GANPAT UNIVERSITY

FACULTY OF SCIENCE

TEACHING AND EXAMINATION SCHEME Programme Bachelor of Science Branch/Spec. Microbiology

Semester II

Effective from Academic Year 2015-16

Effective for the batch Admitted in June 2015

Subject Code

Subject Name

Teaching scheme Examination scheme (Marks)

Credit Hours (per week) Theory Practical

Lecture(DT) Practical(Lab.) Lecture(DT) Practical(Lab.) CE SEE Total CE SEE Total

L TU Total P TW Total L TU Total P TW Total UMBA201FOB FUNDAMENTALS

OF BACTERIOLOGY 04 - 04 - - - 04 - 04 - - - 40 60 100 - - -

UCHA201GCH GENERAL CHEMISTRY-II 04 - 04 - - - 04 - 04 - - - 40 60 100 - - -

UPHA201GPH GENERAL PHYSICS-II 04 - 04 - - - 04 - 04 - - - 40 60 100 - - -

UENA201ENG ENGLISH-II 02 - 02 - - - 02 - 02 - - - 40 60 100 - - -

OPEN SUBJECT - 1 02 - 02 - - - 02 - 02 - - - 40 60 100 - - - UPMA202PRA PRACTICAL

MODULE-II - - - 02 - 02 - - - 04 - 04 - - - - 50 50

UPCA202PRA PRACTICAL MODULE-II - - - 02 - 02 - - - 04 - 04 - - - - 50 50

UPPA202PRA PRACTICAL MODULE-II - - - 02 - 02 - - - 04 - 04 - - - - 50 50

Total 16 - 16 06 - 06 16 - 16 12 - 12 200 300 500 - 150

GANPAT UNIVERSITY

FACULTY OF SCIENCE Programme Bachelor of Science Branch/Spec. Microbiology

Semester II Version 1.0.1.0

Effective from Academic Year 2015-16 Effective for the batch Admitted in July 2015

Subject code UMBA 201 FOB

Subject Name FUNDAMENTALS OF BACTERIOLOGY

Teaching scheme Examination scheme (Marks)

(Per week) Lecture(DT) Practical(Lab.) Total CE SEE Total

L TU P TW

Credit 04 -- -- -- 04 Theory 40 60 100

Hours 04 -- -- -- 04 Practical -- -- --

Pre-requisites:

Students should have basic knowledge of prokaryotic microorganisms of 10+2 level and basic methods of microbial control.

Learning Outcome:

The course will help the student to understand organization of prokaryotic cell, their nutrient requirements and control of microbial growth. In addition, it enables students to gain knowledge of bacterial taxonomy and nomenclature.

Theory syllabus

Unit Content Hrs

1 PROKARYOTIC CELL ORGANIZATION 1.1. Shape, size and arrangement of bacterial cell: Structure of bacterial cell: Surface

appendages of bacteria: General nature, arrangement, structure and role of flagella, Gneral nature and significance of pili, prosthecae and stalks.

1.2. Surface layers of bacteria: General nature and significance of capsule and slime layer, cell wall, cell membrane and Mesosomes.

1.3. Bacterial cytoplasm and cell organelles: Cytoplasm, cytoplasmic inclusions, nuclear material. 1.4. Bacterial endospore: Spore structure, sporulation and spore germination.

15

2 ITRODUCTION TO BACTERIAL NUTRITION & GROWTH 2.1. Nutritional diversities in bacteria. 2.2. Nutritional requirements of bacteria. 2.3. Composition and nutritional value of ingredients of growth media. 2.4. Cultivation methods of bacteria, Characteristics of growth in broth and solid media, modes

of cell division.

