Unit 4r Thermodynamics-I (13HOURS) 4 Entropy 3 Black board

Government of Karnataka Department of Collegiate Education

Government First Grade College, KGF

LESSON PLAN FOR THE ACADEMIC YEAR 2018-19

(ANNEXURE-L2) Criterion 01

(Metric-1.1.1) Programe: BSc Course/Paper Name: Paper-: Phy- T101 Mechanics-I Heat and Thermodynamics-I Semester I SEM Class: I3.Sc Name of the Faculty ;M.KRISHNAMURTHY

R.SOUND AR

S.MALLIGA S.PR1NCY PRIYA Total Hours; 58

SI.

No.

Topic covered No. of Lecture

Hours

Methodology

/pedagogy

2018-2019 Initi

al Unit I: Mcchanics-I (13HOURS)

1 Motion

4 Black board July 151 week RS

2 Friction

4 Black board July 2nd week RS

3 Planetary motion

2 Black board July 3rd week RS

4 Satellite motion 3 Black board July 4t,1 week RS

Total hours 13

Unit 2 : Mechanics-I and Heat (13HOURSI

1 Work energy

4 Black board Augl51 week SM

2 System of particles 4 Black board Aug2rid week SM

3 Black body of radiation 5 Black board Aug 3rd week SM

Total hours: 13 Internal Assessment

Test/Quiz/Assignment - 01 3 lA/Test/Assignment Aug 3rd week RS

Unit 3:Thermodynamics-I (13HOURS) 1

Kinetic Theory of Gases 6 Black board Sep Is1 week SP

2 Transport phenomena 2 Black board Sep2nd week SP

3 Real Gases 5 Black board Sep 3rd week SP

Total hours: 13

Govt First Grade College K.G. F.- 563 122

Unit 4r Thermodynamics-I (13HOURS)

I Basic Concepts and the Zeroth law of

thennodynamics 3 Black board Oct 1st week SP

2 First law of thermodynamics 3 Black board Oct2rd week SP

3 Second law of thennodynamics 4 Black board OctB"1 week SP

4 Entropy 3 Black board Oct 4,h week SP

Total hours : Total hours:13

Jnternal Assessment

Test/Quiz/Assignment - 02

3 . lA/Test/Assigmnent Oct Brd week SM

Date of submission ofIA Marks ;25/10/2018

Signature of Facultj Signature oiHOD —Fjnyjjwl RmFCIPAL

Govt. First Grade College

K. G. F. - 563 122





(Metric -1.1.1) Programe: BSc Course/Paper Name Paper-I: Phy-102 PHYSICS-P 102, PRACTICAL PHYSICS-1

Semester I SEM Class: I.B.Sc Name of the FacultyrM.KRISHNAMURTHY

R.SOUNDAR S.MALLIGA S.PRINCY PR1YA Total Hours: 33

SI.

No.


Hours

Methodology

/pedagogy

2018-2019 Initial

PHYSICS-P 102, PRACTICAL PHYSICS-1

1

Verification of principle of

conservation of energy 3 PHYSICS LAB

11/07/2018 RS

2 Simple pendulum- 3 PHYSICS LAB 18/07/2018 SM

3 Determination of coefficient of

viscosity by stokes method

3 PHYSICS LAB 25/07/2018 SP

4 Work done by variable force 3 PHYSICS LAB 01/08/201.8 SP

5 Interfacial tension by drop weight

method

3 PHYSICS LAB 08/08/2018 RS

6 Specific heat by Newton's law of

cooling

3 PHYSICS LAB 15/08/2018 SM

7 Verification of Newton's law of

cooling


8 Determination of Stefan's constant by

emissivity method


9 Verification of Stefan's law 3 PHYSICS LAB 05/08/2018 MK

10 Determination of coefficient of static

kinetic and rolling friction

3 PHYSICS LAB 12/08/2018 MK

Internal Assessment


3 lA/Test/Assignment 10/09/2018 RS

Date of submission of IA Marks :25/10/2018

r Signature o? Faculty Signature qf HOD (pal

^CIPAL

Govt. First Grade Collegi

K. G. F. - 563 122



LESSON PLAN FOR THE ACADEMIC YEAR 2018-19 (ANNEXURE-1.2)

Criterion 01

(Metric-1.1.1) Programe: BSc Course/Paper Name: Paper-: Phy III- T301 Electricity and Magnetism

Semester III SEM

Class; II.B.Sc Name of the Faculty: M.KRISHNAMURTHY

R. SOUND AR S.MALLIGA S.PRINCY PR1YA Total Hours; 58

SL

No.


Hours

Methodology

/pedagogy

2018-2019

Initial

Unit 1: Electricity (13HOURS)

1 DC Circuit Analysis 8 Black board

Julylst and,2nd week

RS

2 Transient Current 5

Black board Ju!y3rd and 4^ week

RS

3 Total hours 13

Unit 2 : Magnetism (1311 OURS)

1 Magnetic Field and Forces 13

Black board Auglst to A^Hveek

-SM

Total hours;13 Internal Assessment Test/Quiz/Assignment- 01 3

lA/Test/Assignment Aug 4a,week RS

Unit 3: Magnetism (13HOURS)

1 Scalar and Vector Field 3 Black board

Sep lsl Week SP

2 Electromagnetic waves 10 Black board Sep Is 1 to 3rd

Week- SP

Total hours: 13

Unit 4: Electricity (i3HOURS)

1 .Alternating Current

6 Black board Oct I31, 2nd

week

SP

2 Thermoelectricity 7 Black board Oct 3,4 ^ week SP

Total hours; Total hours:!3

Internal Assessment

Test/Quiz/Assignment - 02 3 lA/Test/Assignment 05/10/2018 SM

Date of submission of 1A Marks :25/10/2018

n [w*

Signature'of Faculty SignaturtÎIOD R1

Govi. FH^rGrade College

K. G. F. -563 122



LESSON PLAN FOR THE ACADEMIC YEAR 2018-19 (ANNEX URE-1.2)

Criterion 01 (Metric -1.1.1)

Programe: BSc Course/Paper Name: Paper-3: Phy-302 PHYSICS-P 302, PRACTICAL PHYSICS-HI Semester III SEM

Class: II.B.Sc Name of the Faculty:M.KRISHNAMURTHY

R.SOUND AR

S.MALLIGA S.PRINCY PRIYA Total Hours:27

SI.

No.


Hours

Methodology

/pedagogy

2018-2019 Initial

PHYSICS-P 302, PRACTICAL PHYSICS-IH 1 To find L and C by equal voltage

method 3 PHYSICS LAB 15/07/2018 RS

2 Resonance in LCR series circuit 3 PHYSICS LAB 22/07/2018 RS

3 Resonance in LCR parallel circuit 3 PHYSICS LAB 29/07/2018 SM

4 Verification of The venin's theorem 3 PHYSICS LAB 05/08/2018 SM

5 Verification of Superposition theorem 3 PHYSICS LAB 19/08/2018 MK

6 Verification of maximum power transfer theorem


7 Maxwell's Impedance bridge 3 PHYSICS LAB 04/09/2018 SP

8 Density's bridge 3 PHYSICS LAB 15/09/2018 'SP

Internal Assessment Test/Quiz/Assignment - 02 3

LA/Test/Assignment 28/09/2018 SM

Date of submission of IA Marks : 25/10/2018

Signature ot Faculty Signature M HOD RI

Govt. Frst Grade College

Kr G. F. - 563 122




(ANNEXURE-1.2) Criterion 01

(Metric-1.1.1) Programe: BSc Course/Paper Name; Paper-V: Phy-T (Course 501) (STATISTICAL PHYSICS, QUANTUM

MECHANICS-1, ATMOSPHERIC PHYSICS AND NAJNOMATERIALS) Semester V SEM

Class: III.B.Sc Name of the Faculty:M.KRISHNAMURTHY

R.SOUNDAR

S.MALLIGA S.PR1NCY PRIYA Total Hours: 52

SI.

No.


