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Lesson Plan

Name : Guest Faculty

Discipline : Common for all branches

Year : 1st

Subject : Applied Chemistry

Code : 180014

Duration : 40 weeks (30/7/2018 to 30/04/2019)

Work Load : 2 Lectures and 1 Practical per week

Wee

k

Theory Practical

Lectu

re

Day

Topic

(including assignment/ test)

Practic

al Day

Topic

1st 1st General introduction: Importance and scope of

chemistry 1st

Do’s and Don’t’s of

Chemistry Lab

2nd Classification of matter: Physical classification: Solid, Liquid and Gases (only definition with examples).

2nd 1st Classification of matter:

Chemical Classification: elements,

compounds and mixture (Definition and

examples Types of mixture excluded).

1st Volumetric analysis

and apparatus used

their in.

2nd Definition of atom, molecule, symbol and

significance of symbol.

3rd 1st Molecular Formula, Writing the formula of

compounds containing CI-, OH-, HCO3-, SO42-

,CO32- and NH4+, Na+, K+, Ca2+, Mg2+, Fe2+,

Zn2+, Fe3+, Al3+ ions

1st

Practical Practice

2nd L-1- Calculation of molecular mass (Atomic

mass of constituents should be provided),

Calculation of mass percentage composition

of elements in compound (Atomic masses of

elements should be provided)

4th 1st L-2- Calculation of molecular mass (Atomic

mass of constituents should be provided),

Calculation of mass percentage composition

of elements in compound (Atomic masses of

elements should be provided)

1st

Volumetric analysis

and apparatus used

their in.

2nd Fundamental particles of atom: electron, proton

and neutron, charge and mass of electron, proton

and neutron.

5th 1st Bohr’s model of atom (postulates only) i,e

concept of orbit or shell.

1st Volumetric analysis

and apparatus used

their in.

2nd Atomic number (Z), mass number (A),

calculation of protons, electrons and neutrons in AzX

6th 1st Isotopes, isobars and isotones (definition with

examples). 1st

Practical Practice

2nd Concept of orbital (wave nature of electron),

difference between orbit and orbital.

7th 1st Principles of filling electrons in various orbital:

a) Aufbau principle

b) Hund’s Rule of maximum multiplicity

Pauli’s exclusion principle.

1st

To prepare standard

solution of oxalic acid

(N/20).

2nd Electronic configuration of atoms (upto Z=30)

Assignment Work on Structure of

Atom

8th 1st Valence electrons, Lewis symbol. 1st To prepare standard


(N/20). 2nd Octet rule (Limitation excluded).

9th 1st Chemical bond (definition) and its type. 1st

Practical Practice

2nd Electrovalent or Ionic Bond with example of

NaCI,.

10th 1st Covalent Bonding in H2, O2, 1st

To prepare standard


(N/20). 2nd Test-1

11th 1st Assignment 1 Checking

Class/Home Work Checking

1st To determine the

strength of given

sodium hydroxide

solution by titrating

against standard oxalic

acid (N/10) solution

using phenolphthalein

as indicator.

2nd Definition of solution, Binary solution, aqueous

solution.

12th 1st Definition of solute, solvent. 1st

Practical Practice

2nd Definition of acid and base and salt.

13th 1st Definition of acidity and basicity. 1st

To determine the

strength of given

sodium hydroxide





as indicator.

2nd Concentration of solution

14th 1st L-1-Modes of expressing concentration of

solution a) Strength b) Molarity (M)

c) Normality (N)and d) simple numerical

problems based on (a) and (b)


strength of given

sodium hydroxide





as indicator.

2nd L-2-Modes of expressing concentration of

solution c) Strength d) Molarity (M)

c) Normality (N)and d) simple numerical

problems based on (a) and (b)

15th 1st L-1-Definition of pH and industrial application

of pH. (Numericals excluded) 1st

Practical Practice

2nd L-2-Definition of pH and industrial application

of pH. (Numericals excluded)

16th 1st Buffer solution and its type. 1st

Gravimetric analysis

and apparatus used

their in. 2nd Test-2

17th 1st Electronic concept of oxidation, reduction 1st Gravimetric analysis

and apparatus used

their in. 2nd Definition of terms electrolyte, non electrolyte

with example

18th 1st Types of electrolytes: strong and weak with

examples 1st

Practical Practice

2nd Definition of electrolysis.