15

3 PRINCIPLES OF MICROBIAL CONTROL 3.1. General principles: Control by killing, inhibition and removal. 3.2. Physical agents of microbial control: Osmotic Pressure, Filtration (HEPA filters). 3.3. Chemical agents of microbial control: Ideal antimicrobial chemical agent, Major groups of

antimicrobial agents. 3.4. Phenolics, Phenol coefficient, Halogens, Surfactants, Alcohols, Dyes, antibiotics, Heavy

metals and gaseous agents.

15

4 INTRODUCTION TO BACTERIAL TAXONOMY AND NOMENCLATURE 4.1. Basic principles of Bacterial Taxonomy & Nomenclature. 4.2. Introduction to different systems of bacterial classification, modern systems. 4.3. Introduction to Bergey’s Manual of Systematic Bacteriology.

15

Text Books

1 Pelczar, M.J., Chan, E.C.S. and N.R. Kreig (1993). “Microbiology” 5th Edition, Tata Mc Graw Hill Publishing co. Ltd., New Delhi.

2 Prescott, M. J., Harley, J.P. and D.A. Klein (2002). “Microbiology”, 5th Edition, WCB Mc GrawHill, New York.

Reference Books

1 Dubey, R. C. and D. K. Maheshwari (2000). “General Microbiology”. S. Chand, New Delhi.

2 Stanier, R.Y., Adelberg, E.A. and J.I. Ingram. (1991). “General Microbiology”, 5th Edition, Printice Hall of India Pvt. Ltd., New Delhi.

3 Black, J. G. (2005). “Microbiology: Principles and Explorations”. John Wiley, U.S.A.

4 Tortora, G.J., Funke, B. R. and C. L. Case (2004). “ Microbiology : An Introduction”, Pearson Education, Singapore.

5 A.S. Rao (1997). “Introduction to Microbiology”. Printice‐Hall of India Pvt. Ltd., New Delhi.

6 Madigan M.T., Marinkl, J. M and J. Parkar (2000). “Brock Biology of Microorganisms”, 9th Edition, MacMillan Press, England.

Note:

Version 1.0.0.0 (First Digit= New syllabus/Revision in Full Syllabus, Second Digit=Revision in Teaching

Scheme, Third Digit=Revision in Exam Scheme, Forth Digit= Content Revision)

L=Lecture, TU=Tutorial, P= Practical/Lab., TW= Term work, DT= Direct Teaching, Lab.= Laboratory work

CE= Continuous Evaluation, SEE= Semester End Examination.

GANPAT UNIVERSITY

FACULTY OF SCIENCE Programme Bachelor of Science Branch/Spec. Microbiology

Semester II Version 1.0.1.0

Effective from Academic Year 2015-16 Effective for the batch Admitted in July 2015

Subject code UPMA 202 PRA

Subject Name PRACTICAL MODULE - II

Teaching scheme Examination scheme (Marks)

(Per week) Lecture(DT) Practical(Lab.) Total CE SEE Total

L TU P TW

Credit -- -- 02 -- 06 Theory -- -- --

Hours -- -- 04 -- 08 Practical -- 50 50

Pre-requisites:

Students should have basic knowledge of prokaryotic microorganisms of 10+2 level and basic methods of microbial control.

Learning Outcome:

The course will help the student to understand nutrient requirements prokaryotes and effect of various antimicrobial agents on microbial growth. In addition, it allows student to characterize bacteria on basis of microscopic as well as macroscopic observation.

Practical content

Content

1. Cultivation of different groups of bacteria. 2. Study of pigmented bacteria: S. aureus, S. epidermidis, M. luteus, S. marcescens, Ps. Aeruginosa. 3. Study of bacterial structure by structural staining: Spore, Capsule, Cell Wall. 4. Special staining: Spirochete by Fontana’s method. 5. Cultivation methods for bacteria a. Broth culture b. Agar slope / slant culture c. Agar plate method i.

