Department of CHEMISTRY

Syllabus for
Bachelor of Science (Physics, Chemistry, Mathematics)
Academic Year  (2021)

 
1 Semester - 2021 - Batch
Course Code
Course
Type
Hours Per
Week
Credits
Marks
AEN121 ADDITIONAL ENGLISH - 3 3 100
CHE131 CHEMISTRY - I BASIC CHEMISTRY - 4 4 100
CHE151 CHEMISTRY PRACTICALS - I - 2 2 50
ENG121 ENGLISH - I - 3 2 100
FRN121 FRENCH - 3 3 100
HIN121 HINDI - 3 3 100
KAN121 KANNADA - 3 03 100
MAT131 DIFFERENTIAL CALCULUS - 4 4 100
MAT151 INTRODUCTION TO PYTHON PROGRAMMING-I - 2 2 50
PHY131 MECHANICS - 4 04 100
PHY151 MECHANICS LAB - 2 02 50
SAN121 SANSKRIT - 3 3 100
TAM121 TAMIL - 3 3 100
2 Semester - 2021 - Batch
Course Code
Course
Type
Hours Per
Week
Credits
Marks
AEN221 ADDITIONAL ENGLISH - 3 3 100
CHE231 CHEMISTRY II-ORGANIC AND PHYSICAL - 4 4 100
CHE251 CHEMISTRY PRACTICALS - II - 2 2 50
ENG221 ENGLISH - II - 3 2 100
FRN221 FRENCH - 3 3 100
HIN221 HINDI - 3 3 100
KAN221 KANNADA - 3 03 100
MAT231 DIFFERENTIAL EQUATIONS - 4 4 100
MAT251 INTRODUCTION TO PYTHON PROGRAMMING-II - 2 2 50
PHY231 ELECTRICITY AND MAGNETISM - 4 04 100
PHY251 ELECTRICITY AND MAGNETISM LAB - 2 02 50
SAN221 SANSKRIT - 3 3 100
TAM221 TAMIL - 3 3 100
3 Semester - 2020 - Batch
Course Code
Course
Type
Hours Per
Week
Credits
Marks
AEN321 ADDITIONAL ENGLISH - 3 3 100
CHE331 CHEMISTRY III-ORGANIC AND ANALYTICAL CHEMISTRY - 4 4 100
CHE351 CHEMISTRY PRACTICALS - III - 2 2 50
ENG321 ENGLISH-III - 3 2 100
FRN321 FRENCH - 3 3 100
HIN321 HINDI - 3 3 100
KAN321 KANNADA - 3 03 100
MAT331 REAL ANALYSIS - 4 4 100
MAT351 PYTHON PROGRAMMING FOR MATHEMATICS - 2 2 50
PHY331 THERMAL PHYSICS AND STATISTICAL MECHANICS - 4 04 100
PHY351 THERMAL PHYSICS AND STATISTICAL MECHANICS LAB - 2 02 50
SAN321 SANSKRIT - 3 3 100
TAM321 TAMIL - 3 3 100
4 Semester - 2020 - Batch
Course Code
Course
Type
Hours Per
Week
Credits
Marks
AEN421 ADDITIONAL ENGLISH - 3 3 100
CHE431 CHEMISTRY IV-INORGANIC AND PHYSICAL CHEMISTRY - 4 4 100
CHE451 CHEMISTRY PRACTICALS - IV - 2 2 50
ENG421 ENGLISH-IV - 3 2 100
FRN421 FRENCH - 3 3 100
HIN421 HINDI - 3 3 100
KAN421 KANNADA - 3 03 100
MAT431 ALGEBRA - 4 4 100
MAT451 PYTHON PROGRAMMING FOR MATHEMATICAL MODELLING - 2 2 50
PHY431 WAVES AND OPTICS - 4 04 100
PHY451 WAVES AND OPTICS LAB - 2 02 50
SAN421 SANSKRIT - 3 3 100
TAM421 TAMIL - 3 3 100
5 Semester - 2019 - Batch
Course Code
Course
Type
Hours Per
Week
Credits
Marks
CHE531 SPECTROSCOPY - 3 3 100
CHE541A CHEMISTRY OF NATURAL PRODUCTS AND HETEROCYCLIC COMPOUNDS - 3 03 100
CHE541B INORGANIC MATERIALS OF INDUSTRIAL IMPORTANCE - 3 03 100
CHE551 CHEMISTRY PRACTICALS V:SPECTROSCOPY - 2 2 50
CHE551A CHEMISTRY PRACTICALS VA-NATURAL PRODUCTS AND ORGANIC ANALYSIS - 2 02 100
CHE551B CHEMISTRY PRACTICALS VB-INORGANIC CHEMISTRY PRACTICALS - 2 2 50
MAT531 LINEAR ALGEBRA - 3 3 100
MAT541A INTEGRAL TRANSFORMS - 3 3 100
MAT541B MATHEMATICAL MODELLING - 3 3 100
MAT541C GRAPH THEORY - 3 3 100
MAT541D CALCULUS OF SEVERAL VARIABLES - 3 3 100
MAT541E OPERATIONS RESEARCH - 3 3 100
MAT551 LINEAR ALGEBRA USING PYTHON - 2 2 50
MAT551A INTEGRAL TRANSFORMS USING PYTHON - 2 2 50
MAT551B MATHEMATICAL MODELLING USING PYTHON - 2 2 50
MAT551C GRAPH THEORY USING PYTHON - 2 2 50
MAT551D CALCULUS OF SEVERAL VARIABLES USING PYTHON - 2 2 50
MAT551E OPERATIONS RESEARCH USING PYTHON - 2 2 50
PHY531 MODERN PHYSICS - I - 3 3 100
PHY541A ANALOG AND DIGITAL ELECTRONICS - 3 3 100
PHY541B RENEWABLE ENERGY AND APPLICATIONS - 3 3 100
PHY541C ASTRONOMY AND ASTROPHYSICS - 3 3 100
PHY551 MODERN PHYSICS - I LAB - 2 2 50
PHY551A ANALOG AND DIGITAL ELECTRONICS LAB - 2 2 50
PHY551B RENEWABLE ENERGY AND APPLICATIONS LAB - 2 2 50
PHY551C ASTRONOMY AND ASTROPHYSICS LAB - 2 2 50
6 Semester - 2019 - Batch
Course Code
Course
Type
Hours Per
Week
Credits
Marks
CHE631 MOLECULES OF LIFE - 3 3 100
CHE641A INDUSTRIAL CHEMICALS AND ENVIRONMENT - 3 3 100
CHE641B NOVEL INORGANIC SOLIDS - 3 3 100
CHE651 CHEMISTRY PRACTICALS VI-MOLECULES OF LIFE - 2 2 50
CHE651A CHEMISTRY PRACTICALS VIA-INDUSTRIAL CHEMICALS AND ENVIRONMENT - 3 03 100
CHE651B CHEMISTRY PRACTICALS VIB-NOVEL INORGANIC SOLIDS - 2 2 50
CHE681 DISSERTATION IN CHEMISTRY - 5 5 150
MAT631 COMPLEX ANALYSIS - 3 3 100
MAT641A MECHANICS - 3 3 100
MAT641B NUMERICAL METHODS - 3 3 100
MAT641C DISCRETE MATHEMATICS - 3 3 100
MAT641D NUMBER THEORY - 3 3 100
MAT641E FINANCIAL MATHEMATICS - 3 3 100
MAT651 COMPLEX ANALYSIS USING PYTHON - 2 2 50
MAT651A MECHANICS USING PYTHON - 2 2 50
MAT651B NUMERICAL METHODS USING PYTHON - 2 2 50
MAT651C DISCRETE MATHEMATICS USING PYTHON - 2 2 50
MAT651D NUMBER THEORY USING PYTHON - 2 2 50
MAT651E FINANCIAL MATHEMATICS USING EXCEL AND PYTHON - 2 2 50
MAT681 PROJECT ON MATHEMATICAL MODELS - 5 5 150
PHY631 MODERN PHYSICS - II - 3 3 100
PHY641A SOLID STATE PHYSICS - 3 03 100
PHY641B QUANTUM MECHANICS - 3 3 100
PHY641C NUCLEAR AND PARTICLE PHYSICS - 3 3 100
PHY651 MODERN PHYSICS - II LAB - 2 2 50
PHY651A SOLID STATE PHYSICS LAB - 2 02 50
PHY651B QUANTUM MECHANICS LAB - 2 2 50
PHY651C NUCLEAR AND PARTICLE PHYSICS LAB - 2 2 50
      

