Lecture
day
Topic
(including assignment/
Practical
Day
Topic
1st(unit-1)
General metallurgical
terms and operation
with Fe.
1st(PR-1) Gravimetric Anlaysis
2nd Metallurgical of Cu.
3rd Metallurgical of Al.
4th Manufacture of Steel.
3rd Gravimetric Anlaysis
5th Alloy's, its types & its purpose of alloys.
6th Properties & applications Invar,brass.
7th
Properties of Alnico, nichrome, stainless steel.
5th
Determination of %
purity of blue vitriol
using N/20 Na₂S₂O₃.
8th Bronze , Duralumin,Brass.
9th Magnalium and Solder
10th(unit-2)
Defination of corrosion
type and
factor affecting
corrosion rate.
7th Revision of pr-1 & pr-2.
11th
Theory of dry & wet Corrosion.
Determination of
moisture in given
sample of coal
12th
Passivity in metel ,
cathodic
protection
13th
Metal coatings.
9th
Determination of
moisture in given
sample of coal
14th Inorganic and organic coating
15th Internal corrosion preventive measure
16th Heat treatment and Revision 11th Revision of pr-3.
17th Test of Ist and 2nd
6th12th
Determination of
percentage
of volatile and non
volatile matter
in given coal sample
4th
8th(PR-3)
5th
10th(PR-4)Determination of
percentage
Semester 2nd
Work Load(Lecture/Practical) per week(in hours):-Lectures -03,Practicals-02
2nd Gravimetric Anlaysis
Ist
Lesson Plan
Name of Faculty DR.S.P.SINGH
Discipline Civil Engg
2nd
3rd
Subject Applied Chemistry-II
Lesson Plain Duration 16 Week(From January 2018 to May 2018 )
Week Theory Practical
4th(PR-2)Determination of %
purity of Blue vitrol
6thDetermination of %
purity of blue vitriol
18th(unit-3)
Fuel - Definition ,
classification ,
characterstic of good
fuel
19th
Relative merits of fuels
13th(PR-5)
Gravimetric
estimation of ash
content in given coal
sample.
20th Calorific value and its determination
21st Analysis of coal & Revision.
22nd(unit-4)Fuel rating 15th Revision of pr-4 & pr-5.
23rd Gaseous fuels.
24th Water gas , Bio gas .
25thHydrogen as future fuel & Nuclear fuel
17th Preparation for viva.
26th Lubricant ,Lubricacation & Its types.
27th Classification of lubricants
28th
Physical properties of Lubricant
19th(PR-7)Determination of flash
point of lubricating oil.
29th Chemical Properties
30th Designation of Lubricating oil
31st Application of cutting fluid 21th Revision.
32nd Assignment of cutting fluid.
33rd Revision of unit -3 & unit -4.
34thTest
23rd Preparation for viva.
35th(unit-5) Types & application of ceramics.
36th
Application and type
ofRefactories &
composite material.
37th Glass 25th Revision
38th Paint ,varnish & enamels
39th(unit-6)
Polymer,Monomer and
degree of
polymerisation
40th Addition and
condensation polymer
27th(PR-9)
Detection of Iron in
given
solution of rust
41st Plastics ,thermoplasticsplastics.
42nd Thermosetting plastics.
43rd Application of Polymer 29th Revision
44th Revision
45th Test
46th Model Test prepration 31st Revision
47th Revision
48th Test16th
32ndRevision
14th
28thDetection of Iron in
given
15th30th
Revision
12th
24th
To study the effect of
Metal
on corrosion coupling
of
13th26th
Revision
10th
20thDetermination of flash
point of lubricating oil.
