SYLLABUS

Course Title CHEMISTRY-III

Course Code BSC301

Course Credit

Lecture : 04

Practical :03

Tutorial : 00

Total : 07

Detailed Syllabus:

Sr.

No Name of chapter & Details

Session

Allotted

SECTION-I

1

Wave Mechanics.

Introduction of wave Mechanics, Postulates of wave Mechanics, Interpretation of

ψ, ψ2, ψψ*, Derivation of Schrodinger’s equation in three dimensions (Cartesian

Coordination), Eigen function & Eigen value, Orthogonal & Normalised wave

function and problems on it.

28

2

Chemistry of Lanthanide Elements. Introduction, Occurrence & Important ores, Isolation of Lanthanide Elements from

ore, Individual Isolation by ( I ) Ion Exchange Method ( II ) Solvent Extraction

& their Stability,Magnetic properties, Coluor ( spectral ) properties, Lanthanide

Contraction, Misch Metal, Uses of Lanthanides & their Compounds.

3

Carbonyl Compounds (Aldehydes and Ketones)

Introduction and Nomenclature,Preparation of Carbonyl Compounds,Synthesis of

Aldehydes ,Synthesis of Ketones, Structure and Physical Properties, Reactivity and

applications of carbonyl compounds, Understanding of reaction mechanism

,Study of important name reactions involving carbonyl compounds, Active

methylene compounds: Keto-enol tautomerism, Identification Tests for aldehydes

and ketones

4

Carboxylic Acid Compounds

Introduction and Nomenclature, Nomenclature of mono and dicarboxylic acids

,Preparation of monocarboxylic acid compounds, Physical Properties of mono

carboxylic acid compounds,Acidity of Carboxylic acids,Effect of other functional

groups on Acidity,activity and applications of carboxylic acids ,Esterification of

Carboxylic Acids,Mechanism of Esterification ,Trans-Esterification,Introduction

of Amino acids

SECTION-II

5

Basic of some physical properties Introduction ,Surface tension and parachor ( Drop method ) & its method for

determination ,Viscosity and its method for determination ,Refractive index and

its method for determination ,Theory of Optical activity , Dipole moment and its

method for determination ,Application and numerical, Examples

28

6

Phase Rule and related theory of solutions Statement and meaning of the term – Phase, Components, Degree of freedom ,

Explanation of phase equilibrium of one component system – Water & Sulphur

system ,Phase equilibria of two component system : Solid-liquid mixture –

desilverization of lead (Pb-Ag) , Solid solution – compound formation with

congruent melting point (Mg-Zn) , System of CuSO4.5H

2O ,Theory of liquid-

liquid mixture ,Ideal liquid mixture ,Azeotropes , Lower and upper consolute

temperature , Steam distillation,Short explanation of Raoult’s law, Henry’s law &

Nernst’s distribution law ,Examples 7

Fuels Introduction ,Calorific value ,Determination of calorific value- bomb calorimeter

,Characteristic of an idea fuel ,Classification of fuels ,Natural solid fuels-wood,

peat, lignite and coal ,Types of coal ,Artificial solid Fuels Charcoal, cock, and

briquettes ,High and low Carbonization of Coal ,natural gaseous fuels – natural gas

and biogas ,Artificial gaseous fuels – coal gas, water gas, oil gas, Produces gas

,Advantages and dis advantages of solid liquid and gaseous fuels 8

Synthetic drugs and dyes

Drugs - Introduction ,Classification ,Synthesis and uses of sulpha trizole (

cibazole) , phenacetin, paludrine, chloramphenicol, veronal

Dyes – Introduction ,Classification ,Synthesis and uses of methylorange,

Diamomblack -f malachite green, Indigotin ,Congored, Crystal violet,

Anthraquinone

List of Practicals (6 Hours/Week)

1 1 Organic Qualitative Analysis [10 marks]

[Minimum six bifunctional Organic Compounds should be given] Identification of an organic compound through the functional group analysis and determination of

melting point or boiling point

(Bifunctional organic compounds)