Hours

Methodology

/pedagogy

2018-2019 Initial

Unit 1:STATISTICAL PHYSICS (15HOURS)

1 Basic concepts of state of the system 2 Black board

July 1st week RS

2 Maxwell- Boltzmann Statistics

3

Black board July2nd week RS

3 Bose-Einstein Statistics

5

Black board July3nl week RS

4 Fermi-Dirac Statistics 5 Black board July4lh week RS

Total hours:

15

Unit 2 : QUANTUM MECHANICS-I (15HOURS)

1 Introduction to Quantum Mechanics

Classical physics 5

Black board Aug 1st, week RS

2 De-Broglie's hypothesis of matter

waves

10 Black board Sep 2nd - 4th,

week

RS

Total hours:!5

Internal Assessment

Test/Quiz/Assignment - 01 3

I A/Test/Assi gnraent Sep 4th, week RS

Unit 3: ATMOSPHERIC PHYSICS AND NANOMATERIALS (16HOURS)

1

Earth Atmosphere 4 Black board

Oct Ist week SM

2 Atmospheric Motion 6 Black board Oct 2nd ,3rd

week

SM

3 Nano Material 6 Black board Oct 4th week SM

Total hours: 16

Internal Assessment

Test/Quiz/Assignment - 02 3 lA/Test/Assignm ent 15/10/2018 RS


u

Signature of Faculty SignatureM HOD

Govt. B(s^rade College

K. G. F. -563 122





Programe: BSc Course/Paper Name: Paper-V: Phy-(Course 502) PHYSICS-P 502, PRACTICAL PHYSICS-V (A) Semester V SEM

Class: III.B.Sc Name of the Faculty: M.KRISHNAMURTHY

R. SOUND AR


SI.

No.


Hours

Methodology

/pedagogy

2018-2019 Initial

1 PHYSICS-P 502, PRACTICAL PHYSICS-V(A)

2 Monte Carlo Experiments and error

analysis


3 Dice experiments-to study statistical

nature of result


4 Characteristics of a photo cell-

determination of stopping potential


5 Determination of plank's constant 3 PHYSICS LAB 12/08/2018 RS

6 Regulated power supply- (Zener diode) 3 PHYSICS LAB 19/08/2018 SM

7 Determination of transistor h-

pararaeters


8 Frequency response of a CE amplifier 3 PHYSICS LAB 03/09/2018 SM

9 Transistor as a switch and active

device


10 Emitter follower 3 PHYSICS LAB 18/09/2018 MX

11 Application of CRO in the (a) study of

Lissajous fig(b) calculation of rms

velocity ( c Calculation of frequency

of AC


Internal Assessment

Test/Quiz/Assignment — 02

3 IA/T est/Assignment 09/10/2018 SP


' r%JNfefHA.L Govt. First Grade College

K. G. F. - 563 122



LESSON PLAN FOR THE ACADEMIC YEAR 2018-19 (ANNEXLIRE-1.2)


Programe: BSc

Course/Paper Name: Paper-V: Phy-T503 Astrophysics, Solid State Physics and Semiconductor

physics Semester V SEM

Class: IILB.Sc Name of the Faculty: M.KRISHNAMURTHY

R.SOUNDAR S.MALLIGA S.PRINCY PRIYA Total Hours: 51

SI.

No.


Hours

Methodology

/pedagogy

2018-2019 Initia 1

Unit 1; Astrophysics (I5HOURS)

1 Parallax and distance.

Luminosity of stars 3 Black board

July 1st week SM

2 Stellar classification Gravitational

potential energy 2

Black board July 2nd week SM

3 Surface or effective temperature and colour of a star 5

Black board July 3rd week SM

4 Evolution of Stars

5

Black board July 4th week SM

Total hours:

15

Unit 2 : Solid State Physics (15HOURS)

I Crystal System and x-ray

2

Black board Aug 1st week SM

2 Continuous and Characteristic x-ray

Spectra 4

Black board Aug 2nd ,3rd

week SM

3 Free Electron theory of Metals

5

Black board Aug 4^ ,sep

1st week

SM

4 Hall Effect

1

Black board Sep 2nd week SM

5

Superconductivity

3

Black board SepS"1,4*

week

SM

Total hours: 15

Internal Assessment


lA/Test/Assignment Sep 4lh, week SM

Unit 3; Semiconductor Physics(15HOURS)

1

Semiconductor Physics 4 Black board

Oct 1st week RS

2 P-N Junction Diode 2 Black board Oct 2nd week RS

3 Special Diode 4 Black board OctS"1 week

RS

4 Transistors 5 Black board Oct 4a' week RS

Total hours : 15 RS

Internal Assessment


3 IA/T est/Assignment 15/10/2018 RS


Signature of Faculty Signature HOD

Govt. first Grade College

K. G. F. - 563 122

Government of Karoataka Department of Collegiate Education




Programe: BSc Course/Paper Name: Paper-VI: Phy-(course504) PHYSICS-P 504, PRACTICAL PHYSICS-V (B)

Semester V SEM

Class: ULB.Sc Name of the Faculty:M.KRISHNAMURTHY

R. SOUND AR


SL

No.


Hours

Methodology

/pedagogy

2018-2019 Initial

PHYSICS-P 504, PRACTICAL PHVSICS-VB)

1 Parallax Method-Distance object using

Trigonometric parallax


2 HR-Diagram 3 PHYSICS LAB 17/07/2018 SM

3 Analysis of stellar Spectra 3 PHYSICS LAB 21/07/2018 SM

4 .Analysis of Sun sport Photographs and

solar rotation period


5 Mass luminosity curve-Estimation of

mass of a star)


6 Mass of binary stars 3 PHYSICS LAB 12/08/2018 RS

7 Semiconductor temperature sensor 3 PHYSICS LAB 19/08/2018 RS

8 Temperature coefficient of resistance

and energy gap of thermistor


9 LED Characteristics and spectral

response


10 Analysis of X-ray diffraction pattern 3 PHYSICS LAB 11/09/2018

MK

11 Determination of Fermi energy of a

metal

PHYSICS LAB 18/09/2018 SP

Internal Assessment


3 lA/Test/Assignment 25/09/2018 SP

Date of submission of IA Marks :25/10/20I8

Sigltature of Faculty SignatureTpf HOD



LESSON PLAN FOR THE ACADEMIC YEAR 2018-19 (ANNEXURE-L2)


Programe; BSc Course/Paper Name: Paper-: Phyll- T 201 Mechanics-2 Heat and TKermodynamics-2

Semester IISEM

Class: I.B.Sc Name of the Faculty :M.KRISHNAMURTH\

R.SOUNDAR S.MALLIGA S.PRINCY PRIYA Total Hours:5J

SI.

No.


Hours

Methodology

/pedagogy

2018-2019 Initial

Unit 1: Mechanics-2(13HOURS)

1 Oscillation 6 Black board

Jan 3[d week SP

2 Elasticity 7

Black board Jan ,4 s11 week

Feb 1st week SP

Tola! hours; 13

Unit 2 : Heat and Thermodynaraics-2 13HOURS)

I Thermodynamics potentials 4

Black board Feb 1sl week SP

2 Phase transition of the first order 3 Black board Feb 2nd week SP

3 Low temperature physics 4 Black board Feb 3rd week SP

4 Liquefaction of gases 2 Feb 4til week SP

Total hours: 13


lA/Test/Assignment Feb 4th week RS

Unit 3: Heat and Thermodynamics-2 13HOURS) 1

Frames of reference 5 Black board March 151 week RS

2 Special Theory of Relativity 8 Black board Mar 2nd ^

week RS

Total horns; 13

Unit 4: Heat and Thcrmodynainics-2 (13HOURS)

1 Moment of Inertia

9 Black board Marc4,h week

April 1st week

SM

2 Waves 4 Black board April2ndweek SM

Total hours : Total hours:!3

Internal Assessment


IA/T est/Assignment April 3rdweek SM


Sigfeature of Faculty Signature of HOD AL L\

Govt. tirade College

K. G. F. - 563 122




Criterion 01

(Metric -1.1.1)

Programc: BSc Course/Paper Name; Paper-2: Phy-202 PHYSICS-P 202, PRACTICAL PHYSICS-II

Semester II SEM Class; I.B.Sc Name of the Faculty:M.KRISHNAMURTHY

R.SOUNDAR S.MALLIGA

S.PRINCY PR1YA Total Hours:33

SL

No.


Hours

Methodology

/pedagogy

2018-2019 Initial

PHYSICS-P 102, PRACTICAL PHYSICS-II 1 Bar pendulum-deterrnination of- g 3 PHYSICS LAB 02/02/2019 RS

2 Spring mass Static case to determine 'k'


3 Couple oscillator-string coupled with change of tension


4 Verification of parallel and

perpendicular axis theorem


5 Searle's double bar 3 PHYSICS LAB 06/03/2019 SM

6 Q by single Cantilever 3 PHYSICS LAB 13/03/2019 SM

7 q by uniform bending 3 PHYSICS LAB 20/03/2019 SP

8 Fly wheel 3 PHYSICS LAB 28/03/2019 SM

9 N by dynamic method 3 PHYSICS LAB 07/04/2019 MK

10 q by stretching 3 PHYSICS LAB 14/04/2019 MK

Internal Assessment

Test/Quiz/Assignment - 02 3 lA/Test/Assignment 21/04/2019 SP


Signature of Faculty Signature, of HOD


K. G. F. - 563 122



LESSON PLAN FOR THE ACADEMIC YEAR 2018-19 (ANNEXURE-L2)

Criterion 01

(Metric-1.1.1) Programe; BSc Course/Paper Name: Paper-: Phy- T401- OPTICS AND FOURIER SERIES Semester IVSEM

Class: II.B.Sc Name of the Faculty: M.KR1SHNAMURTHY

R.SOUNDAR S.MALLIGA S.PRINCY PR1YA Total Hours;5l

SI.