19th 1st Faradays laws of electrolysis 1st

To determine the

percentage of moisture

in given sample of coal.

2nd Assignment 2 Checking


20th 1st Industrial applications of electrolysis:

Electroplating, electrolytic refining,

electrometallurgy


percentage of moisture

in given sample of coal.

2nd Metals and Non-metals (definition)

21th 1st Definition of Mineral, Chief ores of iron,

aluminum and copper.

1st

Practical Practice

2nd Definition of metallurgy, types of metallurgy

22th 1st L-1- General Steps of metallurgy 1st To determine the

a) Crushing

b) Pulverization of ore

c) Concentration or purification of ore:

(i) Gravity separation method

( ii) froth flotation method

d) Oxidation of ore:

i) Roasting.

ii) Calcination

percentage of ash in

given sample of coal.

2nd L-2- General Steps of metallurgy

e) Crushing

f) Pulverization of ore

g) Concentration or purification of ore:

(j) Gravity separation method

( ii) froth flotation method

h) Oxidation of ore:

i) Roasting.

ii) Calcination

23th 1st Reduction:

i) Smelting (Pyrometallurgy)

ii) Electrolytic reduction


percentage of ash in

given sample of coal.

2nd Refining of Metal:

Electrolytic refining

24th 1st Definition of alloy, types of alloys and purpose

of alloying. 1st

Practical Practice

2nd Definition of fuel, classification of fuel a) on the

basis of physical state b) on the basis of source.

25th 1st Definition of calorific value, HCV and LCV. 1st

To determine the

percentage of volatile

and non volatile

substance in given

mixture.

2nd Characteristics of good fuel, advantages of

gaseous fuel over solid fuels.

26th 1st Coal- Proximate analysis of coal and its

importance. 1st To determine the

percentage of volatile

and non volatile

substance in given

mixture.

2nd Fuel quality rating- octane number and cetane

number (definition only)

27th 1st L-1-Gaseous fuel: Composition, calorific value

and application of CNG, LPG and biogas. 1st

Practical Practice

2nd L-2-Gaseous fuel: Composition, calorific value

and application of CNG, LPG and biogas.

28th 1st Type of water: Soft and hard water. 1st

To determine the

viscosity of lubricant

by using Redwood

viscometer.

2nd Types of hardness of water

29th 1st Units of hardness of water: ppm, mg/L (with

simple numericals).


viscosity of lubricant

by using Redwood

viscometer. 2nd L-1- Disadvantages of using hard water in

boiler.

a) Scale and sludge formation

b) Boiler Corrosion

c) Caustic embrittlement

30th 1st L-2- Disadvantages of using hard water in

boiler.

a) Scale and sludge formation

b) Boiler Corrosion

c) Caustic embrittlement

1st

Practical Practice

2nd Qualities of drinking (potable) water

31th 1st Lubricant and lubrication. 1st

To determine total acid

number (TAN) or Total

acid value of given

lubricant (liquid).

2nd Functions of lubricants

32th 1st Classification of lubricants: solid, semisolid and

liquid lubricants with examples.

1st To determine total acid


acid value of given

lubricant (liquid).

2nd Type of lubrications – hydrodynamic and

boundary lubrication with illustrative diagrams.

34th 1st Properties of lubricants:- Physical properties- viscosity, viscosity index, cloud point, pour point, flash point, fire point, oiliness

1st

Practical Practice

2nd Properties of lubricants:-

Chemical properties- TAN or TAV

(Total acid number), emulsification,

aniline point and iodine value.

35th 1st Definition of polymer, Monomer, Degree of

Polymerization 1st

To determine total acid


acid value of given

lubricant (liquid).

2nd Monomer and uses of PE, PVC, PS, Teflon,

Nylon-66, Bakelite

36th 1st L-1-Brief introduction to addition and

condensation polymers with suitable examples

(PE, PVC, PS, Teflon, Nylon-66, Bakelite).