    

Department Overview:

The Department aims at developing young talent for the chemical industry and academia. The curriculum is developed in such a way that the students are able to venture into allied fields too. The aim of the department through the programmes it offers is to provide “a cut above the rest” man-power to the ever growing demands of the industry and to prepare students for higher studies and research. The interactive method of teaching at Christ University is to bring about attitudinal changes to future professionals of the industry.

Equal importance is given to practical and theoretical aspects apart from experiential and digital modes of learning. Industrial projects form an integral part of the curriculum. Along with the syllabus, the University emphasizes on Value Addition Programs like Current Affairs, Holistic Education, open elective programmes and Placement Training Programs, which include training students in group discussions, facing interviews and so on.

Mission Statement:

To develop proficient leaders of ethical values to contribute effectively to the nations growth.

Introduction to Program:

The UG Chemistry programme is offered to students opting for BSc degree with the combinations Physics, Chemistry and mathematics. Chemistry being a central science all efforts are made to connect with physical sciences.

 

Program Objective:

The Chemistry courses for the PCM programme emphasizes on making the students understand the structural and functional basis of the universe. The programmes lead the students to higher learning in physical, mathematical and chemical sciences and contribute to the welfare of the society. It is designed to help the students to understand the importance of chemicals, chemical industries and the role of these in improving the quality of human life. It also helps the students to recognize and appreciate the contribution of great scientists in the field of physics, chemistry and mathematics.

 

 

Assesment Pattern

Evaluation will be done on the basis of CIA1 (10%), CIA2 [Mid Semester Examination] (25%), CIA3 (10%), Attendance (5%), and End Semester Examination (50%).

Examination And Assesments

Continuous internal assessment (CIA) forms 50% and the end semester examination forms the other 50% of the marks in both theory and practical. CIA marks are awarded based on their performance in assignments (written material to be submitted and valued), mid-semester test (MST), and class assignments (Quiz, presentations, problem-solving etc.) The mid-semester examination and the end semester examination for each theory course will be for two and three hours duration respectively. The CIA for practical sessions is done on a day-to-day basis depending on their performance in the pre-lab, the conduct of the experiment, and the presentation of lab reports. Only those students who qualify with the minimum required attendance and CIA will be allowed to appear for the end semester examination.

AEN121 - ADDITIONAL ENGLISH (2021 Batch)

Total Teaching Hours for Semester:45
No of Lecture Hours/Week:3
Max Marks:100
Credits:3

Course Objectives/Course Description

 

The Additional English course is offered as a second language course and seeks to introduce the students to the nuances of English literature in its varied forms and genres. The students who choose Additional English are generally proficient in the English language. Hence, instead of focusing on introducing them to language, challenging texts in terms of ideas, form, and technique are chosen. Additional English as a course is designed for students in place of a regional language. Non-Resident Indians (NRIs), foreign nationals and students who have not taken Hindi, Kannada, Tamil or French at the Plus 2 or Class XII levels are eligible to choose Additional English. The course is taught for students from different streams, namely, BA, BSc, BCom, and BBA in the first year and for BA, BSc and BCom (Regular) in the second year.

The first year syllabus is an attempt by the Department of English, Christ University to recognize and bring together the polyphonic Indian and Indian sub-continental voices in English in English translation for the Additional English students of the first year. This effort aims to familiarize the students with regional literatures in translation, Indian Writing in English (IWE) and literatures from Pakistan, Nepal and Srilanka, thereby, enabling the students to learn more about Indian culture and ethos through writings from different regions of the country. We have tried to represent in some way or the other the corners of India and the Indian sub-continent in this microcosmic world of short stories, poems and essays

 

There is a prescribed text bookfor the first year students, compiled by the Department of English, Christ University and intended for private circulation.

The first semester has a variety of writing from India, Pakistan and Nepal. The various essays, short stories and poems deal with various socio-economic, cultural and political issues that are relevant to modern day India and the Indian sub-continent and will enable students to comprehend issues of identity-politics, caste, religion, class, and gender. All of the selections either in the manner of their writing, the themes they deal with or the ideologies that govern them are contemporary in relevance and sensibility, whether written by contemporary writers or earlier writers. An important addition to this syllabus is the preponderance of North-Eastern writing which was hitherto not well represented. Excerpts from interviews, autobiographical writings, sports and city narratives are added to this section to introduce students to the varied genres of literature.

The objectives of this course are

to expose students to the rich literary and cultural diversity of  Indian literatures

to sensitise students on the social, political, historical and cultural ethos that has shaped the nation- INDIA

to enable to grasp and appreciate the variety and abundance of Indian writing, of which this compilation is just a passing glance

to learn and appreciate India through association of ideas in the texts and the external contexts (BhashaUtsav will be an intrinsic help in this endeavour)

  

 

Learning Outcome

Learning Outcome

 

The students will become

sensitive to cultural, social, religious and ethnic diversities and help them engage with their peers and all around them in a more understanding and ‘educated’ manner.

 

it will also enable them through the activities conducted to become more proactive citizens/participants in society.