11th22nd(PR-8)
To study the effect of
Metal
8th
16th(PR-6)Determination of
viscosity of liquid
9th
18thDetermination of
viscosity of liquid
6th12th
Determination of
percentage
of volatile and non
volatile matter
in given coal sample
7th
14thGravimetric
estimation of ash
Lecture
dayTopic(Including assignment/test)
Practical
DayTopic
1 Definition of wave with examples
2 Types of wave motion
3 Transverse and longitudinal wave
4
Relation between velocity of wave,
frequency and wave length of a wave
Assignment- 5 Simple harmonic motion
6 Vibration of spring mass system
7 cantilever
8 Free, forced
9 resonant vibrations
10 Test
11 Sound Waves
12 Acoustics of buildings-reverberation
13 reverberation time,
14 echo, noise
15 coefficient of absorption of sound
16 methods to control reverberation time
17
coefficient of absorption of sound
Assignment
18 cold welding, drilling,cleaning and SONAR
19 Test
20 Optics, Lenses
21 reflection & refraction of light
22 refractive index, lens formula
23
real and virtual image, magnification
Assignment
24 Power of lens
25 microscope, telescope
26 Total internal reflection
27 critical angle
28 Test
29 Basic of Electrostatics
30 Coulomb's law, unit charge
31
Gauss's Law
Assignment
Work load (Lecture/Practical) per week (in hours):Lectures-04,Practicals-02
Lesson Planning
Name of Faculty :AMIT RANA
Dicipline :Applied Science
Subject :Applied Physics-II
Lesson Plan duration :16Weeks(From January 2018 to April 2018)
Week
Theory Practical
1 1
To determine and
verify the time period
of cantilever.
2 2
To determine time
period of Simple
Pendulum.
3 3
To verify ohm’s law.
4 4
To verify law of
resistance in series.
5 5
To verify law of
resistances in parallel.
6 6
To find resistance of
galvanometer by half
deflection method.
7 7
To convert a
galvanometer into an
ammeter of given
range.
8 8
To convert a
galvanometer into a
voltmeter of given
range.
32 Electric field intensity
33 electric potential
34 Application of Gauss’s Law
35 straight charged conductor
36 plane charged sheet
37 Capacitance
38 capacitance of parallel and parallel plate capacitor
39 Dielectric
40 dielectric constant and dielectric breakdown
41 Test
42 Basic of Current Electricity,electric current
43 resistance
44 potential & their units
45 Ohm's law
46 Specific resistance
47 series and parallel combination of resistances
48 effect of temperature on resistance.
49 Kirchhoff's laws
50
Wheatstone bridge
Assignment
51 Heating effect of current and concept of electric power
52 Test
53 Types of materials, intrinsic and extrinsic semi conductor
54 p-n junction diode and its characteristics
55 Diode as rectifier-half wave and full wave rectifier
56
semi conductor transistor pnp and npn
Assignment
57 Test
58 Lasers: concept of energy levels,
59 ionizations and excitation potentials;
60 spontaneous and stimulated emission;
61
population inversion, Laser, types of
lasers, ruby laser and applications of laser
62
Fiber optics: Introduction and application
Assignment
63 Super conductivity
64 Test
8 8
To convert a
galvanometer into a
voltmeter of given
range.
9 9
To study and verify
laws of reflection using
mirrors.
10 10
11 11
12 12
13 13
16 16
14 14
15 15
Lecture
dayTopic(Including assignment/test)
Practical
DayTopic
1 Differential Calculus
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21 Test
22
23
24
25
26
27 Test
28
29
30
31
32
33
34
35
36
37
38 Test
39
40
41
Work load (Lecture/Practical) per week (in hours):Lectures-05
Lesson Planning
Name of Faculty :SAMIKSHA RAGHAV
Dicipline :Applied Science
Subject :Applied Mathematics-II
Lesson Plan duration :16Weeks(From January 2018 to April 2018)
Week
Theory Practical
1Definition of function; Concept of limits
2
Differentiation by definition of x^n , sin x, cos x, tan x, e^x,
logax only, Assignment
Differentiation of sum, product and quotient of functions.