2 Organic Volumetric Estimation: [10 marks] [Standard solution to be given]

1. To determine the amount of –CONH2in the given Acetamide solution

2. To determine the amount of Phenol / m-cresol in the given solution

3. To determine the amount of Aniline / p-toludine in the given solution

4. To determine the amount of Ester in the given solution

5. To determine the amount of Glucose in the given solution

6. To determine the amount of –COOH in the given carboxylic acid

3 Gravimetric Estimation (Any Three) [15 marks]

1. Estimation of Ba+2 as BaSO4

2. Estimation of Fe+2 as Fe2O

3

3. Estimation of Ni+2 as Ni(DMG)2

4. Estimation of Al+2 as Al2O

3

Instructional Method and Pedagogy:

1. Lectures will be conducted with the aid of multi-media projector, black board, OHP etc.

2. Assignments based on course content will be given to the students at the end of each

unit/topic and will be evaluated at regular interval.

3. Surprise tests/Quizzes/Tutorials will be conducted.

4. The course includes a laboratory, where students have an opportunity to build an

appreciation for the concepts being taught in lectures.

5. Minimum ten experiments shall be there in the laboratory related to course contents.

Students Learning Outcomes:

On the successful completion of the course, students will be able to:

Understand the concepts and applications of periodic properties, bonding & shapes of

molecules, first transition series elements, reaction of alkyl halides and cycloalkanes,

Thermodynamics, and adsorption phenomena.

Apply the concepts of acid, base, pH, and modes of concentration in various tests of simple

chemicals.]

Perform various chemical tests for simple organic & inorganic chemicals.

Reference Books:

1. Concise Inorganic Chemistry by J.D.Lee, wiley india, 5th edition 2013

2. Textbook of Inorganic Chemistry by Soni P.L., Sultan Chand & Sons. 20th edition

2013

3. Advanced Inorganic Chemistry (3rd Edition) - FA.Cotton and G. Wikinson, Wiley Eastern

Pvt.Ltd 6th edition, 2009

4. Advanced Inorganic Chemistry (Volume II) by Prakash Satya, S.Chand & Company Ltd.

New Delhi, 2006

5. Organic reaction mechanisms by V.K. Ahluwaliya, Narosa publishing house 4th edition.

2011

6. Advanced Organic Chemistry by Arun Bahl and B.S.Bahl, S.Chand & Company Ltd. New

Delhi, 18th edition 2010.

7. Organic Chemistry by Morrison and Boyd, Pearson Education Delhi 7h edition 2011

8. Solomons & Fryhle`s Organic Chemistry by Solomon Graham T.W. and Fryhle

Craig B., Wiley India (P) Ltd. New Delhi. 10th edition.

9. A Textbook of Physical Chemistry by P.L.Soni, S.Chand & Company Ltd. New Delhi,

22nd edition 2005.

10. Essentials of Physical Chemistry by Bahl B. S. and Tuli G. D., S.Chand & Company Ltd.

New Delhi.

11. Elements of Physical Chemistry by Atkins Peter and Paula Julio, Oxford University Press

New Delhi, 6th edition.

12. Analytical Chemistry, Chatwal G. R. and Arora M. Himalaya Publishing House Pvt. Ltd.

Mumbai 1st

13. Analytical Chemistry: Theory and Practice. By Verma R. M., CBS Publishers &

Distributors New Delhi 3rd edition.

14. Vogel`s Textbook of Quantitative Chemical Analysis by Mendham J. and Denney R. C.

Pearson Education Ltd. New Delhi 6th edition.

15. Wastewater Treatment Concepts and Design Approach by Karia G.L. and Christian R.A.

2nd edition

SYLLABUS

Course Title MICROBIOLOGY-III

Course Code BSM 301

Course Credit

Lecture : 4

Tutorial : 0

Practical : 3

Total : 7

Detailed Syllabus:

Sr.

No Name of chapter & Details

Session

Allotted

SECTION-I

1

Introduction: Microbial Diversity

Introduction: Microbial evolution and diversity.