 

aware of the dynamics of gender, identity, communalism and politics of this vast nation through its literature.

 

Unit-1
Teaching Hours:10
Poetry
 

1.      Keki N Daruwala     “Migrations”

 

2.      Kamala Das            “Forest Fire”

 

3.      Agha Shahid Ali      “Snow on the Desert”

 

4.      Eunice D Souza       “Marriages are Made”

Unit-2
Teaching Hours:15
Short Stories
 

1.      Rabindranath Tagore    “Babus of Nayanjore”

 

2.      Ruskin Bond  “He said it with Arsenic”

 

3.      Bhisham Sahni       “The Boss Came to Dinner”

 

4.      N. Kunjamohan Singh    “The Taste of Hilsa”

 

5.      Mohan Thakuri                “Post Script”

Unit-3
Teaching Hours:20
Essays
 

1.      Mahatma Gandhi       “What is True Civilization?” (Excerpts from Hind Swaraj)

 

2.      Ela Bhatt                    “Organising for Change”

 

3.      Sitakant Mahapatra     “Beyond the Ego: New Values for a Global Neighborhood

 

4.      B R Ambedkar             “Waiting for A Visa”

 

Text Books And Reference Books:

Contemporary knowledge of the soci-political situation in the sub-continent

The text book copy "Reading Diversity"

Essential Reading / Recommended Reading

On-line resources to appreciate the text through the Comprehension Questions

Evaluation Pattern

CIA 1:  Classroom assignment for 20 marks keeping in mind the objectives and learning outcomes of the course.

CIA 2: Mid-semester written exam for 50 marks

CIA 3: Collage, tableaus, skits, talk shows, documentaries, Quizzes or any proactive            creative assignments that might help students engage with India as a cultural space. This is to be done keeping in mind the objectives and learning outcomes of the course.

Question Paper Pattern

Mid Semester Exam: 2 hrs

Section A: 4x5= 20

Section B: 2x15=30

Total                  50

 

End Semester Exam: 2 hrs

Section A: 4 x 5 = 20

Section B: 2 x 15= 30

Total                   50

CHE131 - CHEMISTRY - I BASIC CHEMISTRY (2021 Batch)

Total Teaching Hours for Semester:60
No of Lecture Hours/Week:4
Max Marks:100
Credits:4

Course Objectives/Course Description

 

In this introductory paper the students acquire knowledge of the basic concepts of Physical, Organic and Inorganic Chemistry. 

Learning Outcome

Upon completion of this course, the students will be able to

 

CO1: Understand and recall the fundamentals of structure and properties of atoms, nature and types of chemical bonding, periodicity of elements in the periodic table, the concepts of nucleophiles, electrophiles, electronegativity, and resonance.

 

CO2: Interpret the chemical bonding in simple inorganic and organic molecules, predicting structures and important bonding parameters

 

CO3: Relate the basic principle of quantum mechanics with the contemporary understanding of atomic structure and electronic configurations

(Addresses GA- 1, GA-2, and GA-3)

 

Section A: General and Inorganic Chemistry    (40HRS)

Unit-1
Teaching Hours:13
Atomic Structure
 

Prelearning topics: Bohr’s theory and its limitations, Black body radiation, dual behaviour of matter and radiation, de Broglie’s relation, Heisenberg Uncertainty principle. Hydrogen atom spectra. Need of a new approach to Atomic structure.

 

Quantum mechanics: Postulates of quantum mechanics, Introduction, time independent Schrodinger equation and meaning of various terms in it. Significance of ψ and ψ2, Schrödinger equation for hydrogen atom. Radial and angular parts of the hydrogenic wavefunctions (atomic orbitals) and their variations for 1s, 2s, 2p, 3s, 3and 3orbitals (Only graphical representation). Radial and angular nodes and their significance. Radial distribution functions and the concept of the most probable distance with special reference to 1and 2atomic orbitals. Significance of quantum numbers, orbital angular momentum and quantum numbers ml and ms. Shapes of sand atomic orbitals, nodal planes. Discovery of spin, spin quantum number (s) and magnetic spin quantum number (ms).Rules for filling electrons in various orbitals, Electronic configurations of the atoms.*Stability of half-filled and completely filled orbitals,*concept of exchange energy. Relative energies of atomic orbitals, Anomalous electronic configurations.

Unit-2
Teaching Hours:12
Chemical Bonding and Molecular Structure
 

Ionic Bonding: General characteristics of ionic bonding. #Energy considerations in ionic bonding, lattice energy and solvation energy and their importance in the context of stability and solubility of ionic compounds. Statement of Born-Landé equation for calculation of lattice energy, Born-Haber cycle and its applications, polarizing power and polarizability. Fajan’srules, ionic character in covalent compounds, bond moment, dipole moment and percentage ionic character.

Covalent bonding: VB Approach: Shapes of some inorganic molecules and ions on the basis of VSEPR and hybridization with suitable examples of linear, trigonal planar, square planar, tetrahedral, trigonalbipyramidal and octahedral arrangements. Concept of resonance and resonating structures in various inorganic compounds.

MO Approach: Rules for the LCAO method, bonding and antibonding MOs and their characteristics for s-ss-p and p-p combinations of atomic orbitals, nonbonding combination of orbitals, MO treatment of homonuclear diatomic molecules (O2, N2) of 1st and 2nd periods (including idea of s-p mixing) and heteronuclear diatomic molecules such as CO, NO and NO+. Comparison of VB and MO approaches

Unit-3
Teaching Hours:5
$Environmental Chemistry
 

                                                                               5 Hrs

 Prelearning topics:Ecosystems. Energy flow and eco system stability, Bioelements, cycles of carbon, nitrogen and sulphur.

 

Air Pollution: 

Air pollutants: Photochemical smog: its constituents and photochemistry. Automobile emission.*Greenhouse effect,*Global warming, Ozone depletion by oxides of nitrogen, chlorofluorocarbons and halogens, Control of particulates. 

Water Pollution:

$Water purification and treatment (reverse osmosis, electro dialysis, ion exchange). 

#Effluent treatment plants (primary, secondary and tertiary treatment). 

Unit-4
Teaching Hours:5
Periodicity and chemistry of main group elements
 

Arrangement of elements in the periodic table. Effective nuclear charge. Slater's Rules. Periodic variation of properties in periods and groups. General chemical characteristics of s and p block elements: Metallic and non-metallic character, oxidation and reduction reactions, diagonal relationships. polyhalides. Oxyacids of nitrogen, phosphorous, sulphur and halogens.

Unit-5
Teaching Hours:5
Nuclear Chemistry
 

Isotopes- use of radio isotopes in tracer technique, agriculture, medicine, food preservation and Carbon dating-Numerical problems.

Nuclear fuels, Nuclear reactors, Breeder reactors, atomic energy programme in India.