Streak plate method ii. Pour plate method iii. Spread plate method 6. Cultivation of anaerobic bacteria by use of Thioglycolate broth. 7. Growth Curve of E. coli. 8. Effect of temperature and pH on growth of bacteria. 9. Study of effect (Bacteriostatic & Bactericidal) of chemicals on bacterial growth: heavy metals, phenol,

mercuric chloride, crystal violet, antibiotics by different methods: strip method, agar ditch method, agar cup method.

10. Morphological and biochemical characteristics of selected bacterial genera: Escherichia, Bacillus, Pseudomonas etc.

Text Books

1 Experimental Microbiology Vol. 1, Rakesh Patel.

Reference Books

Note:

Version 1.0.0.0 (First Digit= New syllabus/Revision in Full Syllabus, Second Digit=Revision in Teaching

Scheme, Third Digit=Revision in Exam Scheme, Forth Digit= Content Revision)

L=Lecture, TU=Tutorial, P= Practical/Lab., TW= Term work, DT= Direct Teaching, Lab.= Laboratory work

CE= Continuous Evaluation, SEE= Semester End Examination.

GANPAT UNIVERSITY

FACULTY OF SCIENCE Programme BACHELOR OF SCIENCE Branch/Spec

. MICROBIOLOGY

Semester II Version 1.0.1.0

Effective from Academic Year 2015-16 Effective for the batch Admitted in July 2015

Subject code UCHA 202 GCH Subject Name GENERAL CHEMISTRY-II

Teaching scheme Examination scheme (Marks)

(Per week) Lecture(DT) Practical(Lab.) Total CE SEE Total

L TU P TW

Credit 04 -- -- -- 04 Theory 40 60 100

Hours 04 -- -- -- 04 Practical -- -- --

Pre-requisites:

Students should have basic knowledge of chemistry up to 10+2 level.

Learning Outcome:

Basic information and concepts of coordination chemistry.

Knowledge of Werner’s co-ordination theory and CFT.

Introduction and periodic properties of actinides.

Understanding of stereochemistry of organic molecules.

Knowledge of various isomers and conformational analysis.

Basic concepts of chemical kinetics.

Understanding of nuclear chemistry and nuclear reactions.

Understanding the principal, mechanism and applications of volumetric analysis.

Theory syllabus

Unit Content Hrs

1 1.1 COORDINATION COMPOUNDS

History

Werner‟s Co-ordination theory and its experimental verification.

IUPAC Nomenclature of Complex.

Limitations of Valence bond theory of transition metal Complexes.

Crystal field theory (CFT).

Crystal field splitting of d-orbital in Oh and Td.

Factors affecting to the crystal field splitting.

Concept of Effective Atomic Numbers (E.A.N.) for Coordination Compounds.

Application of common complexes & chelates.

1.2 ACTINIDES Electronic Configuration of actinides. Oxidation state of actinides. Synthesis of 239

94 Pu, 24194 Pu.

02 STEREO CHEMISTRY OF ORGANIC COMPOUNDS

Introduction of Stereo Isomers;

Optical isomerism : Introduction, Elements of symmetry, Molecular chirality, Enantiomers, Optical activity, Properties of enantiomers, Chiral and achiral molecules with two stereogenic centers, Diastereomers, Threo and Erythro diastereomers, Meso

compounds, Racemic mixture.

Geometrical isomerism: Introduction and general discussion of geometric ( cis and trans ) isomers, Physical methods of structure determination, E-Z nomenclature.

Conformational isomerism: Introduction, Difference between conformation and configuration, Conformational analysis of ethane and n-butane with rotational and tortional Enthalpy diagram, Conformation of cyclo hexane, Axial and equitorial bonds, Newmann projection, Sawhorse formula, Fisher & flying wedge formula.

03 3.1 CHEMICAL KINETICS. Rate of reaction, Order of reaction, Molecularity.

• Rate equation for second order reaction. (a=b) &(a b). • Characteristics of second order reaction. • Rate equation for third order reaction. • Characteristics of third order reaction. • Numerical.