No.


Hours

Methodology

/pedagogy

2018-2019 Tuitial

Unit I: OPTICS (13HOURS)

1 Wave optics 3 Black board

Jan 3rd week RS

2 Interference

1 Black board Jan 3rd week RS

3 Coherent source by division of wave

front 5 Black board Jan4lh week RS

4 Coherent source by division of amplitude

4 Black board Feb|lJ week RS

Total hours: 13

Unit 2 : OPTICS (13HOURS)

1 Diffraction-Fresnei diffraction 7

Black board Feb, 2nd 3ld

week SM

2 Frauohoffer diffraction 6 Black board Feb,4Sveek

Marc 1st week SM

Total hours:13


LVTest/Assigninen

t

Feb,3rd week RS

Unit 3: OPTICS (13HOURS)

1 Polarization 6 Black board

Marc2aJweek SM

2 Lasers 7 Black board Mar 3rd ,4th

week SM

Total hours: 13

Unit 4: FOURIER SERIES (13HOURS)

1 Fourier series

9 Black board

April 131,2'"i

week

SP

2 Optical Fibers 4 Black board April 3rd week - SP

Total hours : Total hours :13

Internal Assessment

Test/Quiz/Assignment - 02 3 lA/Test/Assignraent 28/04/2019 SP


v.

Signature Of Faculty Signature of HOD 5AL

Govt. TTrst Grade College

K. G. F. - 563 122





Programe: BSc Course/Paper Name Paper-4: Phy-402 PHYSICS-P 402, PRACTICAL PHYSICS-IV Semester IV SEM Class: II.B.Sc Name of the Faculty: M.KRISHNAMURTHY

R.SOUNDAR


SI.

No.


Hours

Methodology

/pedagogy

2018-2019 Initial

PHV SICS-P 402, PRACTICAL PHYSICS-IV

1 Refractive index of a liquid by parallax 3 PHYSICS LAB 27/01/2019 RS

2 Focal length of combination of lenses separated by a distance


3 Air wedge 3 PHYSICS LAB 11/02/2019 SM

4 Newton's rings 3 PHYSICS LAB 18/02/2019 SM

5 Diffraction grating in normal incidence 3 PHYSICS LAB 25/02/2019 MK

6 Diffraction grating in minimum deviation


7 Diffraction of Laser t a metal scale 3 PHYSICS LAB 09/03/2019 SP

8 Diffraction of Laser at a wire 3 PHYSICS LAB 26/03/2019 SP 9 Internal Assessment


IA/Test/Assignment 04/04/2019 RS

Date of submission of IA Marks ;10/05/20l9

Signature of Faculty Signaturctof HOD pMeiPAL

Govt, Firsf 3rade College

K. G. F. - 553 122

Government of Karoataka Department of Collegiate Education




(Metric -1.1.1) Programe: BSc Course/Paper Name; Paper-VII: Phy-T 601 ATOMIC, MOLECULAR AND NUCLEAR PHYSICS Semester VI SEM Course 601

Class: III.B.Sc Name of the Faculty : M.KRISHNAMURTHY

R.SOUNDAR S.MALLIGA

S.PRINCY PRIYA Total Hours: 51

SI.

No.


Hours

Methodology

/pedagogy

2018-2019 Initial

Unit 1: ATOMIC,MOLECULAR PHYSICS(15HOURS)

1 Vector Model of Atom

10 Black board

Janl-4th week SM

2 Molecular Physics

5

Black board Feb 1st week SM

•3 Total hours:

15

Unit 2 : RADIOACTIVE DECAY DETECTOR AND ACCELERATORS (15HOURS)

1 Alpha practical scattering

2

Black board Feb3rd week- RS

2 Radioactive Decay

3

Black board March 1st week RS

3 Alpha decay

3

Black board Marc 2al week RS

4 Beta decay

2

Black board Marc3rd week RS

5

Detectors

3

Black board

Marcd* week

RS

6 Particle accelerators 2 Black board April I31 week RS

Total hours:15

Internal Assessment


LA/Test/Assignment April 2nd week SM

UNIT-III NUCLEAR REACTOR

AND PARTICAL PHYSICS 15

HOURS -

1 Nuclear Reactor 8 Black board April2nd '3rd

week SM

2 Elementary Particles 7 Black board April 4 th week SM

Total hours ; 15

Internal Assessment

Test/Quiz/Assignment - 02 3 LA/Test/Assi gnment 28/04/2019 SM

Date of submission of IA Marks :10/05/20!9

Sigrtature ofFaculty Signature of HOD 'AL

GovKi^st'Grade College

K. G. F. - 563 122




Criterion 01

(Metric -1.1.1) Programe; BSc Course/Paper Name; Paper-VII: Phy-(course 602) PHYSICS-P 602, PRACTICAL PHYSICS-VI (A) Semester VI SEM

Class: IE.B.Sc Name of the Faculty:M.KRlSHNAMURTHY

R.SOUNDAR S.MALLIGA


SI.

No.


Hours

Methodology

/pedagogy

2018-2019 Initial

PHYSICS-P602, PRACTICAL PHYS CS-VI(B)

1 Soraerfield fine structure constant

determination 3 PHYSICS LAB 30/01/2019 RS

2 Determination of e/m by Thomson's

method


3 Characteristics of GM counter 3 PHYSICS LAB 14/02/2019 SM

4 Analysis of baud spectrum of PN

molecule


5 Analysis of rotational spectrum of

HBR


6 To verify and design AND,OR,using

NAND gates, OR gates

3 PHYSICS LAB 05/032019 MK

7 Digital Half adder using logic gates 3 PHYSICS LAB 12/03/2019 SP

8 Digital Full adder using logic gates 3 PHYSICS LAB 19/03/2019 "SP

9 Half Subtract or using logic gates ICs 3 PHYSICS LAB 26/03/2019 RS

10 Full Subtract or using logic gates ICs 3 PHYSICS LAB 04/04/2019 RS

Internal Assessment


3 LVTest/Assignraent 15/04/2019 RS

Date of submission of IA Marks : 10/05/2019,

RI Siî^tiire,lof Faculty Signatu HOD kl

LL

Govt. Fi^Grade College

K. G. F. - 563 122



LESSON PLAN FOR THE ACADEMIC YEAR 2018-19 (ANNEXURE-I.2)


Programc: BSc

Course/Paper Name; Paper-VIII: Phy-T 603 ELECTRONICS, MAGNETIC MATERIAL AND

QUANTUM MECHANICS-11 Semester VI SEM Class: m.B.Sc Name of the Faculty:M.KRISHNAMURTHY

R.SOUNDAR

S.MALLIGA S PRINGY PRIYA Total Hours: 51

SI.

No.


Hours

Methodology

/pedagogy

2018-2019 Initial

Unit 1: OP AMPS (15HOURS)

1 Operational amplifiers

2 Black board

Jan4,h week RS

2 Feedback Concept

2

Blackboard Feb 1st week RS

3 Linear Application

2

Black board Feb 2ndweek RS

4 Op amp Oscillators

2

Black board Feb2nd week RS

5 Digital Electronics.

Number System 2

Black board Feb 3rd week RS

6 Logic gates and truth tables 1 Black board Feb 3"* week RS

7 Boolean laws and theorems 2 Black board Feb 4lh week RS

8 Combination Logic 2 Black board Feb 4lh week RS

Total horns:

15

Unit 2 : Magnetic properties of matter and Dielectrics (15HOURS)

1 Magnetic properties of matter

3

Black board Mar 1sl week SM

2 Classical Langevin Theory

5

Black board Mar 2nd week SM

3 Dielectrics

7

Black board Mar 3rd week SM

Total hours;! 5

Internal Assessment

Tcst/Quiz/Assignnient- 01 3

1A/T est/Assigmnent Mar 4th week SM

Unit 3: QUANTUM MECHANICS-II (15HOURS)

1

Concept of wave firaction 1 Black board

April 1st week RS

2 Development of time dependent and

independent equation

1 Black board April Is1 week RS

3 Quantum mechanical operators 1 Black board April Is1 week RS

4 Application of Schrodinger equation 2 Black board May 151 week RS

5 Particle in one dimensional box 1 Black board May 151 week RS

6 Derivation of Eigen function and Eigen

values 1

Black board May 2nd week RS

7 Development of Schrodinger equation

for one dimensional Linear harmonic

oscillator

2

Black board May 2nd week RS

8 Rigid rotator 2 Black board May2nd week RS

9 Hydrogen atom 2 Black board May 3rd week RS

10 Mention of Eigen function and Eigen

value for ground state.