Differentiation of function of a function3
Differentiation of inverse trigonometrical functions,
Logarithmic
differentiation, Exponential differentiation, Successive
differentiation (upto
third order only). Assignment
4
5
Applications:
(a) Maxima and minima
(b) Equation of tangent and normal to a curve (for explicit
functions only) –
Simple problems only
6
Integration as inverse operation of differentiation
7
Simple standard integrals and related problems
8
Simple integration by substitution, by parts and by partial
fractions, Assignment
9
42
43
44
45
46
47
48
49
50
51
52
53
54 Test
55
56
57
58
59
60
61
62
63
64 Test
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80 Test
Simple integration by substitution, by parts and by partial
fractions, Assignment
9
Evaluation of definite integrals
10
Numerical integration by Simpson’s Rule and Trapezoidal
Rule
(simple problems only)
11
Definition, order, degree, linear and non-linear differential
equations
12
Formation of differential equations (upto second order)
13
Solution of first order differential equations by variable
separable method only, Assignment
Measures of Central Tendency: Mean, Median, Mode
14
Measures of Dispersion: Mean deviation, Standard
deviation15
Co-efficient of rank correlation, Assignment
16
Lecture
dayTopic(Including assignment/test)
Practical
DayTopic
1
2
3
4
5
6
7
8
9
10
11
12
13
14 Test
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30 Test
31
32
33
34
35
36
Work load (Lecture/Practical) per week (in hours):Lectures-04,Practicals-02
Lesson Planning
Name of Faculty :Mrs.INQUAL
Dicipline :Applied Science
Subject :Communication Skill-II
Lesson Plan duration :16Weeks(From January 2018 to April 2018)
Week
Theory Practical
1Prepositions
1Locating Main Ideas in
a Listening Excerpt
Pronouns
2 2 Note-takingDeterminers
3
Conjunctions
Assignment 3 Developing Oral
Communication Skills
Question and Question Tag
4 4 Offering-Responding
to OffersTenses (Simple Present, Simple Past)
Assignment
5 5
Requesting-
Responding to
Requests
Reading Skills
6 6 Congratulating
7 7Expressing Sympathy
and Condolences
8 8Expressing
Disappointments
9 9Asking Questions-
Polite Responses
10 10 Apologizing, Forgiving
11Writing Notice
11 Complaining
Writing Circular
12 12 PersuadingWriting a Memo
Assignment
37
38
39
40
41
42
43
44
45 Test
15Paragraph writing:
15 Giving Instructions
13Agenda for a Meeting
13 Warning
Minutes of the Meeting
14 14Asking for and Giving
InformationTelephonic Messages
Assignment
Lecture
dayTopic(Including assignment/test)
Practical
DayTopic
1
C oncep t of eng i neer i ng m
echan i c s def i n iti on of m echan
i c s , st a ti c s , dyna mi c s
Ver i f i ca ti on of t he po l ygon l
aw of force s
2
App li ca ti on of eng i neer i ng m
echan i c s i n prac ti ca l f i e l d s .
Using greave s and appara t u
3
Def i n iti on of App li ed M echan i c
s .Def i n iti on, ba si c quan titi e s
and der i ved quan titi e s of ba si c un
its and der i ved un its
4
D i fferen t s y st e ms of un its (F
PS , C G S , M K S and S I) and t
he i r conver si on fro m one t o ano
t her for den sit y, force, pre ss ure,
5
Work, power, ve l oc it y, acce l era
ti on 1.4 C oncep t of r i g i d body,
s ca l ar and vec t or quan titi e s To ver i fy t he force s i n d i
fferen t m e m ber s
6
Def i n iti on of force, m ea s ure m
en t of force i n S I un its , its repre
s en t a ti on, t ype s of force : P o i
n t force / concen t ra t ed force &
Un i for ml y d ist r i bu t ed force,
of ji b crane
7
Effec ts of force, charac t er isti c s of
a force .D i fferen t force s y st e ms
(cop l anar and non-cop l anar)
8
Pr i nc i p l e of t ran smissi b ilit y
of force s , l aw of s uper-po siti on
C o m po siti on and re s o l u ti on
of cop l anar concurren t force s , re
s u lt an t force,
9
M e t hod of co m po siti on of force
s , l aw s of force s , t r i ang l e l aw
of force s ,
To ver i fy t he reac ti on a t t he s
uppor ts of a
10
po l ygon l aw of force s-graph i ca
ll y, ana l y ti ca ll y,
sim p l y s uppor t ed bea m .