3.2 NUCLEAR CHEMISTRY. • Concept of Nuclear particle *α, β, γ, x-Ray, P+,n0,e-1] • Definition of Isotopes, Isotones, Isobars, Isomers. • Radioactive nuclear reaction. • Rutharford & Sodi‟s law (Group transfer law) • Packing fraction. • Nuclear’s stability.

• Nuclear binding energy. • N/Z ratio • Nuclear shell modal.

• Rate of ratio active disintegration, half life period, Average life period. Numerical.

04 4.1 INTRODUCTION TO VOLUMETRIC ANALYSIS Principle, Mechanism and Applications of,

• Acid-Base Titrations (Only strong acid Vs strong Base). • Redox Titrations (Only Fe(II) Vs KMnO4) • Complexo metric Titrations (Only Ca+2/Mg+2 Vs EDTA) • Precipitation Titrations ( Only Cl- Vs AgNO3). • Related Numericals.

Practical content

Text Books

1 ‘Source Book on Atomic Energy' by Glastone, 1969.

2 ‘Modern Inorganic Chemistry' by G.F. Liporni, ELBS, 4th edn, Colling Educational, 1983.

3 'Organic reaction and mechanism, P.S. Kalsi, New Age international Publishers.

4 Text book of organic Chemistry, P.S. Kalsi, New Age international Publishers.

5 Text book of Organic Chemistry, Arun Bahal, S.Chand.

6 Physical Chemistry (Question and Answer) by R.N. Madan, G.D. Tuli, S.Chand.

7 Fundamentals of Analytical Chemistry by Skoos & West.

8 Analytical Chemistry, Garry D. Christain.

Reference Books

1 ‘Inorganic Chemistry' D.F. Shriver, P.W. Atkinss and C.H. Longford, 3 rd edn, ELPS Oxford University Press, 1999.

2 ‘Nuclear and Redio Chemistry' by G fried lander, J.W. Kennedy, E.S. Macias and J.M. Miller, 3rd edn, John Wiley, 1981.

3 Essentials of Nuclear Chemistry' H.J. Arnical, 4th edn, New Age International, 1995

4 ‘Concise Inorganic Chemistry' J.D. Lee, 5th edn.

5 ‘Inorganic Chemistry', D.F. Shriver, P.W. Atkinss, 3rd edn, Oxferd, 1999.

6 Concise Inorganic Chemistry' J.D. Lee, 4th edn, Champman and Hall ELBS, 1991.

7 Inorganic Chemistry' by A.G. Sharp, 3rd edn, ELBS, Longman, 1990.

8 Organic Chemistry Vol. I & II, S.M. Mukherji, S.P.Singh, R.P. Kapoor.

9 Reaction mechanism in Organic Chemistry, S.M. Mukhergi, S.P. Singh. 3rd edn, Macmillan.

10 Reaction Mechanism and Reagents in Organic Chemistry, Gurdeep R. Chatwal 4th edn, Himalaya Publication House.

11 Advance Physical Chemistry by Gurdeepraj.

12 Organic Chemistry, R. Morrison and R. Boyd, 6th edn, Pearson Education 2003.

13 Organic Chemistry, T.W. Graham Solomons , 4th edn, John Wilay, 1998.

14 Principal of Physical Chemistry by Puri, Sharma, Pathania.

15 Chemical Thermodynamics by R.P. Rastogi and R.R. Misra.

16 Nuclear Chemistry by C.V. Shekhar, Dominent-Publisher, New Delhi.

17 Essentials of physical Chemistry by B.S. Bahal, Arun Bahal, G.D. Tuli.

18 Physical Chemistry by P.W.Atkins, 5th edn, Oxferd 1994 7th edn-2002.

19 Physical Chemistry by R.A. Albert and R.J. Silby, John Wiley1995.

20 Physical Chemistry by G.H. Barrow, 5th edn, Mac Graw Hill, 1988, 6th edn, 1996.

21 Physical Chemistry by W.J. Moore, 4th edn, Orient Longmans 1969.

22 Analytical Chemistry, Day & Underwood.

23 Analytical Chemistry by Lerry & Hergins.

24 Qualitative Analysis by A.I. Vogel, 5th edn.

Note:

Version 1.0.0.0 (First Digit= New syllabus/Revision in Full Syllabus, Second Digit=Revision in Teaching

Scheme, Third Digit=Revision in Exam Scheme, Forth Digit= Content Revision)

L=Lecture, TU=Tutorial, P= Practical/Lab., TW= Term work, DT= Direct Teaching, Lab.= Laboratory work

CE= Continuous Evaluation, SEE= Semester End Examination.

GANPAT UNIVERSITY

FACULTY OF SCIENCE Programme BACHELOR OF SCIENCE Branch/Spec

. MICROBIOLOGY

Semester II Version 1.0.1.0

Effective from Academic Year 2015-16 Effective for the batch Admitted in July 2015

Subject code UCHA 201 PRA Subject Name PRACTICAL MODULE - II

Teaching scheme Examination scheme (Marks)

(Per week) Lecture(DT) Practical(Lab.) Total CE SEE Total

L TU P TW

Credit -- -- 02 -- 02 Theory -- -- --

Hours -- -- 04 -- 04 Practical -- 50 50

Pre-requisites:

Before performing these practicals, students have basic knowledge of laboratory chemicals and apparatus which are used in performing chemistry practicals.

Learning Outcome:

Identification of organic compounds.

Practical knowledge of volumetric analysis.

Practical knowledge of carrying out melting and boiling points of various compounds.

Practical syllabus

Sr. No.

Name of Practical Hrs

1 Organic Chemistry 1) Identification of an organic compound through the functional group analysis, Determination of melting point and boiling point, Preparation of suitable derivative. 2) Candidate should perform the analysis of at least 10 compounds.

List of Compounds Acids: Benzoic acid, Cinnamic acid, Phthalic acid, Oxalic acid, Succinic acid Phenols: α−Naphthol, β− Naphthol Bases: p-Toludine, Diphenylamine, Aniline, Methyl aniline Neutrals: Naphthalene, Anthracene, Acetamide, Benzamide, Acetanilide, m-Dinitrobenzene, Urea, Thiourea, Toluene, Acetone, Benzaldehyde, Methy acetate, Ethyl acetate, Ethanol, 1-Propanol, Glycerol, Chloroform, Carbon tetrachloride, Chlorobenzene, Nitrobenzene.

2 Volumetric Titrations 1) To determine the strength of NaOH and Na2CO3 present in the solution mixture of

NaOH & Na2CO3 and to find out their percentage composition. 2) To determine the strength of NaHCO3 and Na2CO3 present in the solution mixture of

NaHCO3 & Na2CO3 and to find out their percentage composition. 3) To determine the Normality, gram/liter and molarities of H2C2O4, 2H2O and H2SO4 present in the solution mixture of H2C2O4, 2H2O & H2SO4 by using X N NaOH and

Y N KMnO4 solutions. 4) To determine the Normality, gram/liter and molarity of H2C2O4, 2H2O and K2C2O4

present in the solution mixture of H2C2O4, 2H2O & K2C2O4 by using X N NaOH and Y N KMnO4 solutions.

To determine the amount of Ca+2 and Mg+2 ion by EDTA solution from the mixture solution of CaCl2 and MgCl2.

3 Demonstrations • Melting point and Boiling point of an organic compound. • Calibration of burette and Pipette.

Text Books

1

Reference Books

1

Note:

Version 1.0.0.0 (First Digit= New syllabus/Revision in Full Syllabus, Second Digit=Revision in Teaching

Scheme, Third Digit=Revision in Exam Scheme, Forth Digit= Content Revision)

L=Lecture, TU=Tutorial, P= Practical/Lab., TW= Term work, DT= Direct Teaching, Lab.= Laboratory work

CE= Continuous Evaluation, SEE= Semester End Examination.