2 Black board May 3rd week RS

Total hours ; 15

Internal Assessment

Tcst/Quiz/Assignment - 02 3

lA/Test/Assigmnent May Ist week RS

Date of submission of IA Marks ;10/05/2019

Signature of Faculty Signature\of HOD

Govt. FibrGracje College

K. G. F. - 563 122

Government of Kamataka Department of Collegiate Education




Programe: BSc Course/Paper Name; Paper-VIH: Phy-(course604) -604, PHYSICS PRAT1CALS VI (B) Semester VI SEM

Class: lILB.Sc Name of the Faculty : M.KRISHNAMURTHY

R.SOUNDAR S.MALLIGA


SI.

No.


Hours

Methodology

/pedagogy

2018-2019 Initial

PHYSICS-P 604, PRACTICAL PH\ SICS-VI (B)

1 Low pass filter op-am 3 PHYSICS LAB 28/01/2019 RS

2 High pass filter op-am 3 PHYSICS LAB 05/02/2019 RS

3 OP-amp inverting amplifier ac and dc 3 PHYSICS LAB 12/02/2019 SM

4 OP-amp non -inverting amplifier ac

and dc


5 OP-amp Summing amplifier ac and dc 3 PHYSICS LAB 26/02/2019 MX

6 Determination of dielectric 3 PHYSICS LAB 04/03/2019 MX

7 Verification of inverse square law

using GM counter


8 Determination of mass absorption

coefficient of gamma rays


9 Internal Assessment


3 lA/Test/Assignment 29/03/2019 RS

Date of submission of IA Marks ; 10/05/2019

Signature of Faculty Signature W HOD [NC

ipi

Govt. Fi^TâSe College

K. G. FT- 563 122

GOVERNMENT FIRST GRADE COLLEGE, KGF COURSE PLAN SPECIFICATION:ACADEMIC YEAR 2018-2019

DEPARTMENT OF MATHEMATICS

Subject:

1. Course title and code : MATHEMATICS -1 (paper -1)

2. Credit hours : 56

3. Level / Year : I Sem

Faculty Inchar ge:Radhika.M, Ammtha.R.K

Aim and Objectives:

This course introduces basic concept of Algebra, differential calculus and Integral Calculus

The objectives of this course include the following:

Explain the elementary row and column operation

• Homogeneous and Non - Homogeneous systems of m linear equations • Successive Differentiation - nth derivatives of the functions: eax, (ax + b)n, etc,... • Partial differentiation -Function of two and three variables • Reduction formulae for sin x dx , cos x dx , tan x dx , cot x dx Coarse Description:

UNIT —I [14 hoursj

Matrices Elementary row and column transformations(operations), equivalent matrices, theorems on it.

Row- reduced echelon form, Normal form of a matrix , Rank of a matrix. Problems. Homogeneous and Non — Homogeneous systems of m linear equations in n unknowns consistency criterion — criterion for uniqueness of solutions. Solution of the same by elimination method. Eigenvalues and

Eigenvectors of a square matrix of order 2 and 3,standard properties, Cayley-Hamilton theorem (with proof).

Topics No. of Hours

Introduction -Matrices Elementary row and column transfonnations(operations) 02

Equivalent matrices, theorems on it. Row- reduced echelon form, Normal form of a matrix, 02

Rank of a matrix. Problems. 02

Homogeneous and Non - Homogeneous systems of m linear equations in n unknowns consistency criterion 02

Criterion for uniqueness of solutions. Solution of the same by elimination method. 02

Eigenvalues and Eigenvectors of a square ma, Cayley-Hamilton theorem (with proof). 02

Application of Cay ley Hamilton theorem 02

PRINCIPAL

First. Grade College

UNIT — II (28 hrs)

a) Successive Differentiation - nth derivatives of the functions: eax . (ax + b)n, log(ax + b), sin{ax + b),

cos{ax + b), eaxsin(bx+ c), eaxcos(bx + c) — Problems Leibnitz theorem (with proof) and its

applications. Partial differentiation -Function of two and three variables - First and higher derivatives -

Homogeneous functions - derivatives- Huler's theorem and its extension (with proof) - Total derivative and differential - Differentiation of implicit functions and composite functions - Problems - Jacobians - Properties of Jacobians problems.

b) Reduction formulae for nnnn sin x dx , cos x dx, tan x dx , cot x dx, JJJJ n n m n sec x dx, cosec x dx , sin x cos x dx, 1 / f with definite limit. Differentiation under integral sign by Leibnitz rule.

Topics No. of Hours

a) Introduction-Successive Differentiation - nth derivatives of the functions: eax,(ax + b)n, 02

Iog(ax + b}, sin(ax b) , cos(ax + b), eaxsm(bx+ c), eaxcos(bx + c) — Problems 02

Leibnitz theorem (with proof) and its applications 02

Partial differentiation—Function of two and three variables - 02

First and higher derivatives - Homogeneous functions — 02

derivatives- Euler's theorem and its extension (with proof) 02

Total derivative and differential - Differentiation of implicit functions 02

composite functions - Problems - Jacobians - P 02

Introduction and Re Capsulation of integration and standard formula 02

Reduction formulae for sin x dx , cos x dx . 02

tan x dx , cot x dx and problems on standard forms 02

sec x dx, cosec x dx , sin x cos x dx 02

Integration with definite limit. Differentiation under integral sign by Leibnitz rule. 02

Overall problems 02

UNIT-III [14 hours]

Analytical Geometry Of Three Dimensions

Recapitulation of elements of three dimensional geometry - Different forms of equations of straight line and plane. Angle between two planes - Line of intersection of two planes - Plane coaxal with

given planes - Planes bisecting the angle between two planes - Angle between a line and a plane -

Coplanarity of two lines - Shortest distance between two lines. Equation of the sphere in general and standard forms - equation of a sphere with given ends of a diameter.Tangent plane to a sphere, orthogonallity of spheres. Standard equations of right circular cone and right circular cylinder.

Topics No. of Hours

Recapitulation of elements of three dimensional geometry 02

Different forms of equations of straight line and plane. Angle between two planes - 03

Line of intersection of two planes - Plane coaxal with given planes 02

Planes bisecting the angle between two planes - Angle between a line and a plane - Coplanarity of two lines 02

diameter.Tangent plane to a sphere, orthogonallity of spheres. 03

Standard equations of right circular cone and right circular cylinder. 02

Learning Resources:

1. B S Vatssa, Theory of Matrices, New Delhi: New Age International Publishers, 2005. 2. ARVashista, Matrices, Krishna PrakashanaMandir, 2003.

3. G B Thomasand R L Finney, Calculus and analytical geometry,Addison Wesley, 1995, 4. J Edwards, An elementary treatise on the differential calculus: with applications and numerous

example. Reprint. Charleston, USArBiblioBazaar, 2010. 5. N P Bali, Differential Calculus, India: Laxmi Publications (P) Ltd.., 2010. 6. S Narayanan & T. K. ManicavachogainPillay, Calculus.: S. Viswanathan Pvt. Ltd., vol. I & 111996. 7. Frank Ayres and Elliott Mendelson, Schaum's Outline of Calculus, 5th ed USA: Mc. Graw Hill.,

2008. 8. S.P.Mahajan& Ajay Aggarwal, Comprehensive Solid Geometry , 1st ed.: Anrnol Publications ,

2000.

List of Assignments :Bangalore University prescribed assignment questions given.

Web links:

1. http: //www.cs.columbia. eduA~zeph/3 203 s04/Iectures .html 2. http ://home, scarlet.be/math/matr.htm

3. http://www.theinathpage.com/

4. http://www.abstractmath.org/

5. http://ocw.mit.cdu/courses/matliematics/

6. http://planetmath.org/encyclopedia/TopicsOnCalculus.htmI

7. http://ocw.mit.edu/OcwWeb/Mathematics/18-01FaU-

2005/CourseHome/mdex.htm 8. http://mathworld.wolfram.com/CaicuIus.html 9. http://ocw.mit.edu/courses/mathematics/

GOVERNMENT FIRST GRADE COLLEGE, KGF

COURSE PLAN SPECIFICATION:ACADEMIC YEAR 2018-2019


Subject:

1. Course title and code : MATHEMATICS -II (paper -2)

2. Credit hours ; 56

3. Level / Year : 11 Sem

Faculty Incharge:Radhika.M,Kavitha,Anirutha.R.K

Aim and Objectives:

This course introduces basic concept of Algebra, differential calculus ,Integra! Calculus and

Differential equation

The objectives of this course include the following;

• Explain the binary operation and algebraic structure,•Semigroup and group.abelian group

• Problems on finite and infinite groups and Subgroups

Course Description:

1. ALGEBRA - U

Group Theory Binary operation, algebraic structure-problems on finding identity and inverse.