Microbial Taxonomy: Introduction and Overview; Classification Systems –

Taxonomic ranks of microorganisms, Major characteristics used in taxonomy,

Phylogeny – Survey of prokaryotic phylogeny and phylogenetic groups of

eukaryotes.

28 2

Prokaryotic Diversity

Introduction to Achaea and Eubacteria;

Gram Negative bacteria: General features; Aerobic/Microaerophilic motile, helical

vibroid, Non-motile curved bacteria, Aerobic/Microaerophilic rods and cocci,

Facultative anaerobes – rods, curved and helical bacteria, Dissimilatory Sulfate

reducers, Anaerobic cocci, Phototrophic bacteria.

Gram Positive bacteria: General features; Endospore forming rods and cocci,

Asporogenous rods, Mycobacteria and Actinomycetes.

3

Diversity Of Some Unusual Prokaryotes :

General features of bacteria with unusual morphology: Rickettisia and Chlamydia,

Budding and appendaged bacteria, Sheathed bacteria, Bacteria with gliding

motility, Mycoplasma.

General features of bacteria with extreme environments: Thermophiles,

Halophiles, Acidophiles, Barophiles, Methanogens.

SECTION-II

4

Eukaryotic Diversity:

Fungi: General Characteristics; Definition, Occurrence, Structure, Reproduction,

Classification and Introduction to major divisions of fungi, Economic Importance

of fungi.

Algae: General Characteristics; Definition, Occurrence, Ultra Structure,

Reproduction, Economic Importance of Algae,

Protozoa: General Characteristics; Definition, Occurrence, Ultra Structure,

Reproduction, Economic Importance of Protozoa.

28

5

Akaryotic Diversity (Viruses):

Introduction and general characteristics: Definition, Structure, Classification,

Cultivation and Enumeration of Virus.

Bacterial Viruses: Classification, Lytic life cycle (T4 Phage), lysogenic life cycle

(λ Phage and µ Phage), RNA Phage (MS13).

Animal Viruses: Classification, Replication, Cytocidal effects, Viruses and

Cancer, Vibroids.

Plant Viruses: Classification, Structure and Reproduction of TMV, Economic

importance, Prions.

List of Practicals (6 Hours/Week)

1. Isolation of gram negative bacteria from given sample

2. Identification of gram negative bacteria from given pure culture using biochemical media

(E.coli, Entrobacter aerogens, Proteus, Salmonella)

3. Isolation of gram negative bacteria from given sample

4. Identification of gram negative bacteria from given pure culture using biochemical media

(Bacillus megaterium, Bacillus subtilis, Staphylococcus aureus, Streptococcus )

5. Identification of Fungi on the basis of Morphological Characteristics.

6. Cultivation of yeast from different natural samples and its morphological characterization

using microscopic observation

7. Microscopic observation of different algae from given samples

8. Isolation and cultivation of bacteriophage of E.coli from the given sewage sample

9. Isolation and microscopic observation of Actenomycetes from the given sample

(Demonstration)

10. Isolation and microscopic observation of Halophiles from the given sample (Demonstration)

11. Isolation and microscopic observation of Thermophiles from the given sample

(Demonstration)

Instructional Method and Pedagogy:

1. Lectures will be conducted with the aid of multi-media projector, black board, Audio/Video

clips etc relevant to the content.

2. Assignments based on course content will be given to the students at the end of each

unit/topic and will be evaluated at regular interval.

3. Surprise tests/Quizzes/Tutorials will be conducted.

4. The course includes a laboratory, where students have an opportunity to build an

appreciation for the concepts being taught in lectures.

5. Minimum ten experiments shall be there in the laboratory related to course contents.

Students Learning Outcomes:

At the end of the course the students will be able to:

Introduce concept of molecular phylogeny and microbial diversity.

Discuss non-cultivable microorganisms, archaea & extremophile. Their adaptation to

extremity; halophily, thermophily, acidophily and the applications of the products from

extremophile.

Introduce detail account of different type of diversity eg, akaryotic diversity, eukaryotic

diversity, Prokaryotic diversity, etc.