**Case studies on Chernobyl and Fukushima nuclear disaster.

 

 

 Section B: Organic chemistry          (20 Hrs) 

Unit-6
Teaching Hours:10
Fundamentals of Organic Chemistry
 

Prelearning topics: Hybridizations, bond lengths, bond angles, bond energy. Localized and delocalized chemical bond, polarity of bonds, types of chemical reactions

 

IUPAC naming of bifunctional organic compounds

Electronic Displacements: Inductive Effect, Electromeric Effect, Resonance, Hyperconjugation and steric effect. Effect of the above on strength of organic acids and bases: Comparative study with emphasis on factors affecting pK values. Cleavage of Bonds: Homolysis and Heterolysis. Nucleophiles and electrophiles. Reactive Intermediates: Carbocations, Carbanions, free radicals and carbenes - Structure, shape and reactivity of organic intermediates. Types of organic reactions: Addition, elimination, substitution, rearrangement and redox reactions (definition and one example each). 

Unit-7
Teaching Hours:7
Aliphatic Hydrocarbons
 

Prelearning topics: Classification, Nomenclature and sources of organic compounds. 

 

Alkanes: (Upto 5 Carbons)

Preparation: Catalytic hydrogenation, Wurtz reaction, Kolbe’s synthesis, from Grignard reagent. Reactions: Free radical Substitution: Halogenation. Selectivity and reactivity. (Mechanisms)

Cycloalkanes-Relative stabilities-Baeyer’s strain theory-Sache-Mohr theory of strainless rings. 

Alkenes: (Upto 5 Carbons) 

Preparation: Elimination reactions: Dehydration of alkenes and dehydrohalogenation of alkyl halides (Saytzeff’s rule); cis alkenes (Partial catalytic hydrogenation) and trans alkenes (Birch reduction). Mention stereoselective and regioselective reactions. Reactions: cis addition (alk. KMnO4) and trans-addition (bromine), Addition of HX (Markownikoff’s and anti-Markownikoff’s addition with mechanisms), Hydration, Ozonolysis, oxymecuration-demercuration, Hydroboration-oxidation. 

Dienes: Nomenclature and classification of dienes Methods of formation of 1, 3 - butadiene. Chemical reactions of butadiene - 1, 2 and 1, 4 additions Diels-Alder reaction.

Alkynes: (Upto 5 Carbons)                                                                                           

Prelearning topics: geminal and vicinal dihalides, basic concepts of addition and oxidation reactions.  Preparation: Acetylene from CaC2 and conversion into higher alkynes; by dehalogenation of tetra halides and dehydrohalogenation of vicinal-dihalides.

Reactions: formation of metal acetylides, addition of bromine and alkaline KMnO4, ozonolysis and oxidation with hot alkaline KMnO4.

 

Unit-8
Teaching Hours:3
Alkyl Halides
 

                                                                                     

Preparation - From alkenes and alcohols. Reactions - Types of aliphatic nucleophilic substitution reactions - SN1and SN2mechanisms with stereochemical aspects and effects of substrate structure, solvent, nucleophile and leaving group.  

* Topics identified for student seminar.

# Topics to enhance employability.

$ Service learning

** Self learning

Academic Enrichment Activity

JEE-based problems will be solved in the class

Talk and written assignment on gender bias/gender discriminaton in scientific world 

Text Books And Reference Books:

 

[1]   B.R. Puri, L.R. Sharma and K.C. Kalia, Principles of Inorganic Chemistry, 31st Edition, Milestone Publishers and Distributors, New Delhi, 2013. 

[2]   Bahl, A. &Bahl, B.S. Advanced Organic Chemistry, S. Chand, 2010.

[3]   B. Mehta, M. Mehta, Organic Chemistry, PHI Learning Private Limited, 2017.

Essential Reading / Recommended Reading

 

[1]   J.A. Lee, Scientific Endeavour, Addison Wesley Longman 

[2]   D.A. Skoog, D.M. West, F.J. Holler and S.R. Crouch, Fundamentals of Analytical Chemistry, 8th Edition, Brooks/Cole, Thomson Learning, Inc., USA, 2004. 

[3]   J. D. Lee, Concise Inorganic Chemistry, 5th ed., Blackwell Science, London, 2010. 

[4]   Satya Prakash, Advanced Inorganic Chemistry, Volume 1, 5th Edition, S. Chand and Sons, New Delhi, 2012. 

[5]   R.K. Prasad, Quantum Chemistry, New Age International, 2001 

[6]   McQuarrie, J. D. Simon, Physical Chemistry – A molecular Approach, Viva Books. 

[7]   I. N. Levine, Physical Chemistry, Tata McGraw Hill, 

[8]   ManasChanda, Atomic structure and Chemical bonding in Molecular Spectroscopy” Tata McGraw Hill. 

[9]   J. D. Lee, Concise Inorganic Chemistry, 5th edn., Blackwell Science, London. 

[10]    B. R. Puri, L. R. Sharma, Kalia, Principles of Inorganic Chemistry, Milestone Publishers, New Delhi. 

[11]    F. A. Cotton, G. Wilkinson and P. L. Gaus, Basic Inorganic Chemistry, 3rd ed., John Wiley. 

[12]    B. Douglas, D. Mc Daniel, J. Alexander, Concepts and models in Inorganic Chemistry. 

[13]    R. Gopalan, Inorganic Chemistry for Undergraduates, Universities Press, Hyderabad, 2009.

[14]    Jain and Sharma Modern Organic Chemistry 3rd edition, Vishal Publishing Company, 2009. 

[15]    R. T Morrison, and R. N. Boyd. Organic Chemistry.  7thed. New Delhi: Prentice-Hall of India (P) Ltd., 2010.

[16]    S.M. Mukherji, S. P. Singh, and R. P. Kapoor. Organic Chemistry. 3rd, 12th Reprint, New Delhi: New Age International (P) Ltd. Publishers, 2009.

[17]    I. L Finar, Organic Chemistry Vol. II, 5thed. New Delhi: ELBS and Longman Ltd., reprint 2008.

Evaluation Pattern

 

 

No.

Component

Schedule

Duration

Marks

CIA1

Assignment/quiz/group task/ presentations

Before MST

--

10

 

CIA2

Mid-Sem Test

[MST]

2 Hrs (50 marks)

25

CIA3

Assignment/quiz/group task/ presentations

After MST

--

10

CIA3

Attendance (75-79 = 1, 80-84 = 2, 85-89 = 3, 

90-94 = 4, 95-100 = 5)

--

5

ESE

Centralized

3 Hrs (100 marks)

50

Total

100

 

CHE151 - CHEMISTRY PRACTICALS - I (2021 Batch)

Total Teaching Hours for Semester:30
No of Lecture Hours/Week:2
Max Marks:50
Credits:2

Course Objectives/Course Description

 

This course is intended to impart basic analytical skills with an emphasis on volumetric analysis. It also emphasises the importance of organized and systematic approach in carrying out experiments.