1st Detection of iron metal

in the given solution of

rust.

2nd L-2-Brief introduction to addition and

condensation polymers with suitable examples

(PE, PVC, PS, Teflon, Nylon-66, Bakelite).

37th 1st Assignment Work on Organic Chemistry 1st

Practical Practice

2nd L-1- Definition of plastics, thermoplastic and

thermosetting polymer with example, difference

between thermoplastic and thermosetting

polymers.

38th 1st L-2- Definition of plastics, thermoplastic and

thermosetting polymer with example, difference

between thermoplastic and thermosetting

polymers.

1st

Detection of iron metal


rust.

2nd Uses of polymer and plastic in daily life and in

industries.

39th 1st Test-3 1st Detection of iron metal


rust.

2nd Assignment 3 Checking


40th 1st Revision 1st

Practical Practice

2nd Problem Solving Session

Name : Guest FacultyDiscipline : Common for all branchesYear : 1st

Subject : Communication SkillsDuration : 40 weeks (30/7/2018 to 30/04/2019)Work Load : 2 Lectures and 1 Practical per week

Week Lecture No. c.s contents PRACTICAL1 Communication (Meaning)

Importance of Communication2 Definition of communciton1 Process of Communication2 Lect-21 Definition - noun2 Types of Noun1 Exercises2 Definition of pronoun1 Types of Pronoun2 Excercises1 Letter-Introduction2 Business Letter1 Types of Business2 Letters1 Official letters Exercise2 Unseen passage1 One word substition2 Test 11 Revision2 Sessional Test-11 Checking of Sessional Test Responding to Requests,2 Definition punctuation Congratulating1 Punctuation Expressing sympathy 2 Exercises and condolence1 Exercises Apologizing and forgiving2 What is memo1 Types of memo Coomplaining2 Exercises1 Exercises Warning2 Definition of memo1 Excercises Asking and giving information2 Exercises1 Assignment 2 Getting and giving permission2 Checking 1 Unseen passage Asking for giving information2 Prefixes

15th Week

16th Week

17th Week

18th Week

10th Week

11th Week

12th Week

13th Week

14th Week

5th Week

6th Week

7th Week

8th Week

9th Week

Lesson Plan

1st Week

2nd Week

3rd Week

4th Week

Listening Excercise

Listening Practise

Self and Peer Introduction

Requestinbg

Responding to Offers

Practice

Debate

Situtaional conversation

Offering

Responding Offers

1 Suffixes Talking about like and dislike2 Exercises1 Test 2 Practise2 Revision1 Revision Practise2 Sessional Test -21 Sessional test checking2 cheching1 Types of communication Just a minute session2 Verabal communication1 Listening ans speaking Extempore2 Reading and writing1 Non verabal communication Group discussion2 Types of non verbal communication1 Test Group discussion2 Defintion of preposition1 Types of preposition Group discussion2 Exercises1 Exercises Newspaper reading2 Definition conjunction1 Types of conjunction Newspaper reading2 Exercises1 Test Mock interviews2 Tenses and types of tenses1 Present tense types Telephonic2 Exercises1 Past tense and types Personal2 Exercises1 Future tense and types Telephonic2 Exercises1 Test Personal2 Main verb1 Auxiliary verb practice2 Exercises1 Antonyms practice2 Exercises1 Synonyms practice2 Exercises1 Exercises Practice2 Home assignment checking1 Test Practice2 Test checking1 Revision practice2

40th Week

35th Week

36th Week

37th Week

38th Week

39th Week

30th Week

31st Week

32nd Week

33rd Week

34th Week

25th Week

26th Week

27th Week

28th Week

29th Week

20th Week

21st Week

22nd Week

23rd Week

24th Week

19th Week

Lesson Plan

Name : Urmil Chaudhary

Discipline : Common for all branches

Year : 1st

Subject : Applied Mathematics

Code : 180012

Duration : 39 weeks (30/7/2018 to 30/04/2019)

Work Load : 3 Lectures and 2 Tutorials per week

Week

Theory

Lecture/

Tutorial day

Topic

1st 1st Law of Indices and basics

2nd Tutorial/ Problem Solving

3rd Formula of Factorisation and expansion with some solved problems.