Reference Books:

1. Willey, J. M., Sherwood, L., Woolverton, C. J., & Prescott, L. M. (2008). Prescott, Harley,

and Klein's microbiology. New York: McGraw-Hill Higher Education.

2. Atlas, R. M. (2015). Principles of Microbiology. Mcgrawhill Exclusive.

3. Modi, H.A. Elementary Microbiology - Vol -I, Akta Prakashan, Nadiyad.

4. Modi, H.A. Elementary Microbiology - Vol -II, Akta Prakashan, Nadiyad

5. Dubey, R. C. & Maheshwari, D. K. (2014). A Text Book of Microbiology, S. Chand &

Company Ltd.

6. Tortora, G. J., Funke, B. R., & Case, C.L. (2007) Microbiology-An Introduction. Pearson.

7. Powar & Daginawala, General Microbiology Vol-II. Himalaya Publishing House, Mumbai.

8. Stainer, R.Y., Iingraham, J.L., Wheelis, M.L., Painter, R.K. (1992). General Microbiology.

MacMillan Press Ltd., London.

9. Pelczar, M. J., Chan, E. C. S., Krieg, N. R. (2005). Microbiology. Tata McGraw Hill

Publication Pvt. Ltd., New Delhi.

10. Salle, S.J., Fundamental Principals of Bacteriology, Tata McGraw Hill Publication Co. Ltd.

New Delhi.

11. Frobisher, Hinsdill, Crabtree & Goodherat (1974). Fundamentals of Microbiology. W.B

Saunders Co.

12. Purohit, S. S., Microbiology-Fundamentals and Applications. Agrobios Publications, Delhi.

13. Mani, A., Selwaraj, A. M., Narayanan L. M., and Arumngam, N., Microbiology, Saras

Publication, Delhi.

14. Kaur, H., Encyclopedia of Microbiology, Anmol Publication, Delhi.

15. Patel, R. J., Patel K. R. (2015). Experimental Microbiology, Vol-I, Aditya Publications,

Ahmedabad, India.

SYLLABUS

Course Title BOTANY-III

Course Code BSB311

Course Credit

Lecture : 04

Tutorial : 00

Practical : 03

Total : 07

Detailed Syllabus:

Sr.

No Name of chapter & Details

Session

Allotted

SECTION-I

1

ANATOMY

Classification and theories of root and shoot apex; Cambium: types and

functions; Types of Vascular Bundles; Stellar evolution and Types of Stele;

Normal and Anomalous Secondary Growth; Nodal anatomy; Leaf fall and wound

healing

28 2

EMBRYOLOGY

Structure and development of microsporangium and male gametophyte; Structure

and development of megasporangium and female gametophyte; Types of embryo

sac: Monosporic, Bisporic, Tetrasporic (Fritillaria type); Structure and types of

plant ovule; Pollination: Definition, Types and Agents; Pollination in Salvia and

Calotropis; Fertilization and Dicot and Monocot Embryo Development.

3

SYSTEMATIC BOTANY

Principles of taxonomy; ICBN: Principles and rules; Typification; Priority;

Herbarium techniques: Plant collection and preparation of Herbarium; Some

important Herbaria of India; Role of Herbaria and Botanical Gardens;

Chemotaxonomy and numerical taxonomy

SECTION-II

4

PLANT RESOURCE UTILIZATION AND CONSERVATION

Biodiversity; Medicinal plants; Pulp and Paper; Plants used as Avenue trees;

General account of ICAR, CSIR, BSI, NBPGR and DBT

28

5

ECOLOGY

Edaphic factors: Composition of soil; Soil formation- Origin and development of

soil; Soil type; Soil moisture; Soil profile; Soil erosion; Soil conservation; Effect

of Water, Light and Temperature on soil; Biological clocks; Remote sensing;

Ecological adaptation in Hydrophytes and Xerophytes

List of Practicals (6 Hours/Week)

1. To study shoot apex through permanent slides as well as by mounting of hydrilla stem.

2. To study root apex through permanent slides as well as by mounting of onion root.

3. To study cambium through different plant materials.

4. Permanent slides of cambium and cork cambium.

5. To study different types of vascular bundles.

6. To study different types of stele through permanent slides.

7. To Study secondary growth in Sunflower stem, root and salvadora stem through permanent

slides as well as temporary slide preparation.