Learning Outcome

Upon completion of this course the students will be able to demonstrate

 

CO1: Ability to apply volumetric techniques for the quantitative analysis of samples 

CO2: Ability to outline and interpret the chemical principles of acidimetry, alkalimetry, redox 
          titrations and complexometric titrations

CO3: Ability to systematically record and process data from volumetric analysis

CO4: Ability to select suitable volumetric analysis for the quantification of various samples.

 

(Addresses GA- 1, GA-2, GA-3, and G8)

 

 

Level of knowledge: Basic/Analytical

 

Unit-1
Teaching Hours:30
Inorganic Chemistry - Volumetric Analysis
 

 

1. Calibration of glassware.

2. Estimation of oxalic acid by titrating it with KMnO4.

3. Estimation of water of crystallization in Mohr’s salt by titrating with KMnO4.

4. Estimation of Fe (II) ions by titrating it with K2Cr2O7 using internal indicator.

5. Estimation of Fe (II) ions by titrating it with K2Cr2O7 using external indicator.

6. Estimation of Cu (II) ions iodometrically using Na2S2O3.

7.Estimation of total alkalinity of water samples (CO32-, HCO3-) using double titration method. 

8. Measurement of chlorides in water samples by titrimetry (AgNO3 and potassium chromate)

9. Estimation of Mg2+ by complexometric titrations using EDTA.

10. Estimation of Zn2+ by complexometric titrations using EDTA.

11. Estimation of total hardness of a given sample of water by complexometric titration.

12.Measurement of sulphate in water samples by titrimetric method.

 

Academic Enrichment Activity

 

Online videos of various titration experiments will be shared with students

Text Books And Reference Books:

 

[1]  Svehla, G. Vogel’s Qualitative Inorganic Analysis, Pearson Education, 2012.

.

 

 

Essential Reading / Recommended Reading

 

[1]  Mendham, J. Vogel’s Quantitative Chemical Analysis, Pearson, 2009.

 

 

Evaluation Pattern

No.

Component

Duration

Points

Marks

CIA 1

Mid-SemTest [MST]*

3 Hrs

50

20

CIA 2

Class work, PreLab assignments

---

40

20

CIA 3

Record book

---

20

10

ESE

(Two examiners)

3 Hrs

50

50

 Total

100

ENG121 - ENGLISH - I (2021 Batch)

Total Teaching Hours for Semester:45
No of Lecture Hours/Week:3
Max Marks:100
Credits:2

Course Objectives/Course Description

 
  • To expose learners to a variety of texts to interact with
  • To help learners classify ideologies and be able to express the same
  • To expose learners to visual texts and its reading formulas
  • To help learners develop a taste to appreciate works of literature through the organization of language
  • To help develop critical thinking
  • To help learners appreciate literature and the language nuances that enhances its literary values
  • To help learners understand the relationship between the world around them and the text/literature
  • To help learners negotiate with content and infer meaning contextually
  • To help learners understand logical sequencing of content and process information

·         To help improve their communication skills for larger academic purposes and vocational purposes

·         To enable learners to learn the contextual use of words and the generic meaning

·         To enable learners to listen to audio content and infer contextual meaning

·         To enable learners to be able to speak for various purposes and occasions using context specific language and expressions

·         To enable learners to develop the ability to write for various purposes using suitable and precise language.

Learning Outcome

·         Understand how to engage with texts from various countries, historical, cultural specificities and politics

 

·         Understand and develop the ability to reflect upon and comment on texts with various themes

 

·         Develop an analytical and critical bent of mind to compare and analyze the various literature they read and discuss in class

 

·         Develop the ability to communicate both orally and in writing for various purposes

 

Unit-1
Teaching Hours:6
Unit 1 1. The Happy Prince By Oscar Wilde 2. Shakespeare Sonnet 18
 

Unit-1
Teaching Hours:6
language
 

Common errors- subject-verb agreement, punctuation, tense errors 

 

Unit-2
Teaching Hours:6
unit 2
 

1. Why We Travel-Pico Iyer

2. What Solo Travel Has Taught Me About the World – and Myself -ShivyaNath- Blogpost

 

Unit-2
Teaching Hours:6
language
 

sentence fragments, dangling modifiers, faulty parallelism,

Unit-3
Teaching Hours:6
language
 

Note taking

Unit-3
Teaching Hours:6
unit 3
 

1. Thinking Like a Mountain

By Aldo Leopold

2. Short Text: On Cutting a Tree

By Gieve Patel

Unit-4
Teaching Hours:6
unit 4
 

1. Violence in the name of God is Violence against God

By Rev Dr Tveit

 

2. Poem: Holy Willie's Prayer

By Robert Burns

Unit-4
Teaching Hours:6
language
 

Paragraph writing

Unit-5
Teaching Hours:6
Language
 

Newspaper report

Unit-5
Teaching Hours:6
unit 5
 

1. The Story of B24

By Sir Arthur Conan Doyle

 2. Short Text: Aarushi Murder case 

 

Unit-6
Teaching Hours:6
unit 6
 

1.Long text:My Story- Nicole DeFreece

 

2. short text: Why You Should Never Aim for Six Packs

 

Unit-6
Teaching Hours:6
Language
 

Essay writing

Unit-7
Teaching Hours:6
unit 7
 

1.Long Text: Sir Ranjth Singh- Essay by SouravGanguly

2. Short text: Casey at the Bat-  Ernest Lawrence Thayer

Unit-7
Teaching Hours:6
Language
 

Paraphrasing and interpretation skills

Unit-8
Teaching Hours:3
visual text
 

Visual Text: Before the Flood

Text Books And Reference Books:

ENGlogue 1

Essential Reading / Recommended Reading

Addfitional  material as per teacher manual will be provided by the teachers

Evaluation Pattern

CIA 1=20

CIA 2=50 

CIA 3= 20 

ESE= 50 marks online and 50 marks written exam

FRN121 - FRENCH (2021 Batch)

Total Teaching Hours for Semester:45
No of Lecture Hours/Week:3
Max Marks:100
Credits:3

Course Objectives/Course Description

 

French as a second language in the UG program. The method Génération A1 consists of a student's book and an activity book, both included in the digital manual. It consists of 6 units preceded by an initial section of 'Welcome'. The structure of each unit marks a real learning journey.

 

Course Objectives

·       To develop linguistic competencies and sharpen oral and written communicative skills

·       To familiarize learners to certain aspects of francophone civilization.

·       To enable learners to engage in simple everyday situations

Learning Outcome

Enhancement of linguistic competencies and sharpening of written and oral communicative skills. Being aware of francophone civilization. Ability to engage in simple conversations in French.