4th Tutorial/Problem Solving

2nd

1st Partial fraction:- Definition of Polynomial fraction proper & improper fractions and definition of partial fractions with examples.


3rd To resolve proper fraction into partial fraction with denominator containing non-repeated linear factors, only. (L-1)

4th To resolve proper fraction into partial fraction with denominator containing non-repeated linear factors, only. (L-2)

5th Tutorial/ Problem Solving

3rd 1st Complex numbers: definition of complex number, real and imaginary parts of a complex number.


3rd Addition, subtraction, multiplication and division of complex numbers.


4th 1st Conjugate of a complex number, modulus and amplitude of complex numbers.


3rd Polar and Cartesian Form and their inter conversion.


5th 1st Logarithm and its basic properties (L-1)


3rd Logarithm and its basic properties (L-2)

4th Definition of Matrix and its types with examples.


6th 1st Addition and subtraction of Matrices,Multiplication of Matrices(upto 2nd order).


3rd Determinants : Evaluation of determinants (up to 3 order) by Laplace method.


7th 1st Solution of equations (upto 3 unknowns) by Cramer’s Rule.


3rd Permutation and value of nPr with solved examples.

4th Combination and value of nCr with solved examples.


8th 1st Binomial theorem for positive integral index with simple problems.


3rd General term from binomial expansion and related problems.

4th Some solved problems on Binomial theorem.


9th 1st Concept of angle: measurement of angle in degrees, grades, radians.


3rd Conversions of angles.

4th T-Ratios of standard angle (0°, 30°, 45° etc.) and fundamental Identities.


10th 1st Allied angles (without proof) Sum, Difference formulae and their applications (without proof). (L-1)


3rd Sessional test as mentioned in Academic Calander/Revision

4th Sessional test as mentioned in Academic Calander/Revision

11th 1st Sessional test as mentioned in Academic Calander/Revision


3rd Allied angles (without proof) Sum, Difference formulae and their applications (without proof). (L-2)


12th 1st Product formulae (Transformation of product to sum, difference and vice versa)


3rd Applications of Trigonometric terms in engineering problems such as to find an angle of elevation, height, distance etc.

(L-1)

4th Tutorial/ Problem Solving 13th 1st Applications of Trigonometric terms in engineering problems (L-2)


3rd Point: Distance Formula, Mid Point Formula.


14th 1st Centroid of triangle and area of triangle.


3rd Straight line: Slope of a line, equation of straight line in various standards forms (without proof).


15th 1st Examples based on slope intercept form, intercept form and one-point form of straight line.


3rd Examples based on two-point form, normal form and general form of straight line.


16th 1st Angle between two straight lines.


3rd Circle: General equation of a circle and identification of centre and radius of circle.

4th To find the equation of a circle when centre and radius are given and when coordinates of end points of a diameter are given.


17th 1st Definition of function and some solved problems.


3rd Concept of limits (Introduction only) and some simple problems.

4th Standard limits and related problems. (L-1)


18th 1st Standard limits and related problems. (L-2)


3rd Standard limits and related problems. (L-3)

4th Miscellaneous problems on Limits.


19th 1st Differentiation of standard function (Only formulas).


3rd Differentiation of sum and subtraction of functions and some simple problems.

4th Differentiation of product of functions and some simple problems.


20th 1st Differentiation of quotient of functions and some simple problems.


3rd Differentiation of Algebraic functions.

4th Differentiation of Trigonometric functions. (L-1)


21st 1st Differentiation of Trigonometric functions. (L-2)


3rd Differentiation of Trigonometric functions. (L-3)



22nd 1st Sessional test as mentioned in Academic Calander/Revision

23rd

1st Differentiation of Exponential function. (L-1)


3rd Differentiation of Exponential function. (L-2)

24th

1st Differentiation of Logarithmic function. (L-1)


3rd Differentiation of Logarithmic function. (L-2)

4th Successive differentiation (up to 2nd order). (L-1)


25th

1st Successive differentiation (up to 2nd order). (L-2)


3rd Successive differentiation (up to 2nd order). (L-3)