8. Double stain permanent preparation of Salvadora stem secondary growth.

9. To study nodal anatomy

10. Water holding capacity of soil.

11. To determine the soil pH

12. Test for the presence of carbonate, nitrate and deficiency of replaceable bases.

13. Test for the presence of inorganic salts in the soil samples.

14. Pollen germination

15. Permanent slide of T.S. of Anther, Pollen grain on stigma

16. To study the different types of ovules through permanent slides.

17. Permanent slide of female gametophyte.

18. Exposition and mountings of Endosperm haustoria: Cucumis Seeds.

19. To study seed germination in different media.

20. Herbarium preparation

21. To study medicinally important plants

22. Prepare the report on three domestic herbal medicines utilized in your regions.

23. Vernacular name, scientific name, family

Classification

Introduction

Chemical composition

Applications

Instructional Method and Pedagogy:

1. Lectures will be conducted with the aid of multi-media projector, black board, OHP etc.

2. Assignments based on course content will be given to the students at the end of each

unit/topic and will be evaluated at regular interval.

3. Surprise tests/Quizzes/Tutorials will be conducted.

4. The course includes a laboratory, where students have an opportunity to build an appreciation

for the concepts being taught in lectures.

5. Minimum ten experiments shall be there in the laboratory related to course contents.

LIST OF PRACTICAL (6 Hours/Week)

1. Isolation of gram negative bacteria from given sample

2. Identification of gram negative bacteria from given pure culture using biochemical media (E.coli,

Entrobacter aerogens, Proteus, Salmonella)

3. Isolation of gram negative bacteria from given sample

4. Identification of gram negative bacteria from given pure culture using biochemical media (Bacillus

megaterium, Bacillus subtilis, Staphylococcus aureus, Streptococcus )

5. Identification of Fungi on the basis of Morphological Characteristics.

6. Cultivation of yeast from different natural samples and its morphological characterization using

microscopic observation

7. Microscopic observation of different algae from given samples

8. Isolation and cultivation of bacteriophage of E.coli from the given sewage sample

9. Isolation and microscopic observation of Actenomycetes from the given sample (Demonstration)

10. solation and microscopic observation of Halophiles from the given sample (Demonstration)

11. Isolation and microscopic observation of Thermophiles from the given sample (Demonstration)

Students Learning Outcomes:

After Successful completion of the above course, students will be able to:

Recognize role of tissues in plant growth

Learn the composition of soil

Understand the system of plant nomenclature

Observe the various events of plant fertilization

During lab hours, students will experience the benefits of team work which will foster their

flexibility and responsiveness, especially the ability to respond to change.

Text books:

Text book of Botany ,B. P. Pandey,edition,2011,s.chand publications

Introductory Botany, Bendre-Pande,2008,rastogi publications

College Botany,Das, Dutta and Ganguli,2011,new central book agency

Text book of Botany ,B. P. Pandey; Mishra

The practical botany ,B. P. Pandey,2011, s.chand publication

College Botany Vol I ,Gangulee, Das, and Dutta,2011, new central ,book agency

Reference Books:

1. The Embryology of Angiosperm, Bhojwani & Bhatnagar, 2014,vikas publishing house.

2. Plant anatomy; 4th edition, Fahn, A edition 4, pergamon press.

3. Plant Anatomy, Tayal M.S.

4. Ecology and Environment, Sharma, P.D.

5. Plant Physiology , V. Verma,2007, Ane Books India

Additional Resources:

1. https://www.youtube.com/watch?v=NRF70bKapgU

2. https://youtu.be/QR-rXiJu05w

3. https://youtu.be/YZGs_s4JkEs

4. https://en.wikipedia.org/wiki/Fertilisation

5. www.biologydiscussion.com › ... › Stages › Stages of Embryology in Plants

SYLLABUS

Course Title MATHEMETICS-III

Course Code BMT301

Course Credit

Lecture : 4

Practical : 3

Tutorial : 0

Total : 7

Detailed Syllabus:

Sr.