Definitions of semigroup and group, abelian group - problems on finite and infinite

groups. Properties of group with proof — standard problems on groups — A finite

semigroup with both the cancellation laws is a group — Any group of order less than five is abelian - permutation groups.

Subgroups- theorems on subgroups (with proof)- problems.

(14 lecture hours)

Topic covered No. of Lecture Hours

Binary operation, algebraic structure-problems on

finding identity and inverse 02

Definitions of semigroup and group, abelian group

- problems on finite and infinite groups.

02

Properties of group with proof 02

standard problems on groups 02

A finite semigroup with both the cancellation laws

is a group .Any group of order less than five is

abelian

02

Permutation groups 02

Subgroups- theorems on subgroups (with proof)-

problems

02

Total hours: 14

14 hours

UNIT-11

a) Differentia! Calculus

Polar coordinates - Angle between the radius vector and the tangent - Angle of

intersection of curves (polar form) polar sub-tangent and polar subnormal-

perpendicular from pole on the tangent - Pedal equations. Derivative of an arc in

Cartesian, parametric and polar forms.

Curvature of plane curves - formula for radius of curvature in Cartesian, parametric,

polar and pedal forms - centre of curvature - evolutes. Singular points - Asymptotes -

Envelopes. General rules for tracing of curves..

b) Integral Calculus

Applications of Integral Calculus; computation of length of arc, plane area and surface

area and volume of solids of revolutions for standard curves in Cartesian and Polar

forms. (28 lecture hours)

Unit 2 :CALCULUS— lUDiffercntial Calculus and Integral Calculus) a) Differential Calculus

Polar coordinates - Angle between the radius

vector and the tangent

02

Angle of intersection of curves (polar form) 02

polar sub-tangent and polar subnormal-

perpendicular from pole on the tangent

02

Pedal equations 02

Derivative of an arc in Cartesian, parametric and polar forms

02

Curvature of plane curves - formula for radius of curvature in Cartesian, parametric, polar and pedal

forms

02

Centre of curvature - evo lutes 02

Singular points. Asymptotes 03

Envelopes 02

General rules for tracing of curves 01

b) Integral Calculus

Applications of Integral Calculus for computation of length of arcof standard curves in Cartesian and

Polar forms.

02

Applications of Integral Calculus for computation of plane areaof standard curves in Cartesian and

Polar forms.

02

Applications of Integral Calculus for computation of surface areaof standard curves in Cartesian and

Polar forms.

02

Applications of Integral Calculus for computation of volume of solids of revolutions of standard

curves in Cartesian and Polar forms.

02

Total hours: 28

UNIT-III

4.DIFFERENTIAL EQUATIONS -1

Solutions of ordinary differential equations of first order and first degree:

(i) Linear equations, Bernoulli equation and those reducible to these.

(ii)Exact equations(excludmg reducible to Exact)

Equations of first order and higher degree - non linear first order, higher degree - (Mention) solvable for p - solvable for y - solvable for x - Clairaut's equation -singular

solution - Geometric meaning.Orthogonai trajectories in Cartesian and polar forms. (14 lecture hours) [28 hours]

Unit 3: DIFFERENTIAL EQUATIONS-1

Solutions of ordinary differentia! equations of first order and first degree:

(i) Linear equations ,Bernoulli equation and those

reducible to these.

03

(ii)Exact equations

(excluding reducible to Exact) 02

Equations of first order and higher degree - non linear first order, higher degree -(Mention) solvable for p -

solvable for y - solvable for x

03

Clairaufs equation 02 Singular solution - Geometric meaning 01 Orthogonal traiectories in Cartesian and polar forms. 03 Total hours : 14

14 hrs

Resources:

1. B S Vatssa, Theory of Matrices, New Delhi: New Age International Publishers, 2005.

2. A R Vashista, Matrices, Krishna PrakashanaMandir, 2003.

3. G B Thomasand R L Finney, Calculus and analytical geometry,Addison Wesley, 1995,

4. J Edwards, An elementary treatise on the differential calculus: with applications and

numerous example. Reprint. Charleston, USA: BiblioBazaar, 2010.

5. N P Bali, Differential Calculus, India: Laxmi Publications (P) Ltd.., 2010.

6. S Narayanan & T. K. ManicavachogamPillay, Calculus.: S. Viswanathan Pvt. Ltd., vol. I

& II1996.

7. Frank Ayres and Elliott Mendelson, Schaum's Outline of Calculus, 5th ed.USA: Mc. Graw

Hill., 2008.

8. S.P.Mahajan& Ajay Aggarwal, Comprehensive Solid Geometry , 1st ed,: Anmol

Publications , 2000.


Wcblinks:

http://www.themathpage.com/ 2. http://www.abstractmath.org/

3. http://ocw.mit.edu/courses/mathematics/ 4. http://planetmath.org/encyclopedia/TopicsOnCalculus.html

5. http://ocw.mit.edu/OcwWeb/Mathematics/18-01Fall- 2005/CourseHome/index.htm

6. http://mathworld.wolfram.com/CaicuIus.html

7. http://ocw.mit.edu/courses/mathematics/ 8. http://www.univie.ac.at/future.media/moe/galerie.html

9. http://tutorial.math.lamar.edu/classes/de/de.aspx

10. http://www.sosmath.com/d3ffeq/diffeq.htmI 11. http://www.analyzemath.com/calculus/Differential_Equations/applications.




Subject:

1. Course title and code : MATHEMATICS - III (paper -3)

2. Credit hours ; 56

3. Level / Year : III Sem

Faculty Tncharge:Radhika.M,Shabda Anjum Aim and Objectives:

This course introduces basic concepts of Algebra , Sequence of real numbers. Series of real numbers, Differential Calculus

The Objectives of this course include the following:

Explain order of an element, Coset decomposition and cyclic groups

Limit of a sequence ,monotonic sequence and to explain standard sequence Infinite series-Tests for convergence of series

Continuity and Differentiability of a function -Mean value theorem

Course Description:

Unit-1

GROUPS [14 hours]

Order of an element of a group - properties related to order of an element- subgroup generated by an

element of a group -coset decomposition of a group. Cyclic groups- properties- modulo relation- index of a group-Lagrange's theorem- consequences.

Topics No of hours Introduction 01 Definition and standard oroperties of groups and subgroups 01 Integral powers of an element of group 01 Order of an element of a group 01 properties related to order of an element 02 coset decomposition of a group 02 Cyclic groups- properties 02 Order of a subgroup of group 01 L agrange' s theore m 02 consequences-Lagrange's theorem 01

14 hours

UNIT-ll

a) Sequences Of Real Numbers [ 12 hours] Definition of a sequences-Bounded sequences- limit of a sequences- convergent, divergent and

oscillatory sequences^ Monotonic sequences and their properties- Cauchy^s criterion.

Topics No of Hours Introduction to sequence of real numbers 01 Definition of sequence-bounded sequences 03 Limit of a sequences 02 Convergence Divergent and Oscillatory sequences 03

Monotonic Sequence and Their properties cauchy's criterion 03

12 hours

b) Series Of Real Numbers [1 g hours]

Definition of convergence, divergence and oscillation of series -properties of Convergence series - properties of series of positive terms — Geometric series Tests for convergence of series -p-series -

comparison of series Cauchy'sroot Test -D Alemberfs test. Raabe'stestAbsolute and conditional convergence-D' Alemberl test for absolute convergence - Alternating series - Leibnitz test. Summation of binomial, exponential and logarithmic series.