26th

1st Application of differential calculus in: Rate measures. (L-1)


3rd Application of differential calculus in: Rate measures. (L-2)

4th Test/Application of differential calculus in: Rate measures. (L-3)


27th

1st Application of differential calculus in: Maxima and minima. (L-1)


3rd Application of differential calculus in: Maxima and minima. (L-2)

4th Integration as inverse operation of differentiation i.e. Indefinite Integral with simple examples. (L-1)


28th

1st Indefinite Integral. (L-2)


3rd Indefinite Integral. (L-3)

4th Indefinite Integral. (L-4)


29th

1st Simple standard integrals and related Simple problems. (L-1)


3rd Simple standard integrals and related Simple problems. (L-2)


30th

1st Simple standard integrals and related Simple problems. (L-3)


3rd Integrations by parts and related Simple problems. (L-1)

4th Test/ Integrations by parts and related Simple problems. (L-2)


31st

1st Integrations by parts and related Simple problems. (L-3)


3rd Evaluation of definite integrals with given limits.

4th Evaluation of ∫ 𝑠𝑖𝑛𝑚𝑥 𝑑𝑥

𝜋

20

and ∫ 𝑐𝑜𝑠𝑚𝑥 𝑑𝑥𝜋

20

and related problems.


32nd

1st Evaluation of ∫ 𝑠𝑖𝑛𝑚𝑥 𝑐𝑜𝑠𝑛𝑥 𝑑𝑥

𝜋

20

and related problems.


3rd Applications of integration: for evaluation of area under a curve and axes. (L-1)

4th Applications of integration: for evaluation of area under a curve and axes. (L-2)


33rd

1st Applications of integration: for evaluation of area under a curve and axes. (L-3)


3rd Numerical integration by Trapezoidal Rule existing mathematical models. (L-1)


34th

1st Numerical integration by Trapezoidal Rule existing mathematical models. (L-2)


3rd Numerical integration by Simpson’s 1/3rd existing mathematical models. (L-1)

4th Test/ Numerical integration by Simpson’s 1/3rd existing mathematical models. (L-2)


35th

1st Definition, order, degree and linearity of an ordinary differential equation.


3rd Solution of Ist order and Ist degree differential equation by variable separable method. (L-1)


36th

1st Solution of Ist order and Ist degree differential equation by variable separable method. (L-2)


3rd Measures of Central Tendency: Mean and related problems.

4th Measures of Central Tendency: Median and related problems.


37th

1st Measures of Central Tendency: Mode and related problems.


3rd Measures of Dispersion: Mean deviation from mean. (L-1)


38th

1st Measures of Dispersion: Mean deviation from mean. (L-2)


3rd Measures of Dispersion: Standard deviation. (L-1)

4th Measures of Dispersion: Standard deviation. (L-2)


39th

1st Correlation coefficient and Coefficient of rank correlation.

2nd Test/Statistics revision

Lesson Plan

Name-Guest Faculty (Theory and Practical)

Discipline- Applied Science

Semester – 1st Year

Subject –Applied Physics

Code- 180013

Duration – 33 weeks (August 2018 to May 2019)

Work load (per week):- lectures-02, Tutorial 01 and practicals-02

Week Theory Practical

1st

Lect. day

Topic Practical day

Topic

1st Introduction about physics Physical quantities Units - fundamental and

derived units

1st Introduction about lab

2nd Physical quantities Units - fundamental and derived unitsFPS, CGS and SI units

3rd

Dimensions and dimensional formulae of physical quantities

2nd To find the diameter of solid cylinder using vernier calliper

4th

Tutorial: Doubt session and problem

solving

2nd 1st Dimensional formulae Distance, area, volume, velocity, acceleration, momentum, force etc.

1st Revision & Checked practical note book

2nd Dim. Formula of work, power, energy, surface tension, stress, strain, moment of inertia

3rd

Principle of homogeneity of dimensionsconversion from one system of units to other

2nd Revision & Checked practical note book

4th

Tutorial: Doubt session and problem solving

3rd 1st Limitations of dimensional analysis 1st To find internal diameter and

depth of a beaker using verniercaliper and hence find its volume.