No Name of chapter & Details

Session

Allotted

SECTION-I

1

Graph Theory:

Basic concept of graph theory: Definition of Graph, vertex set, edge set, order of a

graph, size of a graph, types of graph, multiple edges, simple and multiple graphs,

degree of vertex, pendent vertex, isolated vertex, regular graph, complete graph,

directed edge, directed graph, undirected graph, mixed graph, walk, trail, path,

simple path, cycle, connected-disconnected graph, unicycle graph, sub graph,

components of graph, Adjacency matrix, path matrix, incidence matrix, tree,

directed tree, forest.

28

2

Set Theory:

Relation: reflexive, symmetric, anti-symmetric, transitive, equivalence,

POSET(partial ordered set).

Hasse diagram, maximal-minimal elements, greatest-least elements, lower-upper

bound, greatest lower bound, least upper bound.

3

Boolean Algebra and Lattices:

Lattices, Lattices as Poset, Direct product, Homomorphism, Complete Lattices,

Bounds of Lattices, Distributive Lattices, Boolean Algebra, Sub Boolean Algebra,

Direct product

SECTION-II

4

Solution of System of Non Linear Algebraic Equation :

Roots of Non Linear Equations

Bisection, False Position, Secant Method, Newton Raphson,

Successive Approximation, Birge Vieta Method.

28 5

Interpolation:

Introduction, Newton’s Forward, Newton’s Backward, Gauss’s Forward, Gauss’s

Backward, Stirling’s Formula, Bessel’s Formula, Laplace-Everett Formula,

Newton’s Divides Differences and Lagrange’s Formula.

6 Numerical integration:

Composite rules, Trapezoidal rule, error estimation in trapezoidal rule, Simpson’s

1/3 rule, Simpson’s 3/8 rule, Error estimation in Simpson’s 1/3 rule, Error

estimation in Simpson’s 3/8 rule, Gaussian integration.

List of Practicals: (6 Hours/Week)

1. Solve seven bridge problem by graph theory.

2. Solve matrix representation by graph theory.

3. Draw Hasse diagram & discuss all element evaluation.

4. To solve examples of Posset & Lattices.

5. Write types of Lattices.

6. To solve non-linear equations by using bisection, false position and secant method.

7. To solve non-linear equations by using N-R method, successive approximation method and

birge vieta method. .

8. To solve interpolating values by interpolation methods for basic problems.

9. To solve interpolating values by interpolation methods for real life problems.

10. To solve numerical integral methods for basic problems.

11. To solve numerical integral methods for real life problems.

Instructional Method and Pedagogy:

1. Lectures will be conducted with the aid of multi-media projector, black board, Audio/Video

clips etc. relevant to the content.

2. Assignments based on course content will be given to the students at the end of each unit/topic

and will be evaluated at regular interval.

3. Surprise tests/Quizzes/Tutorials will be conducted.

4. The course includes a laboratory, where students have an opportunity to build an appreciation

for the concepts being taught in lectures.

5. Minimum ten practical’s shall be there in the tutorial related to course contents.

Students Learning Outcomes:

At the end of the course the students will be able to:

Understand different concept of graph theory and able to relate them with real life problems.

Solve chemical & real life problems numerically.

Choose proper numerical method for particular & specific problem.

Realize the importance of approximate solution of those problems which has not analytical

solution.

Reference Books:

1. Numerical Methods by V. Rajaraman,, Prentice-Hall Pvt. Ltd., 3rd Edition.

2. Applied Numerical Analysis by C. F. Gerald and P. O. Wheatley, Pearson Education Asia,

New Delhi, 7th Edition.

3. Numerical Methods for Engineering by Steven C. Chapra and Raymond P. Canale, The

McGraw-Hill, 7th Edition.