Unit-1
Teaching Hours:10
I discover
 

Lesson 1: Good Morning, how are you?

 Lexicon – Countries and nationalities, domestic animals, days of the week

 Grammar -Subject pronouns, verbs ‘to be’ and ‘to have’, definite and indefinite articles

 Speech acts – Greeting, asking how one is

 

Lesson 2: Hello, my name is Agnes.

Lexicon – Months of the year, numbers 0-69, the family

Grammar – Formation of the feminine / plural, possessive adjectives

Speech acts -Introducing oneself and others, asking and saying dates

 

Unit-2
Teaching Hours:5
Les fables de la Fontaine
 

La cigale et la fourmis (The grasshopper and the ant)

Unit-3
Teaching Hours:10
Culture: Physical and Political France
 

 

Lesson 1: Who is it?

Lexicon - Professions

Grammar – Formation of the feminine, interrogative /negative phrases, it is

Speech acts – Asking and answering politely

   
 

Lesson 2: In my bag, I have......

Lexicon – Some objects, identity card

Grammar – First group verbs, verbs ‘to go’ and ‘to come’

Speech acts – Asking personal information

 

 

Unit-4
Teaching Hours:5
Les fables de la Fontaine
 

Le renard et le corbeau (The fox and the crow)

Unit-5
Teaching Hours:10
Video Workshop: How cute he is!
 

 

Lesson 1: How is he?

Lexicon – The physical aspect, character

Grammar – The formation of the feminine, contracted articles, tonique pronouns, there

                    is/are, interrogative adverbs

Speech acts – Describing the physical aspects and the character

   
 

Lesson 2: Hello?

Lexicon – Prepositions of place, numbers from 70

Grammar – Numbers, prepositions of place, second group verbs, verb ‘to do’

Speech acts – Speaking on the phone                                                                              

 

Unit-6
Teaching Hours:5
Visual text
 

A French movie

Text Books And Reference Books:

1. Cocton, Marie-Noelle. Génération A1. Paris : Didier, 2016 

      2.  De Lafontaine, Jean. Les Fables de la Fontaine.

           Paris, 1668

Essential Reading / Recommended Reading

French websites like Bonjour de France, Fluent U French, Learn French Lab, Point du FLE etc

Evaluation Pattern

Assessment Pattern

CIA (Weight)

ESE (Weight)

CIA 1 – Assignments / Letter writing / Film review

10%

 

CIA 2 –Mid Sem Exam

25%

 

CIA 3 – Quiz / Role Play / Theatre / Creative projects 

10%

 

Attendance

05%

 

End Sem Exam

 

50%

Total

50%

50%

HIN121 - HINDI (2021 Batch)

Total Teaching Hours for Semester:45
No of Lecture Hours/Week:3
Max Marks:100
Credits:3

Course Objectives/Course Description

 

Course Description

The detailed text book “Samakaleen Hindi Kavitha” edited by Dr.N Mohanan is an anthology of contemporary Hindi Poems written by representative poets of Hindi Literature. From the medieval poetry ' Kabir Ke Dohe and Sur ke pad 'is also included.  The poets reflect on the social, cultural and political issues which are prevalent in our society since the medieval period. Hindusthani sangeeth-parampara eva kalakar is one of the module. Since translation is a significant area in language and literature, emphasis is being given on it in the syllabus.Bharath ki pramukh sanskruthik kalayein  Yakshagana,Kathakali,Ram Leela,Krishna Leela etc. included in the syllabus to enrich cultural values among students.

Course Objectves: 

Students will be exposed to read, analyse and appreciate poems by learning poetry. Through translation, students will be able to develop translation skills while translating from other language articles. Students will be able to analyses critically the different cultural art forms by learning about the Famous cultural art forms of India.

Learning Outcome

 

At the end of the course, the student will be able to:

 

CO1: Improve their writing skill in literary Hindi by doing asynchronous session assignments.

 

●    CO2: Improve their analytical skills through critical analysis of the poems.

 

●    CO3: To appreciate the different aspects of Hindustani music.

 

●    CO4: To improve their basic research skills through creative and research oriented CIAs.

 

Unit-1
Teaching Hours:15
Samakaleen Hindi Kavitha (Collection of contemporary Hindi Poems),Kabir Ke Dohe and Sur Ke Pad.
 

’  Samakaleen Hindi Kavitha (Collection ofcontemporary Poems)  Edited By: Mahendra Kulashreshta Rajpal and Son’s, New Delhi

 

Level of knowledge: Analytical

 

Unit-2
Teaching Hours:10
Translation-Theory and Practice
 

                                                                                            

                                      

                                          

                                           

         

Translation-Practice                English to Hindi and vice- versa.

Unit-3
Teaching Hours:10
Bharath ki pramukh sanskruthic kalayen-
 

Ramleela,Krishnaleela,Yakshagaana,kathakali.

Unit-4
Teaching Hours:10
Hindusthani Sangeeth-parampara evam pramukh kalakar
 

Utbhav,Vikas aur paramparaein

Pramukh Sangeethkar-1.Bhimsen Joshi 2.Gulam Ali 3.Pandit Ravishankar 4. Bismillah Khan.

Text Books And Reference Books:

  1. 'Samakaleen Hindi Kavitha’ (Collection of Poems) Edited By: Dr.N Mohanan,  Rajpal and Son’s,New Delhi.
Essential Reading / Recommended Reading

1. A Hand Book of Translation Studies         By: Das Bijay Kumar.               

2. Saral Subodh Hindi Vyakaran,                 By: Motilal Chaturvedi. Vinod pustak mandir, Agra-2

3. Anuvad Evam Sanchar –                         Dr Pooranchand Tantan, Rajpal and Son’s, Kashmiri

4. Anuvad Vignan                                       By: Bholanath Tiwar

5. Anuvad Kala                                           By: N.E Vishwanath Iyer.

                                                                 

Evaluation Pattern

CIA-1(Digital learning-Editing of Hindi article in Hindi Wikipedia )-20 marks

CIA-2(Mid semester examination)-50 marks

CIA-3(Digital learning-article creation in Hindi Wikipedia)-20 marks

End sem examination-50 marks

KAN121 - KANNADA (2021 Batch)

Total Teaching Hours for Semester:45
No of Lecture Hours/Week:3
Max Marks:100
Credits:03

Course Objectives/Course Description

 

Selections from Old Kannada, Medieval Kannada and Modern Kannada Literature are introduced for I Semester BA/ BSc. courses in the syllabus. This will enrich the students' Language and Communication skills, and also their critical and analytical skills.  This will help them to enhance their social sensitivity.  The rhythm of poetry helps the students to acquire natural speech rhythm.