GANPAT UNIVERSITY

FACULTY OF SCIENCE Programme Bachelor of Science Branch/Spec. Microbiology

Semester II Version 1.0.1.0

Effective from Academic Year 2015-2016 Effective for the batch Admitted in July 2015

Subject code UPHA 201 GPH Subject Name GENERAL PHYSICS

Teaching scheme Examination scheme (Marks)

Lecture(DT) Practical(Lab.) Total CE SEE Total

L TU P TW

Credit 4 -- -- -- 4 Theory 40 60 100

Hours/Week 4 -- -- -- 4 Practical -- -- --

Pre-requisites:

Basic concepts of Secondary and Higher Secondary science.

Learning Outcome:

Students gain a fundamental knowledge about Solid State Physics, Optics, Electrostatics and Wave Mechanics

Theory syllabus

Unit Content Hrs

1

1.1 Solid State Physics: Crystalline and Amorphous Solids (1.1), Crystal Lattice and Crystal Structure (1.2), Translational Symmetry, Space, Unit Cell and Primitive Cell (1.3), Symmetry Elements in Crystals (1.4 [1.4.1 to 1.4.6]), Symmetry operations, The Seven crystal Systems (1.5), Coordination Number (1.5.1), Some importance crystal structure (1.6), Simple Cubic Structure (1.6.1), Body Centered Cubic Structure (1.6.2), Face Centered Cubic Structure, (1.6.3), Hexagonal closed packed Structure, Atomic Packing factor, Wigner-Seitz Cells (1.7), Miller Indices (1.8), The spacing of a set of crystal planes (1.11), Point Groups (1.12).

2

2.1 (a) Refraction through Lenses: Principal Foci (2.3), Least possible distance between an object & its real image in a convex lens (2.4), Derivation produced by a thin lens (2.5), Equivalent Focal Length of Two Thin Lenses Separated by a Finite Distance (2.6), Cardinal Points of an Optical system (2.8), Principal Foci and Focal Planes (2.9), Principal Points and Principal Planes (2.10), Nodal Points (2.11) Aberrations (3.1), Spherical aberration in a Lens (3.5), Chromatic aberration (3.12).

2.2 (b) Interference: Interference in thin films (8.15), Interference due to reflected light (8.16), Interference due to transmitted light (8.17), Newton‟s Rings (8.23), Determination of the wavelength of sodium light using Newton‟s Rings (8.24), Refractive Index of a Liquid using Newton‟s Rings (8.25)

3

3.1 (a) Electrostatics: Gauss‟s Law (4.21), Gauss‟s Law in Differential Form (4.22), Gauss‟s Law and Coulomb‟s Law (4.23), Force on The surface of a charged Conductor (4.25), Electrostatic Energy in the medium surrounding the charged conductor (4.26), Millikan‟s Oil drop Method for Determination of Electronic charge (4.29),

3.2 (b) Steady Current: Current and current density (8.6), Conservation of Charge i.e., Continuity Equation (8.8), Ohm‟s Law at a Point (8.11), Wieldmann and Franz Law (8.13), The Relaxation Time (8.14).

4

4.1 (a) Waves: Theory of Resonator (6.16), Dependence of the Frequency of Resonator on the size and the Shape of the Mouth (6.17), Velocity of Transverse Waves along a Stretched String (7.1), Laws of Transverse Vibration of Strings (7.3), Melde‟s Experiment (7.5), Kundt‟s Tube (7.13)

4.2 (b) Ultrasonic waves: Properties of Ultrasonics (11.23), Production of Ultrasonic Waves (11.24), Piezo‐Electric Oscillator (11.24.3), Magnetostriction Oscillator, Detection of Ultrasonic Waves (11.25), Applications of Ultrasonic waves (11.27), Determination of Velocity of Ultrasound in Liquids by Ultrasonic Interferometer.