4. Elementary Numerical Analysis by Atkinson and Han, Wiley India, 2nd Edition.

5. Graph Theory with Applications to Engineering and Computer Science by Narsingh Deo.

SYLLABUS

Course Title PHYSICS-III

Course Code BPH 301

Course Credit

Lecture : 4

Practical : 3

Total : 7

Detailed Syllabus:

Sr.

No Name of chapter & Details

Session

Allotted

SECTION-I

1

Properties of Matter:

Bending of Beam, Bending Moment of a Beam, Cantilever loaded at the free end,

Cantilever supported at its ends, loaded in the middle, Viscosity and coefficient

of viscosity, Streamline and Turbulent flow, Reynold’s number, Poiseulle’s

Equation for the flow of liquid through a tube, Volume of liquid flowing out,

Stoke’s law.

28

2

Thermodynamics:

Work done of a gas at constant pressure, Change in internal energy, Work done

by isothermal expansion, First law of Thermodynamics, Second law of

Thermodynamics, Thermodynamic Process (only definition), Heat Engine,

Thermal efficiency of Heat Engine, Carnot Theorem, Concept of entropy,

General Expression for the change of Entropy of a Perfect gas, Isothermal and

Adiabatic process, Change of entropy in Reversible and Irreversible process,

Entropy and Disorder - Third law of Thermodynamics.

3

Radiation Heat:

Properties of radiant heat, Emission and absorption of Radiation, Absorbing

power, Reflecting power, Transmitting power, Radiating, Black Body, Stefan’s

Law, Wien’s Law, Energy distribution in a Black Body, Rayleigh-Jeans Law,

Planck’s Law.

4

Electric Field and Potential:

Electric field intensity, Electric Flux, Electric Flux density, Gauss Law, Proof of

Gauss Law, Field around a charged straight conductor, Electric field around a

sphere, Electric Potential, Potential gradient and Electric Intensity, Potential of a

charged sphere, Potential and Electric field due to Electric dipole, Potential

energy of a Capacitor, Capacity of a condenser (Capacitor), Capacity of a Parallel

Plate Condenser.

SECTION-II

5

Magnetism:

Magnetic field and Magnetic Induction, Hall Effect, Hall Voltage and Hall

coefficient, Hall Mobility, Magnetic flux, Magnetic field around current carrying

conductor, Magnetic field due to solenoid, Magnetic susceptibility and

permeability, Para, Dia, Ferro-magnetic substances, Hysterisis loop, Energy loss

due to Hysterisis, Self Induction, Self Inductance of a solenoid, Mutual

Inductance, Mutual Inductance of two solenoids.

28

6

Relativity:

Galilean Transformation, Ether Hypothesis, Michelson-Morley Experiment,

Special theory of Relativity, Lorentz Transformation, Length contraction, Time

dilation, Relativity of simultaneity, Addition of velocities, Variation of mass with

velocity, Mass-Energy relation.

7

Transistor Biasing:

Transistor biasing, Inherent variations of Transistor Parameters, Stabilization,

Stability Factor, Methods of Transistor Biasing, Base Resistor method, Biasing

with feedback resistor, Voltage divider bias method, Design of transistor biasing

circuits.

8

Single stage Transistor Amplifier:

Single stage Transistor amplifier, How a transistor amplifier works, Practical

Circuit of Transistor amplifier, Phase reversal, Load line analysis, Voltage gain,

Classification of Amplifier, Frequency response & Bandwidth.

List of Practicals: (6 Hours/Week)

1. Determine the Young’s modulus by Cantilever.

2. Determine the Young’s modulus by bending of beam.

3. Study of one dimensional elastic collision using two spheres.

4. Determine the viscosity of liquid by Searl’s co-axial cylinder.

5. Determine the thermal conductivity of cardboard by Lee’s Method.

6. Temperature of filament and Heat radiation & verification of Stefan’s Law.

7. Find the co-efficient of viscosity of water by its flow through capillary tube of uniform bore.

8. Determine the Moment of Inertia of a Fly wheel.

9. Determine the figure of merit & volt sensitivity of ballistic galvanometer.

10. Measurement of High resistances by leakage.

11. Comparison of Capacitance by De Sauty’s method

12. Measurement of specific resistance of electrolyte by Kohlrauch’s Method

13. Study of magnetic field of Solenoid.

14. Determine the self induction by Maxwell Bridge.

15. Frequency response & Bandwidth of R.C.Coupled Amplifier.

16. Experimental checkups by Multimeter, (Power Supply, Resistor, Transistor,Diode, Capacitor).

Instructional Method and Pedagogy:

Lectures will be conducted with the aid of multi-media projector, black board, OHP etc.