2 2
Lesson Planning
Name of Faculty :YOGESH BAISLA
Dicipline :ME
Subject : Applied Mechanics
Lesson Plan duration :16Weeks(From January 2018 to April 2018)
Work load (Lecture/Practical) per week (in hours):Lectures-04,Practicals-02
Week
Theory Practical
1 1
3 3
11
re s o l u ti on of force s , re s o l v i
ng a force i n t o t wo rec t angu l ar
co m ponen ts
12 Free body d i agra m
13
Equ ili bran t force and its de t er
mi na ti on
To f i nd t he m echan i ca l advan t
age, ve l oc it y
14La mi ' s t heore m (concep t on l y)
Ra ti o and eff i c i ency i n ca s e of
an
15
[Sim p l e prob l e ms on above t op i c
s]Inc li ned p l ane.
16
C oncep t of m o m en t M o m en t
of a force and un its of m o m en t
17
Var i gnon' s t heore m (def i n iti
on on l y)
To f i nd t he m echan i ca l advan t
age,
18
P r i nc i p l e of m o m en t and its app
li ca ti on s (Lever s – sim p l e and co
m pound
ve l oc it y ra ti o and eff i c i ency
19
st ee l yard, s afe t y va l ve, reac ti
on a t s uppor t Of a s crew j ack
20 numerical on moment
21
P ara ll e l force s ( li ke and un li
ke para ll e l force), ca l cu l a ti ng t
he i r re s u lt an t
To f i nd t he m echan i ca l advan t
age,
22
C oncep t of coup l e, its proper ti e
s and effec tsve l oc it y ra ti o and eff i c i ency
23
Genera l cond iti on s of equ ili br i
u m of bod i e s under cop l anar
force s of wor m and wor m whee l .
24
P o siti on of re s u lt an t force by
m o m en t
25
[Sim p l e prob l e ms on t he above
t op i c s To f i nd m echan i ca l advan t age
26
[Sim p l e prob l e ms on t he above
t op i c s ve l oc it y ra ti o and eff i c i ency
27 Fr i c ti on basic of si ng l e purcha s e crab
28
Def i n iti on and concep t of fr i c ti
on
29 t ype s of fr i c ti on
30 force of fr i c ti on
31 Law s of st a ti c fr i c ti on,
32 coeff i c i en t of fr i c ti on
33 ang l e of fr i c ti on
34 ang l e of repo s e
35 cone of fr i c ti on
36
Equ ili br i u m of a body l y i ng on
a hor iz on t a l p l ane
37
equ ili br i u m of a body l y i ng on
a rough i nc li ned p l ane.