Topics No of hours

Introduction to series of Real numbers 01

Tenns related to series of real numbers 01

Properties of convergent series 01

Test P-series . 02

Comparison of series 02 Cauchy's root test 01 D Alemberts test, Raabe's test 02 Absolute and conditional convergence 01 Alternating series 01 Leibnitz test 01 Summation of Binominal series 02 Exponential series 02 Logarithmic Series 02

18 hours

3. CALCULUS - III tl4 hours]

Differential Calculus

Recapitulation of Equivalence Class and partition of a set. Definition of the limit of a function in form —continuity- types of discontinuities. Properties of continuous function on a closed interval

(boimdedness, attainment of bounds and taking every value between bounds). Differentiability -

Differentiability implies Continuity - Converse not true. Rolle's Theorem- Lagrauge's and Cauchy's First Mean Value Theorem (Lagrange's form ) - Maclaurin's expansion. Evaluation of limits by L' Hospital's rule

Topics No of hours Recapitulation of Equivalence Class and partition of a set 02 Definition of the limit of a function 01 continuity- types of discontinuities 02 Properties of continuous function on a closed interval 02 Mean value theorems 02 Taylor's theorem , Lagrange's and Cauchy's, MaclaurirTsexpansion 03 Evaluation of limits by L' Hospital's rule 03

Learning Resources:

1. Michael Artin, Algebra, 2nd ed. New Delhi, India; PHI Learning Pv Ltd., 2011.

2. Vashista, A First Course in Modem Algebra, 11th ed.: Krishna PrakasanMandir, 1980.

3. John B Fraleigh, A First course in Abstract Algebra, 3rd ed.: Narosa Publishing House., 1990,

4. R Balakrishan and N.Ramabadran, A Textbook of Modem Algebra, 1st ed. New Delhi, India: Vikas publishing house pvt.Ltd., 1991 .

5. Richard R Goldberg, Methods of Real Analysis, Indian ed. New Delhi, India: Oxford and 1BH

Publishing Co., 1970.

6. G B Thomasand R L Finney, Calculus and analytical geometry, Addison Wesley, 1995.

7. J Edwards, An elementary treatise on (he differential calculus: with applications and numerous

example, Reprint. Charleston, USA :BiblioBazaar? 2010.

8. N P Bali, Differential Calculus, New ed. New Delhi, India: Laxmi Publications (P) Ltd.., 2010

. 9. S Narayanan & T. K. ManicavachogamPillay, Calculus.: S. Viswanathan Pvt. Ltd., vol. I & 111996.

10. Frank Ayres and Elliott Mendelson, Schaum's Outline of Calculus, 5th ed. USA: Mc. Graw Hill., 2008. 11. E Spiegel, Schaum's Outline of AdvancedCalculus, 5th ed. USA: Mc. Graw Hill.,2009


PPT on Groups

Web links:

http://www.themathpage.com/ 2. http://www.abstractmath.Qrg/

3. http://Qcw.mit.edu/courses/mathematics/ 4. http://www.math.uril.edu/—webnotes/contents/chapters.htm

5. http://www-groups.mcs.st-andrews.ac.uk/-john/analysis/index.html

6. http://web01.shu.edu/projects/reals/index.html

7. http://www.mathcs.org/analysis/reals/index.html

8. http;//pIanetmath.org/encyclopedia/TopicsOnCaIculus.html

9. http://ocw.mit.edU/OcwWeb/Mathematics/l 8-01 Fall-2005/CourseHome/index.htm 10. http://mathworld.wolfram.com/Calculus.html

11. http://ocw.mit.edu/courses/mathematics/

GOVERNMENT FIRST GRADE COLLEGE, KGF COURSE PLAN SPECrFICATIONiACADEMIC YEAR 2018-2019


Subject:

1. Course title and code : MATHEMATICS - IV (paper -4)


3. Level / Year : IV Sem

Faculty Incharge:Radhika.M,Shahda Anjum,Kavitlia

Aim and Objectives:

This course introduces basic concepts of Algebra, Fourier Series, Differential Calculus ^Differential Equations jMathematical methods

The Objectives of this course include following:

Explain Normal Subgroups -Homomorphism and Isomorphism of groups

Fourier series and it's functions

Continuity and differentiability of a function of two and three variables

Laplace transforms - derivatives and inverse Laplace transforms

Complementary function-particular integrals and solutions of ODE with different methods

Course Description:

UN1T-1

Groups [15 hours]

Normal subgroups-examples and problems -Quotient group-Homomorphism and Isomorphism of

groups-Kernel and image of a homomorphism-Normality of the Kernel Fundamental theorem of

homomorphism- properties related to isomorphism-Permutation group-Cayley's theorem.

Topics No of hours Introduction of ^roup theorv 01 Normal subgroups-examples and problems 02 Quotient group 01 Homomorphism and Isomorphism of groups 02 Kernel and image of a homomorphism 02 Normality of the Kernel 01 Fundamental theorem of homomorphism 02

properties related to isomorphism 02 Permutation group-Cayley's theorem 02

15 hours

Unit -II

Fourier Series [10 hours]

Trigonometric Fourier series of functions with period 2k and period 2L - Half range Cosine and sine series.

Topics No of hours Introduction of Fourier transformers 01 Trigonometric Fourier series of functions with period 2k and period 2L

05

Half range Cosine and sine series. 04

10 hours

Unit-III

Differential Calculus [9 hours]

Continuity and differentiability of a function of two and three variables - Taylor's Theorem and

expansion of functions of two variables- Maxima and Minima of functions Of two variables. Method of Lagrange multipliers.

Topics No of hours Continuity and differentiability of a function of two and three variables

02

Taylor's Theorem and expansion of functions of two variables

03

Maxima and Minima of functions Of two variables.

02

Method of Lagrange multipliers 02

9 hours

4. MATHEMATICAL METHODS - I [12 hours]

Definition and basic properties Laplace transform of some common functions and Standard results -

Laplace transfonn of periodic functions- Laplace transfonns jOf derivatives And the integral of function- Laplace transforms, Heaviside function convolution theorem (statement only) Inverse L ap I ace trans forms.

Topics No of hours Introduction of laplace transfonns 01 Definition and basic properties 02 Laplace transfonn of some common 02 functions and Standard results Laplace transform of periodic functions 01 Laplace transforms of derivatives And the 02 intesralof function Laplace transforms- Heaviside function 01 convolution theorem Inverse Laplace transforms.

01

Laplace transfonn method of solving ODE of 1st and 2nd orders with constant Co- efficients

02

5. DIFFERENTIAL EQUATIONS -II [14 hours]

Second and higher order ordinary linear differential equations with constant Coefficients-

complementary' function (two variables) with constant coefficients. Solutions of second order ordinary linear differential equations with variables coefficients by the following methods.

{i). When a part of complementary function is given

(ii). Changing the independent variable

(iii). Changing the dependent variable

(iv). Variation of parameters

(v). Conditions for exactness and the solution when The equation is exact.

Topics No of hours Second and higher order ordinary linear differential equations with constant Coefficients

01

complementary function 01 particular integrals (standar d tvpes) 02 Cauchy-Euler differential equation 01 Simultaneous linear differential equations (two variables) with constant coefficients

02

Solutions of second order ordinary linear differential equations with variables coefficients by the following methods.

(i)When a part of complementary function is given

02

Changing the independent variable 01 Changing the dependent variable 01 Variation of parameters 01 Conditions for exactness and the solution when the equation is exact. 02

14 hours

Learning Resources:

Reference Books :1. Michael Artin, Algebra, 2nd ed. New Delhi, India: PHI Learning Pvt. Ltd., 201 L

2. Vashista, A First Course in Modem Algebra, 11th ed.: Krishna PrakasanMandir, 1980.

3. John B Fraleigh, A First course in Abstract Algebra, 3rd ed: Narosa Publishing House., 1990.

4. R Balakrishan and N.Ramabadran, A Textbook of Modern Algebra, 1st ed. New Delhi, India: Vikas

publishing house pvt.Ltd., 1991.

5. G B Thomasand R L Finney, Calculus and analytical geometry, Addison Wesley, 1995.

6. J Edwards, An elementary treatise on the differential calculus: with applications and numerous example. Reprint. Charleston, USA: BiblioBazaar, 2010.

7. N P Bali, Differential Calculus, Laxmi Publications (P) Ltd.., 2010.

8. S Narayanan & T. K. ManicavachogamPillay, Calculus.: S. Viswanathan Pvt. Ltd., vol. I & III 996.

9. Frank Ayres and Elliott Mendelson, Schaum's Outline of Calculus, 5th ed USA: Mc. Graw Hill.,

2008. 10. E Spiegel, Schaum's Outline of AdvancedCalcuius, 5th ed. USA: Mc. Graw Hili., 2009

11. Raisinghania M.D., Laplace and Fourier Transforms. New Delhi, India: S. Chand and Co. Ltd. , 1995. 12. M D Raisinghania, Advanced Differential Equations, S Chand and Co. Pvt. Ltd., 2013.

13. FAyres, Schaum's outline of theory and problems of Differential Equations, 1st ed. USA:

McGraw-Hill, 2010.