Assignments based on course content will be given to the students at the end of each unit/topic

and will be evaluated at regular interval.

Surprise tests/Quizzes/Tutorials will be conducted.

The course includes a laboratory, where students have an opportunity to build an appreciation

for the concepts being taught in lectures.

Approximately ten experiments shall be there in the laboratory related to course contents.

Students Learning Outcomes:

At the end of the course the students will be able to:

Understand basic concepts of bending moment, cantilever, viscosity, flow of liquid,

radiation, electric field, magnetism, relativity and transistors

Apply the concept of thermodynamics, electric field, transistor biasing and magnetism.

Perform the practical of cantilever, heat transfer, electric field and magnetic hysteresis.

Conclude the effect of electric field and magnetic field

Reference Books:

Engineering Physics by R.K.Gaur, S.L.Gupta, Dhanpat Rai Publications.

Principles of Electronics by V.K.Mehta & Rohit Mehta., S.Chand Company.

Modern Physics by R.Murugeshan & Kiruthiga Sivaprasath, S.Chand Comp.

Waves and Oscillations by Brij Lal and Subrahmaniam. S.Chand comp.

SYLLABUS

Course Title ENGLISH AS A SECOND LANGUAGE - LEVEL-II

Course Code ESL201

Course Credit

Lecture : 03

Tutorial : 00

Practical : 00

Total : 03

Detailed Syllabus:

Sr.

No Name of chapter & Details

Unit

No. Context Topics Learning objectives

Session

Allotted

SECTION-I

1 Social FEEL THE

FORMS….

Students will be able to

study and fill up several

types of forms they come

across in their daily life.

22

2 Social VOCAB HOUSIE

Students will be able to

enhance their language by

learning various

vocabulary related to

family & relations,

seasons, food & culture,

restaurants and its type,

shopping, festivals and

occasions.

3 Social LISTEN & LEARN

Students will listen audios

of recorded tapes,

telephonic conversation,

descriptive audios etc. to

pick up foreign accent by

identifying the phonemes

of certain letters like 't',

'k','p' etc.

4 Academic

POLISH YOUR

PUNCTUATION

Students will be able to

understand the importance

of punctuation and use it

appropriately in the text

5 Academic READ TO

DESCRIBE

Students will be able to

read and understand a

variety of descriptive text

on person, place, situation

and instance.

SECTION-II

6 Academic TELL ME ABOUT

Students will learn to

write description of a

place (native, city,

college). Also they will

learn to describe their

friend's personality, any

instance or situation

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7 Professional

WATCH YOUR

WORDS & MIND

YOUR MANNERS

Students will be able

listen telephonic

conversations and identify

the phrases used to

express apology,

permission, request,

agreeing, disagreeing,

offering etc.

8 Professional BAY OF SURVEY

Students will learn to draft

the appropriate questions

for a questionnaire

keeping the purpose,

audience and the topic of

the survey and compile

the data and finally

present it through data

representation charts.

9 Professional LET'S LEARN TO

DOCUMENT

Students will be able to

write a report based on the

data compiled using

appropriate format and

tone. Also, they will be

able to write various types

of letters like complain

letters, letters on

agreeing/disagreeing or

offering help etc.

Students Learning Outcomes:

At end of the course, students will:

Understand variety of academic, social and professional conversations.

Speak on a variety of topics in academic, social and professional contexts.

Read and understand language in academic, social and professional contexts.

Write and express ideas in routine academic, social and professional contexts.