2nd Revision of unit- 1 (Complete) and 1st assignment

3rd

Scalar and vector quantities – examples Addition of Vectors, Triangle and Parallelogram law

2nd To find internal diameter and depth of a beaker using verniercaliper and hence find its volume. 4th


solving

4th 1st Scalar and Vector Product, Definition of Distance , Displacement, Speed, Velocity, Acceleration, Force and Resolution of force


2nd Newton’s laws of motion and

Conservation of linear momentum

3rd

Impulse and its examples and introduction to Circular motion,


4th


5th 1st Angular displacement, angular velocity, angular Acceleration and relation between linear and angular system.

1st To find the diameter of wire using screw gauge.

2nd Centripetal and centrifugal forces

3rd Banking of roads (application of 2nd To find the diameter of wire using

centrifugal force) screw gauge. 4th


6th 1st class test of unit 1 and 2


2nd Work, its units and types

3rd

Energy and its units: Kinetic energy and potential energy, Transformation of energy.


4th

Energy conservation law in case of freely falling body

7th 1st Power (definition,formula and units),

Simple numerical problem on power

1st To determine the thickness of glass

strip using a spherometer 2nd Rotational motion with examples

3rd

Definition of torque and angular momentum and their example

2nd To determine the thickness of glass strip using a spherometer 4th


8th 1st Conservation of angular momentum 1st Revision & Checked practical note book 2nd Moment of inertia and its physical

significance

3rd

Radius of gyration (definition, Derivation and formula).


4th


9th 1st Re-revision of unit 3 and 4.

1st To determine radius of curvature of a given spherical surface by a spherometer. 2nd 2nd class test of unit 3 and 4

3rd

Definition of deforming force restoring

force, elastic body & plastic body and types of stress and strain

2nd To determine radius of curvature

of a given spherical surface by a spherometer.

4th

Hooke’s law, Different types of module of elasticity.

10th 1st Pressure, Pascal’s law 1st Revision & Checked practical note book 2nd Surface tension: definition, its units,

surface tension, effect of temperature on Surface tension

3rd

Viscosity: definition, units and effect of temp.


4th


11th 1st Fluid motion, stream line and turbulent flow.

1st To verify parallelogram law of forces

2nd Revision of 5th unit

3rd

3rd class test 2nd To verify parallelogram law of forces

4th


12th 1st Definition of heat and temperature, Difference between heat and

temperature


2nd Principles of measurement of temperature, Modes of transfer of heat

3rd

Conduction, convection and radiationProperties of heat radiation


4th


solving

13th 1st Different scales of temperature and their relationship

1st To determine the atmospheric pressure at a place using Fortin’s Barometer

2nd Principles of measurement of temperature.

3rd

Revision of 6th unit 2nd To determine the atmospheric

pressure at a place using Fortin’s

4th


Barometer

14th 1st 4th Class test 1st Revision & Checked practical

note book 2nd Revision of 1st and 2nd unit

3rd

Class test 2nd Revision & Checked practical note book

4th

Revision of 3rd and 4th unit

15th 1st Class test 1st Re revision of experiments

2nd Re revision of 5 units

3rd

Re revision of 6 units 2nd Re revision of experiments

4th Tutorial: Doubt session and problem solving

16th

1st Wave motion: Introduction to periodic motion, Transverse and longitudinal

wave motion with examples

1st To determine force constant of spring using Hooke’s law

2nd Term used in S.H.M like displacement, amplitude, time period, frequency, wavelength

1st

To determine force constant of spring using Hooke’s law

3rd

Wave velocity, relationship among

wave velocity, frequency and wave length

4th


2nd

To determine force constant of spring using Hooke’s law

17th 1st Simple Harmonic Motion (SHM): definition and examples

1st

Revision & Checking of practical note books

2nd Cantilever: definition and formula of time period

3rd

Free, forced and resonant vibrations

4th


2nd


18th 1st Acoustics of buildings – reverberation, reverberation time

1st

Measuring room temperature with the help of thermometer and its conversion in different scale.

2nd Echo, noise, coefficient of absorption of sound

3rd

Methods to control reverberation time

4th


2nd

Measuring room temperature with the help of thermometer and its conversion in different scale.