14. S Narayanan and T K ManicavachogamPillay, Differential Equations.; S V Publishers Private Ltd., 1981.

15. G P Simmons, Differential equation with Applications and historical notes, 2nd ed.: McGraw-Hill Publishing Company, Get 199


Web links:

1.http://www,themathpage.com/ 2. http://www.abstractmath.org/ 3. http://www.fourier-series.com/ 4. http://raathworld.wolfram.com/ 5. http://www.princeton.edu/--rvdb 6. http://www.zweiginedia.com/RealWorld/Summary4.htmI 7. http://ocw.mit.edu/courses/mathematics/

8. http://planetmath.org/encyclopediayTopicsOnCaIculus.htmI

9. http://ocw.mit.edU/OcwWeb/Mathematics/l8-01 Fall-2005/CourseHome/index.htm

10. http;//raathworld.wolfram.com/Calculus.html

11. http://ocw.mit.edu/courses/mathematics/ 12. http://www.imivie.ac.at/future.raedia/moe/galerie.html

13. http://tutorial .math.Iamar.edu/classes/de/de.aspx

14. http;//www. sosmath.com/diffeq/diffeq.html

15. http://www.analyzemath.com/calcuIus/Differential_Equations/applications.htraI




Subject:

1. Course title and code : MATHEMATICS - V (paper -5)


3. Level/Year: V Sem

Faculty lncharge:Radhika.M, Amrutha.R.K

Aim and Objectives:

This course introduces basic concepts of Rings ^differential calculus of scalar and vector fields, numerical methods-I

The objectives of this course include the following:

• Explain the concepts of rings integral domains and fields

• Explain the concepts of scalar field, vector field and divergence and curl of a vector field

• Various numerical methods such as Newton -Gregory forward and backward interpolation

formulae,Quadrature formula

Unit-1

Rings, Integral Domains, Fields ( 14 hours)

Rings, Types of Rings properties of rings - Rings of integers modulo n - Subrings — Ideals ,Principal, Prime and Maximal ideals in a commutative ring — examples and standard properties following the definition - Homomorphism, Isomorphism - Properties — Quotient rings - Integral Domain- Fields -

properties following the definition — Fundamental Theorem of Homomorphism of Rings - Every field is an integral domain - Every finite integral domain is a field-Problems.

Topic No of hours Introduction of Rings, Integral domains, fields 01 Rings, Types of Rings properties of rings 01 Subrings 01 Ideals .Principal, Prime and Maximal ideals 03 Homomorphism. Isomorphism 02 Quotient rings 01 Integral Domain 01

Fields - properties following the definition 02 Fundamental Theorem of Homomorphism of Rings 01 Every field is an integral domain 01

14 hours

2. CALCULUS - V (u hours)

Differential Calculus Of Scalar And Vector Fields Scalar field — gradient of a scalar field, geometrical meaning — directional derivative — Maximum directional derivative - Angle between two surfaces - vector field - divergence and curl of a vector field - solenoidaland irrotational fields - scalar and vector potentials — Laplacian of a scalar field — vector identities. Standard properties, Harmonic

functions, Problems.

Topics No of hours Introduction to vector differential calculus 01 Scalar field - gradient of a scalar field 01 Maximum directional derivative 0! Angle between two surfaces 01 vector field 01 divergence and curl of a vector field 02 solenoidal and irrotational fields 01 scalar and vector potentials 01 Laplacian of a scalar neld 02 vector identities 01 Harmonic functions. Problems, 01

Standard properties 01 14 hours

3. NUMERICAL METHODS -1 (14 hours)

Finite differences - Definition and properties of p and E, the relation between them - The nth

differences of a polynomial. Factorial notations, separation of symbols, divided differences and related theorems, Newton -Gregory forward and backward interpolation formulae - Lagrange's and Newton's

interpolation formulae for unequal intervals - Inverse interpolation. Numerical Integration: Quadrature

formula - Trapezoidal rule -Simpon's 1/3 and 3/8 ruIe(without proofs) Trapezoidal rule -Simpon's 1/3 and 3/8 rule, (without proof) and problems

Topics No of hours Introduction of numerical Analysis 01 Finite differences-definition and properties 02 nth differences of a polynomial. Factorial notations

01

Newton -Gregory' forward and backward interpolation formulae

02

Computation of first and second derivatives 02 Quadrature formula 01

Trapezoidal rule -Simpon's 1/3 and 3/8 rule 02 problems 01 Numerical differential using forward and backward interpolation formulae

02

Learning Resources:

1. Michael Artin, Algebra, 2nd ed. New Delhi, India: PHI Learning Pvt Ltd., 2011.

2. Vashista, A First Course in Modern Algebra, 11th ed,: Krishna PrakasanMandir, 1980.

3. John B Fraleigh, A First course in Abstract Algebra, 3rd ed,; Narosa Publishing House., 1990.

4. R Balakrishan and N.Ramabadran, A Textbook of Modem Algebra, Ist ed. New Delhi, India:

Vikas publishing house pvt.Ltd., 1991.

5. G B Thomasand R L Firmey, Calculus and analytical geometry, Addison Wesley, 1995.

6. B Spain, Vector Analysis. ELBS, 1994,

7. D E Boumesand, P C Kendall, Vector Analysis, ELBS, 1996.

8. S SSastry, Introductory methods of Numerical Analysis, Prentice Hall of India

List of Assignments :Solving the given question bank

Weblinks:

http ://vvww.themathpage.coniy 2- http ://www. abstractmath .org/ 3. http;//ocw.mit,edu/coiirses/mathematics/

4. http://planetmath.org/encyclopedia/TopicsOnCalculus.html

5. http://ocw.niit.edU/OcwWeb/Mathematics/l 8-01 Fall-2005/CourseHome/index.htm

6. http;//mathworld.wolfram. com/CalcuIus.html

2- http://www.univie.ac.at/future.media/moe/galerie.htm 1 8. http://www.math.gatech.edu/~harrell/calc/

9. http;//www.amtp.cam,ac.uk/lab/peopIe/sd/lectures/nummeth98/index.htm

10. http://math, fuilerton.edu/mathews/numerical.html

11. http://www, onesmartcIick.com/engineering/numerical-methods.html




Subject:

J, Course title and code ; MATHEMATICS - V (paper -6)


3. Level / Year: V Sem

Faculty InchargeiRadhika.M, AmruthaR.K Aim and Objectives:

This course introduces basic concepts of calculus of variation,Line And Multiple Integrals and integral theorem

The Objectives of this course include the following

• Explain the variation of a function extremalof a functional and some standard problems

• Line integrals and it's properties, double integrals and triple integrals

• Green's theorem ,Divergence theorem and Stokes theorem

Unit-1

1. MATHEMATICAL METHODS -11

Calculus Of Variation (]4 hours)

Variation of a function f = f(x, y, y) — variation of the corresponding functional - extremal of a functional — variational problem — Euler's equation and its particular forms — Examples — standard problems like geodesies, minimal surface of revolution, hanging chain, Brachistochrone problem —

Isopcrimetric problems

Topics No of hours Introduction of Calculus Of Variation 01 Variation of a function f = ffx, y, y) 02 variation of the corresponding functional - extremal of a functional

02

variational problem 02 Euler's equation and its particular forms - Examples — standard problems like geodesies.

03

minimal surface of revolution 02 Brachistochrone problem -Isoperimelric problems

02

14 hours

2. CALCULUS-VI

a). Line And Multiple Integrals (18 hours)Defmitton of line integral and basic properties examples evaluation of line integrals. Definition of double integral - its conversion to iterated integrals .Evaluation of double integrals by change of order

of integration and by change of variables - computation of plane and surface areas ,volume underneath a surface and volume of revolution using double integrals. Definitionof triple integral

and evaluation - change of variables - volume as a triple integral.

Topic No of hours Introduction 01 line integral over a plane curve 01 Independent of path 01 Definition and Evaluation of double integral

01

change of order of integration 02 Change of variables in a double integral 01 double integral in a polar form 01 Applications of double integrals to find area and volume

02

Computation of plane areas in Cartesian and polar form

02

computation of surface areas 01 Volume of surface using double integrals 01 Triple integral 01 triple integral in cylindrical and spherical polar coordinates

02

Computation of volume bv triple integrals 01 18 hours

b). Integral Theorems (14 hours)

Green's theorem (with proof) - Direct consequences of the theorem.The Divergence theorem

(with proof) - Direct consequences of the theorem.The Stokes' theorem (with proof) - Direct consequences of the theorem.