Learning Outcome

  • Initiates to compose a lyrical poem
  • Understands and appreciates poetry as literary art form.
  • Develops analytical and critical bent of mind to compare and analyse the various literature they read and discuss in class.
  • Develops a more humane and service oriented approach to all forms of life around them.
  • Develop awareness about the Kannada Language, Literature and Culture
  • Ability to communicate effectively in speech and in writing.
  • Ability to use better language to communicate effectively

Unit-1
Teaching Hours:15
Old , Medieval and Modern Kannada Literature
 

1. Raghavanka- Harishchandra Kavya. Selected chapter( Purada Punyam Purusha Roopinde Pooguthide) 

2. Vachanas- Devara Dasimayya, Basavanna, Akkamahadevi, Aydakki Lakkamma, Gajesha Masanaiah.

    Keerthanegalu: Purandaradasa, Kanakadasa

3. Modern Kannada poetry: Mumbai Jataka- Dr. G.S. Shivarudrappa, Kari Heggadeya Magalu- B.M.Sri 

Unit-2
Teaching Hours:10
Prose- Selected Short Stories
 

1. Dheera Kumara- A Folk tale

2. Mandannana Marriage- (An episode in Novel Karvalo) K. P. Poornachandra Tejaswi

3. Gili Kathe-(Translation) -  Ravindranath Tagore

Unit-3
Teaching Hours:10
Kannada Grammar
 

1. Differences in Prounounciation ( L-l) (A-H) 

2. Change of meanings

3. Translation: English to Kannada 

 

Unit-4
Teaching Hours:10
Folk Art forms of Karnataka
 

1.Folk Art forms of Karnataka

1. Dollu Kunitha

2.Pooja Kunitha

3.Goravara Kunita

4. Patada Kunitha 

Text Books And Reference Books:

       1. Adipurana- Pampa (Selected Episode) 

       2. Yashodhara Charite- Janna (Selected Episode) 

       3. Harishchandra Kavya- Raghavanka (Selected Episode) 

       4. Shree Sahitya- B M Shreekantaiah

       5. Janapada Kathegalu- Jee sham paramashivaiah

Essential Reading / Recommended Reading

1. Pampa Ondu Adhyayana- G S Shivarudrappa

2. Vachana Chandrike- L Basavaraju

3. Purandara Sahitya Darshana- S K Ramachandra Rao

4. Kanakadasa- Basrur Subba Rao

5. Samagra Kannada Sahitya Charithre- Ed. G.S Shivarudrappa

 

 

Evaluation Pattern

CIA-1 Written Assignments- 20 Marks

CIA-2 Mid Semsester Examination- 50 Marks

CIA-3 Translation Assignment- English to Kannada -20 Marks

Attendance -05 Marks

End Semester Examination- 50 Marks

MAT131 - DIFFERENTIAL CALCULUS (2021 Batch)

Total Teaching Hours for Semester:60
No of Lecture Hours/Week:4
Max Marks:100
Credits:4

Course Objectives/Course Description

 

Course Description: This course aims at enabling the students to know various concepts and principles of differential calculus and its applications.  Sound knowledge of calculus is essential for the students of mathematics for the better perceptions of the subject and its development.

Course objectives​: This course will help the learner to

COBJ1. Gain familiarity with the concepts of limit, continuity and differentiability.

COBJ2. Understand the relationship between the concepts of differentiability and continuity.

COBJ3. Analyse and interpret the different versions of mean value theorems.

COBJ4. Learn successive differentiation and nth derivative of product of two functions.

COBJ5. Find derivative of functions of more than one variable.

COBJ6. Be familiar with curve tracing.

Learning Outcome

On successful completion of the course, the students should be able to

CO1. Compute limits, derivatives and examine the continuity, differentiability of a function at a point.
CO2. Understand the properties of continuous functions and prove that differentiability implies continuity
CO3. Prove Mean value theorems and analyse its geometric interpretation.
CO4. Compute derivatives of any order and apply Leibniz’ theorem to find nth derivative of product of two functions.
CO5. Master the fundamental concepts of partial differentiation and apply Euler’s theorem for homogeneous functions.
CO6. Gain knowledge on the concepts such as asymptotes, concavity/convexity and singular points and apply the same for curve tracing.

Unit-1
Teaching Hours:20
Limits, Continuity, Differentiability and Mean Value Theorems
 

Definition of the limit of a function (ε-δ) form – Continuity, Uniform Continuity – Types of discontinuities – Properties of continuous functions on a closed interval - Boundedness theorem and extreme value theorem – Differentiability – Mean Value Theorems: Rolle’s theorem – Lagrange’s and Cauchy’s First Mean Value Theorems – Taylor’s theorem (Lagrange’s form and Cauchy’s forms of remainder) – Maclaurin’s theorem and expansions -Indeterminate forms. .

Unit-2
Teaching Hours:20
Successive and Partial Differentiation
 

Successive differentiation – nth derivatives of functions – Leibnitz theorem and its applications – Partial differentiation – First and higher order derivatives – Differentiation of homogeneous functions – Euler’s theorem – Taylor’s theorem for two variables (only statements and problems)- Maxima and Minima of functions of two variables.

Unit-3
Teaching Hours:20
Curve Tracing
 

Tangents and Normals, Concavity and convexity, Curvature, Asymptotes, Singular points, Tracing of curves (Parametric representation of curves and tracing of parametric curves, Polar coordinates and tracing of curves in polar coordinates)..

Text Books And Reference Books:

G.B. Thomas, M.D.Weir and J. Hass, ThomasCalculus, 12th ed., Pearson Education India, 2015. 

Essential Reading / Recommended Reading
  1. H. Anton, I. Birens and S. Davis, Calculus, John Wiley and Sons Inc., 2002.
  2. F. Ayres and E. Mendelson, Schaum's Outline of Calculus, 6th ed. USA: Mc. Graw Hill., 2013.
  3. J. Stewart, Single Variable Essential Calculus: Early Transcendentals, 2nd ed.: Belmont, USA: Brooks/Cole Cengage Learning., 2013.
  4. S. Narayanan & T. K. M. Pillay, Calculus, Reprint, India: S. Viswanathan Pvt. Ltd., 2009. (vol. I & II.)
  5. M. Spivak, Calculus, 3rd ed., Cambridge University Press, 2006.
  6. T.M. Apostol, Calculus, Vol-II, Wiley India Pvt. Ltd., 2011.
  7. J. Edwards, An elementary treatise on the differential calculus: with applications and numerous examples, Reprint, Charleston, USA: BiblioBazaar, 2010.
  8. N. P. Bali, Differential Calculus, New ed. New Delhi, India: Laxmi Publications (P) Ltd., 2012.
Evaluation Pattern

 

Component

Mode of Assessment

Parameters

Points

CIA I

MCQ,

Written Assignment,

Reference work, etc.,

Mastery of the core concepts

Problem solving skills

 

10

CIA II

Mid-semester Examination

Basic, conceptual and analytical knowledge of the subject

25

CIA III

Written Assignment, Project

Problem solving skills

10

Attendance

Attendance

Regularity and Punctuality

05

ESE

 

Basic, conceptual and analytical knowledge of the subject

50

Total

100

MAT151 - INTRODUCTION TO PYTHON PROGRAMMING-I (2021 Batch)

Total Teaching Hours for Semester:30
No of Lecture Hours/Week:2
Max Marks:50
Credits:2

Course Objectives/Course Description

 

Course Description: Introduction to Python Programming1 provides a foundational background for programming in a mathematical setting. Students will learn the basics of object orientated programming, algorithm, flow chart, memory storage, variable scoping, modules, objects and classes, and basic data structures.