Reference Books Unit – I Basic reference: Solid State Physics By Ajay Kumar Saxena (Macmillan India Limited) Other reference: 1. Introduction to Solid State Physics By C. Kittle ( John Willey) 2. Fundamental of Solid State Physics By Saxena, Gupta, Saxena (Pragati Prakashan) 3. Elements of Solid State Physics by J.P. Srivastava(PHI). Unit – II Basic reference: For (a) & (b) A Textbook of OPTICS By N.Subrahmanyam & Brij Lal (S.Chand & Company Ltd.) Other reference: 1. Optics and Atomic Physics By D.P. Khandelval (Himalaya publishing house) 2. Principles of Optics By B.K. Mathur (S.Chand & Company Ltd.) 3. Optics By Ajoy Ghatak (TMH Edition) Unit – III Basic reference: For (a) & (b) Electricity and Magnetism By K. K. Tewari (S. Chand & Company Ltd.) Other reference: 1. Electricity and Magnetism by Mahajan and Rangwala. 2. Electricity and Magnetism ‐ Berkley Physics Course Vol‐II Unit – IV Basic reference: For (a) & (b) Waves and Oscillations By N. Subrahmanyam and Brij Lal (Vikas Publishing House Pvt. Ltd., New Delhi) – Second Revised Edition. Other reference: 1. University Physics By Sears, Zeemansky and Young (Narosa Publishing House) 2. A Text Book on Ocillations, Waves and Acoustics By M. Ghosh & D. Bhattacharya (S.Chand) 3. Vibration, Waves & Heat By Sears and Zeemansky

GANPAT UNIVERSITY

FACULTY OF SCIENCE Programme Bachelor of Science Branch/Spec. Microbiology

Semester II Version 1.0.0.0

Effective from Academic Year 2013-2014 Effective for the batch Admitted in July 2013

Subject code UPHA 201 GPH Subject Name GENERAL PHYSICS

Teaching scheme Examination scheme (Marks)

Lecture(DT) Practical(Lab.) Total CE SEE Total

L TU P TW

Credit -- -- 2 -- 2 Theory -- -- --

Hours/Week -- -- 4 -- 4 Practical -- 50 50

Pre-requisites:

Basic concepts of Secondary and Higher Secondary science.

Learning Outcome:

Students will gain experimental knowledge about Solid State Physics, Optics, Electrostatics and Wave Mechanics

Practical content 01 Bar Pendulum : Determination of „K‟ and „g‟ 02 Double Refraction by Calcite prism. 03 Newton‟s rings : Determination of R and λ using sodium light. 04 Melde‟s Experiment. 05 Find out Refractive index of prism using spectrometer. 06 Study of line spectra. 07 To determine the ratio of magnetic moments of two magnets by using vibrational magnetometer. 08 Measurement of the distance using ultrasonic sensors 09 Determination of the velocity of ultrasonic waves in a non-electrolytic liquid by ultrasonic interferometer. 10 Determination of self-inductance „L‟ of Inductor. 11 Study of parallel resonance with frequency variation. 12 Study of transformer. 13 P‐N Junction diode as Full Wave Rectifier (i) Without filter (ii) With Series inductor Filter (iii) With Shunt Capacitor Filter. Calculation of percentage of regulation. 14 Bridge Rectifier (i) Without filter (ii) With Series inductor Filter (iii) With Shunt Capacitor Filter. Calculation of percentage of regulation. 15 Verification of Maximum power transfer theorem. 16 Basic Logic Gates AND, OR , NOT

GANPAT UNIVERSITY

FACULTY OF SCIENCE Programme BACHELOR OF SCIENCE Branch/Spec. MICROBIOLOGY

Semester II Version 1.0.1.0

Effective from Academic Year 2015-16 Effective for the batch Admitted in July 2015

Subject code UICB 201 ITC Subject Name INTRODUCTION TO COMPUTERS-II

Teaching scheme Examination scheme (Marks)

(Per week) Lecture(DT) Practical(Lab.) Total CE SEE Total

L TU P TW

Credit 02 -- -- -- 02 Theory 40 60 100

Hours 02 -- -- -- 02 Practical -- -- --

Pre-requisites:

Awareness of MS-office and its utility.

