflection, critical angle

and conditions for total internal

reflection.

galvanometer into an

ammeter of given

range

3rd Coulomb's law, unit charge

8th 1st Gauss's Law 1st To convert a

galvanometer into a

voltmeter of given

range.

2nd ASSIGNMENT 2nd To convert a

galvanometer into a

voltmeter of given

range

3rd Electric field intensity and electric

potential (definition and units only)

4.4 Application of Gauss’s Law to

straight charged conductor, plane

charged sheet

9th 1st Electric field intensity and electric

potential (definition and units only)

4.4 Application of Gauss’s Law to

straight charged conductor, plane

charged sheet

1st To study and verify

laws of reflection

using mirrors.

2nd Capacitance, capacitance of parallel

plate capacitor, series and parallel

combination of capacitors

2nd To study and verify

laws of reflection

using mirrors.

3rd Capacitance, capacitance of parallel

plate capacitor, series and parallel

combination of capacitors

10th 1st Dielectric and its effect on capacitors,

dielectric constant and dielectric

breakdown

1st

2nd Dielectric and its effect on capacitors,

dielectric constant and dielectric

breakdown

2nd

3rd ASSIGNMENT

11th 1st Definition of electric current, resistance ,

potential & their units

1st

2nd Ohm's law 2nd

3rd Specific resistance, series and parallel

combination of resistances, effect of

temperature on resistance.

12th 1st Specific resistance, series and parallel

combination of resistances, effect of

temperature on resistance.

1st

2nd Specific resistance, series and parallel 2nd

combination of resistances, effect of

temperature on resistance.

3rd Class test

13th 1st Kirchhoff's laws, Wheatstone bridge 1st

2nd Heating effect of current and concept of

electric power(NUMERICALS)

2nd

3rd Types of materials (insulator, semi-

conductor, conductor), intrinsic and

extrinsic

semi conductor, p-n junction diode and

its characteristics

14th 1st Diode as rectifier-half wave and full

wave rectifier, semi conductor transistor

pnp and npn (introduction only

1st

2nd Lasers: concept of energy levels,

ionizations and excitation potentials;

spontaneous and stimulated emission;

population inversion, Laser, types of

lasers, ruby laser and applications of

laser

7.2 Fiber optics: Introduction and

applications

2nd

3rd Lasers: concept of energy levels,

ionizations and excitation potentials;

spontaneous and stimulated emission;

population inversion, Laser, types of

lasers, ruby laser and applications of

laser

7.2 Fiber optics: Introduction and

applications

15th 1st Super conductivity: Phenomenon of

super conductivity, Type I and Type II

super conductor and its applications

1st

2nd Super conductivity: Phenomenon of

super conductivity, Type I and Type II

super conductor and its applications

2nd

3rd Class Test