Course objectives​: This course will help the learner to

COBJ1: Acquire proficiency in using Python Programming.

COBJ2: Demonstrate the use of Python to understand and interpret the some concepts in Mathematics.

Learning Outcome

On successful completion of the course, the students should be able to

CO1: Write algorithms, flow chart and codes.

CO2: Use modules and functions in python language.

CO3: Acquire proficiency in using conditional structures.

CO4: Solve problems using control structures.

CO5: Use python lists, tuples and dictionaries.

CO6: Write small programs using python programming.

Unit-1
Teaching Hours:30
Proposed Topics:
 
  1. Getting started with Python
  2. Variable, Printing, input and output
  3. Modules and functions
  4. If statements, Conditional operators, elif
  5. For Loops, Break statements, The loop variable, the range function
  6. Numbers, Math Operators, Random numbers, Math functions
  7. Counting, Summing, Swapping, Flag variables, Maxes and mins, Comments, Simple debugging, Example programs
  8. Strings, Concatenation and repetition, The in operator, Indexing, Slices, Looping, String methods
  9. Lists, List methods, Tuples
Text Books And Reference Books:
  1. H. Brian, A Practical Introduction to Python Programming, Creative Commons Attribution, 2012.
  2. A. Saha, Doing Math with Python: Use Programming to Explore Algebra, Statistics, Calculus, and More!, No Starch Press, 2015.
Essential Reading / Recommended Reading
  1. T. Hall, J. P. Stacey, Python 3 for absolute beginners, Apress, 2010.
Evaluation Pattern

The course is evaluated based on continuous internal assessments (CIA) and the lab e-record. The parameters for evaluation under each component and the mode of assessment are given below.

Component

Parameter

Mode of  Assessment

Maximum

Points

CIA I

Mastery of the  concepts

Lab Assignments

20

CIA II

Conceptual clarity and analytical skills

Lab Exam - I

10

Lab Record

Systematic documentation of the lab sessions.

e-Record work

07

Attendance

Regularity and Punctuality

Lab attendance

03

95-100% : 3

90-94%   : 2

85-89%   : 1

CIA III

Proficiency in executing the commands appropriately,.

Lab Exam - II

10

Total

50

PHY131 - MECHANICS (2021 Batch)

Total Teaching Hours for Semester:60
No of Lecture Hours/Week:4
Max Marks:100
Credits:04

Course Objectives/Course Description

 

This course is aimed to provide a thorough knowledge of the basics of kinematics, gravitation, work, energy, oscillations, properties of matter and special theory of relativity. Each topic includes problem-solving which develops the thinking process and application skills of the students.  

Learning Outcome

Familiarisation of the fundamental mathematical formulations in mechanics and development of application skills.

Unit-1
Teaching Hours:15
Laws of Motion
 

Scalars and vectors, types of vectors, Vector algebra-Vector addition and subtraction, Graphical and analytical methods, components of vectors, Scalar and vector products, applications for scalar and vector products, Vector derivatives, 1st order and second-order differential equations.

Motion in one dimension-Motion with uniform velocity, uniform acceleration and non-uniform acceleration, Motion in two dimensions-projectile motion- Motion along a curve in a plane (radial and transverse components of velocity and acceleration), examples. Drag force terminal velocity, Frames of reference- Inertial and non-inertial, two frames of reference moving with uniform relative velocity, uniform acceleration, rotating frames, fictitious forces-Examples-(Banking of curved railway track, Accelerometer, freely falling elevator). Newton’s Laws of motion. First, second and third laws, Conservative and non-conservative forces, Dynamics of a system of particles., Definition of centre of mass, centre of mass of two particles, group of particles, continuous bodies, uniform straight rod, motion of the centre of mass.              

Unit-2
Teaching Hours:15
Momentum and Energy
 

Conservation of momentum and energy, work-energy theorem, motion of rockets. 

Rotational motion: Angular velocity and angular momentum, torque, conservation of angular momentum.

Fluids: Surface tension: Synclastic and antisynclastic surface - Excess of pressure - Application to spherical and cylindrical drops and bubbles - variation of surface tension with temperature - Jaegar’s method, Drop weight method. Viscosity: Viscosity - Rate flow of liquid in a capillary tube - Poiseuille’s formula - Determination of coefficient of viscosity of a liquid - Stoke's method, Variation of viscosity of a liquid with temperature 

Unit-3
Teaching Hours:15
Gravitation and Oscillations
 

Newton’s law of gravitation. Motion of a particle in a central force field (motion is in a plane, angular momentum is conserved, areal velocity is constant). Kepler’s Laws (qualitative). Satellite in circular orbit and applications. Geosynchronous orbits. Weightlessness. Basic idea of Global Positioning System (GPS).

Oscillations: Simple harmonic motion. Differential equation of SHM and its solutions. Kinetic and Potential Energy, Total Energy and their time averages. Damped oscillations.       

Unit-4
Teaching Hours:15
Elasticity and Relativity
 

Elasticity: Hooke’s law - Stress-strain diagram - Elastic moduli-Relation between elastic constants - Poisson’s Ratio-Expression for Poisson’s ratio in terms of elastic constants - Work done in stretching and work done in twisting a wire - Twisting couple on a cylinder - Determination of rigidity modulus by static torsion - Torsion pendulum-Determination of Rigidity modulus and moment of inertia - q, η and σ by Searle’s method.

Special theory of relativity: Constancy of speed of light. Postulates of Special Theory of Relativity. Length contraction. Time dilation. Relativistic addition of velocities. 

Text Books And Reference Books:

[1].Resnick, R., Walker, J., & Halliday, D. (2015). Principles of physics (9th ed.): Wiley.

[2].Kittel, C. (2007). Mechanics: Berkeley physics course, Vol. 1: Tata McGraw- Hill.

[3].Sears, F. W., Zemansky, M. W., & Young H. D. (1986). University Physics: Addison- Wesley.

Essential Reading / Recommended Reading

[1].Basudeb, B. (2015). Engineering me