3 3
4 4
5 5
6 6
7 7
8 8
9
10
38
Sim p l e prob l e ms on t he above t
op i c s
39
Sim p l e prob l e ms on t he above t
op i c s
40
Sim p l e prob l e ms on t he above t
op i c s
41
Sim p l e prob l e ms on t he above t
op i c s
42 C en t re of Grav ity basic
43
C oncep t , def i n iti on of cen t ro i
d of p l a i n f i gure s
44
cen t re of grav it y of s y mm e t r i
ca l s o li d bod i e s
45
De t er mi na ti on of cen t ro i d of
p l a i n and co m po sit e l a mi na
u si ng m o m en t
46
cen t ro i d of bod i e s w it h re m
oved por ti on
47
De t er mi na ti onof cen t er of grav
it y of s o li d bod i e s-cone,
48 cy li nder, he mis phere and s phere
49
co m po sit e bod i e s and bod i e s
w it h por ti on re m oved
50
Sim p l e prob l e ms on t he above t
op i c s
51
Sim p l e prob l e ms on t he above t
op i c s
52
Sim p l e prob l e ms on t he above t
op i c s
53
Sim p l e prob l e ms on t he above t
op i c s
54
Def i n iti on of effor t , ve l oc it y
ra ti o, m echan i ca l advan t age
55
eff i c i ency ofa m ach i ne and t he
i r re l a ti on s h i p, l aw of m ach i
ne s
56
Sim p l e and co m pound m ach i
ne (E x a m p l e s )
57
Def i n iti on of i dea l m ach i ne,
rever si b l e and s e l f l ock i ng m
ach i ne
58
W ork i ng pr i nc i p l e and app li
ca ti on of whee l and a xl e
59
Sim p l e prob l e ms on t he above t
op i c s
60
Sim p l e prob l e ms on t he above t
op i c s
61 Tor si on i n s haf ts/ bar s
10
11
12
13
14
15
16
62 M odu l u s of r i g i d it y ,
63
Tor si ona l Equa ti on ( sim p l e nu
m er i ca l prob l e ms )
64
P ower Tran smissi on i n s haf ts (
sim p l e nu m er i ca l prob l e ms )
16
Lecture/P
ractical
DayTopic
D i fferen t v i ew s of he x agona l and s quare nu ts and he x agona l
headed bo lt
A ss e m b l y of He x agona l headed bo lt and He x agona l nu t w it h wa s her.
Ci v il eng i neer i ng s an it ary f itti ng s y m bo ls
E l ec t r i ca l f itti ng s y m bo ls for do m e sti c i n t er i or i n st a ll a ti on s
2 2 P r i nc i p l e and u tilit y of de t a il and a ss e m b l y draw i ng s
Lesson Planning
Name of Faculty :RAHUL AGRAWAL
Dicipline :ME
Subject : EGD - 2
Lesson Plan duration :16Weeks(From January 2018 to April 2018)
Work load (Lecture/Practical) per week (in hours): Practicals
WEEK
1 1De t a il and A ss e m b l y Draw i ng
3 3W ooden j o i n ts i .e. corner m or ti ce and t enon j o i n t , Tee ha l v i ng j o
i n t , Mit re faced corner j o i n t
4 4Tee br i d l e j o i n t , C ro ss ed wooden j o i n t , C ogged j o i n t , Dove t
a il j o i n t ,
5 5M or ti ce and Tenon j o i n t , furn it ure draw i ng-freehand and w it h t he he l
p of draw i ng i n st ru m en ts .
6 6S crew t hread s and t hreaded fa st ener s
11 11Draw i ng of var i ou s t ype s of m ach i ne s crew, s e t s crew, st ud s and wa s
her s
7 7
Thread Ter ms and No m enc l a t ure,Type s of t hread s-E xt erna l and In t
erna l t hread s , Ri gh t and Lef t hand t hread s
8 8
D i fferen t For ms of s crew t hread s-V t hread s (B. S . Wt hread s , B.A t
hread, A m er i can Na ti ona l and M e t r i c t hread), S quare t hread s ( s
quare, Ac m e, Bu tt re ss and Knuck l e t hread)
9 9
10 10D i fferen t t ype s of l ock i ng dev i ce s-Locknu t , ca stl e nu t , s p lit p i nnu t ,
l ock i ng p l a t e, sl o tt ed nu t and s pr i ng wa s her
16 16 AUTO C AD
12 12Var i ou s prepara ti on of draw i ng of var i ou s key s and co tt er s s how i ng
key s and co tt er s i n po siti on
13 13Type s ofgenera l purpo s e-r i ve ts head s (4 S hee ts ) 4.2 C au l k i ng
and fu ll er i ng of r i ve t ed j o i n ts 4.3Type s of r i ve t ed j o i n ts
14 14F l ange coup li ng ( P ro t ec t ed and non-pro t ec t ed), m uff coup li ng and ha
l f-l ap m uff coup li ng
15 15