19th 1st Ultrasonic (production methods)Applications to cold welding, drilling and SONAR

1st


2nd Optics: Reflection, refraction of lightand refractive index

3rd

Lens formula(no derivation), power of

lens and related numerical problems

4th


2nd


20th

1st Total internal reflection (TIR), critical angle and conditions for total internal reflection

1st

To find the time period of a simple pendulum

2nd Applications of TIR

3rd

Microscope and Telescope (definition)Uses of microscope and telescope

4th class test 2nd To find the time period of a simple

pendulum

21st 1st Electrostatics: Coulomb’s law and

electric charge and unit charge

2nd Electric field and Electric lines of force (definition and properties)

1st


3rd

Electric Flux and Electric intensity due to a point charge

4th


2nd


22nd 1st Electric potential (definition and formula)

1st

To determine and verify the time period of Cantilever

2nd Gauss’ law (Statement and derivation)Series and parallel combination of capacitors

3rd

Capacitor and Capacitance (with formula and units)Numerical problems

4th


solving

2nd

To determine and verify the time

period of Cantilever

23rd 1st Revision of 7th and 8th units 1st


2nd Current Electricity:Electric current and its units

3rd

Direct and alternating current

4th


2nd


24th 1st Class test 1st

To verify ohm’s laws by plotting a graph between voltage and current

2nd Ohm’s law and resistance

3rd

Specific resistance (definition and units) and Conductance

4th

Tutorial: Doubt session and problem solving,

2nd

To verify ohm’s laws by plotting a graph between voltage and current Kirchhoff’s laws (statement and

formula)

25th 1st Series and parallel combination of resistancesNumerical problems

1st

Revision & Checking of practical note books 2nd Electric power,Electric energy and its

units

3rd

Heating effect of current Kirchhoff’s law

4th


2nd

To verify laws of resistances in series combination.

To verify laws of resistance in parallel combination

26th 1st Revision of 9thand 10thunits

1st

To find resistance of galvanometer by half deflection method

2nd class test

3rd

Electromagnetism:Introduction to magnetism

4th


solving

27th 1st Magnetic field and magnetic intensity 2nd To verify laws of reflection of light using mirror.

2nd Magnetic lines of force, magnetic flux andtheir units

3rd Types of magnetic materials, Dia, para

and ferromagnetic materials with examples

4th


solving

28th 1st Semiconductor physics:Definition of energy level and Energy bands and types of materials (insulator, semiconductor, conductor)

1st


2nd Intrinsic and extrinsic semiconductors

3rd

p-n junction diode and its V-I characteristics

4th


2nd

To verify laws of refraction using glass slab.

29th 1st Diode as half wave rectifier Diode as full wave rectifier

1st

Revision & Checking of practical note books 2nd Semiconductor transistor: pnp and npn

(Introduction only)

3rd

class test Applications of lasers

4th


2nd

To find the focal length of a concave lens, using a convex lens

30th 1st Modern Physics:Lasers: full form, characteristics

1st

To study colour coding scheme of resistance. 2nd Introduction to nanotechnology

3rd

Definition of nanomaterial’s with examples, Applications of nanotechnology

4th

Tutorial: Doubt session and problem solvingRevision of 6th and 7th units

2nd Revision of experiments

31th 1st Fiber optics: Introduction to optical fibers(definition and parts)

1st

Revision of experiments

2nd Applications of optical fibers in different fields

3rd

Class test

4th


2nd Revision & Checking of practical note books

32nd 1st Revision of 11th unit 1st

Revision of experiments 2nd Revision of 12th unit

3rd


solving

4th

Class Test 2nd Revision & Checking of practical note books

33rd 1st Revision of 13th unit 1st

Revision of experiments 2nd Revision of 13th unit

3rd


4th

Class Test 2nd Revision & Checking of practical note books

Documents

Name : Guest Faculty Discipline : Common for all branches ...gpnanakpur.ac.in/wp-content/uploads/2018/10/Lesson-Plan-Applied-Science.pdf · Pauli’s exclusion principle. 1 To prepare