Somewhat typing knowledge is must.

Familiarity of computer peripherals and its usage.

GUI base applications and its practise.

Information regarding Internet and communication.

Learning Outcome:

Effective documentation creation using various inbuilt options of MS-Word.

Network types, usage and commercial requirements shall be known.

Understanding the web technology, its requirements and basic terminology.

Using Internet effectively along with the advancement in the recent trends.

Dealing with the search engines and its back end process.

Theory syllabus

Unit Content Hrs

1

Elements of Word Processing: Word Processing Basics; Opening and Closing of documents; Text creation and Manipulation; Formatting of text; Table handling; Spell check, language setting and thesaurus; Printing of word document.

15

2 Internet Communication: Basic of Computer networks; LAN, WAN; Concept of Internet; Applications of Internet; connecting to internet; What is ISP; Knowing the Internet; Basics of internet connectivity related troubleshooting.

WWW and Web Browsers: World Wide Web; Web Browsing softwares, Search Engines; Understanding URL; Domain name; IP Address

15

Note:

Version 1.0.0.0 (First Digit= New syllabus/Revision in Full Syllabus, Second Digit=Revision in Teaching

Scheme, Third Digit=Revision in Exam Scheme, Forth Digit= Content Revision)

L=Lecture, TU=Tutorial, P= Practical/Lab., TW= Term work, DT= Direct Teaching, Lab.= Laboratory work

CE= Continuous Evaluation, SEE= Semester End Examination.

GANPAT UNIVERSITY

FACULTY OF SCIENCE Programme Bachelor of SCIENCE Branch/Spec

. MICROBIOLOGY

Semester II Version 1.0.1.0

Effective from Academic Year 2015-16 Effective for the batch Admitted in July 2015

Subject code UENA 202 ENG Subject Name ENGLISH-II

Teaching scheme Examination scheme (Marks)

(Per week) Lecture(DT) Practical(Lab.) Total CE SEE Total

L TU P TW

Credit 02 -- -- -- 02 Theory 40 60 100

Hours 02 -- -- -- 02 Practical -- -- --

Pre-requisites:

Students should have understanding level of basic grammar.

Students should have basic vocabulary.

Learning Outcome:

Understanding of advance level grammar.

Equipping students with new vocabulary to be utilised as per need ahead.

Knowledge of prose and composition.

Theory syllabus

Unit Content Hrs

1 Selected Prose 9

1. The Judgment Seat of Vikramaditya 2. The Selfish Giant 3. Engine Trouble 4. Hardy and Ramanujan 5. Lectures 6. Self-portrait (From Contemporary English Prose)

2 Basic English Grammar 7

Degree of Comparison Reported Speech Causal Constructions Concord Conditionals

3 Vocabulary 7

Phrasal Verbs, Word Analogy, Homophones and Homonyms

4 Composition 7

Essay Writing, Describing Objects, Maps and Charts, Job Application with Resume

Practical content

Text Books

1 Contemporary English Prose, Edited By: KPK Menon, OUP

Reference Books

1 Practical English Grammar, Thomson &Martinate

Note:

Version 1.0.0.0 (First Digit= New syllabus/Revision in Full Syllabus, Second Digit=Revision in Teaching

Scheme, Third Digit=Revision in Exam Scheme, Forth Digit= Content Revision)

L=Lecture, TU=Tutorial, P= Practical/Lab., TW= Term work, DT= Direct Teaching, Lab.= Laboratory work

CE= Continuous Evaluation, SEE= Semester End Examination.