Topics No of hours Introduction 02 Green's theorem in the plane 02 Proof of Green's theorem in the plane 01 Extensions of Green's theorem 02 Gauss divergence theorem 02 Stokes' theorem 02

Learning Resources:

1. F B Hildebrand, Methods in Applied Mathematics,

2. B Spain,Vector Analysis , ELBS, 1994. 3. D E Boumesand, P C Kendall, Vector Analysis, ELBS, 1996


Weblinks:

1.http://ocw.mit.edu/courses/mathematics/ 2. http://planetmath.org/encyclopcdia/TopicsOnCalculus.html

3. http://mathworld,wolfram.com/Calculus.html

4. http://\\r\w.univie.ac.at/future,media/moe/galerie.html 5. http ://www.math.gatech.edu/'-harreU/caIc/

GOVERNMENT FIRST GRADE COLLEGE, KGF COURSE PLAN SPECIFICATION: ACADEMIC YEAR 2018-2019


Subject:

L Course title and code : MATHEMATICS - VI fpaper -7)


3. Level / Year : VI Sem

Faculty Incharge:Radluka,M,Shahda AnjumJC

Aim and Objectives;

This course introduces concepts of Linear Algebra, Orthogonal Curvilinear Co ordinates, and Partial Differential Equations.

The objectives of this course include the following

Explaining vector space with examples, its properties. Subspaces, linear combination, linear independent and dependent subsets, basis and dimensions. Linear transformation, matrix of linear transformation, change of basis, range and kernel, rank and nullity theorem Orthogonal curvilinear co ordinates, spherical curvilinear system, Cartesian , cylindrical, spherical co ordinate system Total differential equations, simultaneous equations, formation of PDE, l5i order Lagrange's linear equation, solution of second order linear PDE in two variables with constant coefficients by finding complementary function and particular integral Solution of one dimensional heat and wave equations using Fourier series.

UNIT-1

ALGEBRA-V

Linear Algebra (14 hours)

Vector space-Examples-Properties-Subspace-criterion for a subset to be a subspace-linear span of a set-linear combination-linear independent and dependent subsets-Basis and

dimensions-standard properties-Examples illustrating concepts and results.

Linear transformations-properties-matrix of linear transformation-change of basis-range and kernel-rank and nullity- Rank-Nullity theorem- Non-singular and singular linear

transformations- standard properties-examples

Topics No. of hours

Introduction of Linear algebra 01 Vector space, examples, properties, subspaces 01 Criterion for subset to be a subspace 01 Linear span of a set 01 Linear combination 01 Linear dependent and independent subsets 02 Basis and dimensions, standard properties 02 Examples illustrating concepts and results 01 Linear transformation 01 Matrix of a linear transformation 01 Range and kernel 01 Rank- Nullity theorem 01

UNIT-n

2. Differential Equations Til

a). Orthogonal Curvilinear Coordinates (10 hours)

Definition of orthogonal curvilinear coordinates. Fundamental vectors or base vectors, scale factors or material factors-quadratic differential form, spherical curvilinear system: Cartesian, cylindrical- conversion of cylindrical to orthogonal spherical polar coordinates. Theorem: The spherical coordinate system is orthogonal curvilinear coordinate system, (without proof) No problems on conversions of one system to another.

Topics No. of hours

Introduction of orthogonal curvilinear co-ordinates 01 Definition of orthogonal curvilinear co-ordinates, fundamental vectors 02 Scale factors or material factors 01 Spherical curvilinear system 02 Cartesian cylindrical-conversion of cylindrical to orthogonal spherical polar co-ordinates

02

The spherical co-ordinate system is orthogonal curvilinear co-ordinate system 02

b). Partial Differential Equations (18 hours)

Total differential equations- Ncessary condition for the equation Pdx+Qdy+Rclz=0 to be

integrable-simultaneous equations of the form ^ ^ = y

Formation of partial differential equation. Equations of First Order Lagrange's linear equation-charpit's method, standard types of first order non-linear partial differential equation(By known substitution).

Solution of second order linear partial differential equations in two variables with constant coefficients by finding complementary function and particular integral

Solution of one-dimensional heat equations, Solution of one-dimensional wave equatrions using Fourier series.

Topics No. of hours Introduction to PDE 01 Necessary condition for the equation Pdx+Qdv+Rdz=Cl 02 Formation of Partial Differential Equation 03 Equations of First Order Lagrange's linear equation 03 Finding complementary function and particular integral 05 One-dimensional heat equations 02 Solution of one-dimensional wave equation using Fourier series 02

Learning resources:

Reference Books:

1. Krishnamoorty V K and Mainra V P and Arora J L, An Introduction to Linear Albegra. Reprint, New Delhi, India: Affiliated East West Press Pvt, Ltd, 2003

2. M D Raisinghania, Vector Calculus, S Chand Co. Pvt. Ltd, 2013


PPT on Linear algebra

Web links:

1. http://ocw.mit.edu/courses/mathem.atics/

2. http://mathworld.wolfram.com/Calculus.htmI

3. http://www.math.gatech.edu/-harrell/calc/ 4. http://tutorial.math.lamar.edu/classes/de/de.aspx

5. http://www.sosmath.coiii/diffeq/diffeq.html

6. http://www.analyzemath.com/calculus/Differential_Equations/appIications.html




SUBJECT:

1. Course title and Code: MATHEMATICS-VIII(paper 8)

2. Credit hours :42

3. Level/Year: VI Sem

Faculty Inchargc:Radhika.M, Anirutha.R.K,Manjunatha

Aim and Objectives:

This course inlroduces concepts Complex Analysis and Numerical Methods II

The objectives of this course include the following

• Representing complex numbers in Cartesian and polar form, Euler's formula, limit and continuity. Analytic function Cauchy-Riemann eqns in Cartesian and polar form, harmonic function, and Milne Thomsan method. Complex integration, Cauchy's inequality, Liouville's theorem, fundamental theorem of algebra. Conformal transformation, bilinear transformation.

• Numerical solutions of algebraic and transcendental equations, bisection method, reguia faisi, newton-raphson method, jacobi's method, Gauss seidel method. Solution of initial value problems for linear 1st order DE by Taylor's series, Eulers and Euler's modified method and Runge-kutta 4Ir ordered method

UNIT-1

1. ANALYSIS-IH

Complex Analysis (28 hours)

Complex numbers- Cartesian and polar form- geometrical representation- complex plane-

Euler's formula- e10 = cosO -f isind. Functions of a complex variable-limit continuity and differentiability of a complex function. Analytic function Cauchy-Riemann equations in Cartesian and Polar forms- Sufficiency conditions for analyticity- Harmonic function- standard properties of analytic functions-construction of analytic function when real or imaginary part is given- Milne Thomson method.

Complex integration -properties-problems. Cauchy's Integral theorem-proof using Green's theorem- direct consequences Cauchy's integral formula with proof-Cauchy's generalized formula for the derivatives with proof and applications for evaluation of simple line integrals- Cauchy's inequality with proof- Liouville's theorem with proof. Fundamental theorem of algebra with proof.

Transformations- conformal transformation- some elementary transformations namely Translation, rotation, magnification and inversion- examples

The bilinear transformation- cross ratio- invariant points of BT-properties

B.T. sets up one to one correspondence between the extended z-plane and the extended w- plane Preservation of cross ratio under a B.T A B.T. transforms circle onto circles or straight lines

Problems on finding a B.T., and finding images under a B.T., and invariant points of a B.T. Discussion of transformations w=z2, w=sinz, w=coshz and w=e2;

Topics No. of hours Introduction of complex analysis 01 Cartesian and Polar form-geometrical representation 02 Complex-plane- Euler's formula 0! Functions of complex variable- limit 01 Continuity and differentiability of a complex function 02 Analytic function, Cauchv's Riemann equation 02 Harmonic function- standard properties analytic functions 02 Analytic functions 01 Milne Thomson method 01 Complex integration, properties- problems 02 Cauchy's integral theorem- proof using Green's theorem 02 Direct consequences 01 Cauchy's integral formula with proof 01 Applications for evaluation of simple line integrals 02 Cauchy's inequality with proof 01 Liouville's theorem with proof 01 Fundamental theorem of algebra 01 Transformations- Conformal transformation 01 Translation, rotation, magnification and inversion- examples 01 Bilinear transformation and properties 01 Problems on finding B.T 01

NUMERICAL METHODS (14 hours)

Numerical solutions of algebraic and transcendental equations — method of successive bisection -method of false position- newton-raphson method. Numerical solutions of non- Homogeneous system of linear algebraic equations in three variables by jacobi's method and Gauss-seidel method. Computation of largest Eigen value of a square matrix method. Solution of initial value problems for linear 1st order DE by Taylor's series, Euler's and Euler's modified method and Runge-kutta 4,h ordered method.

I

Topics No. of hours

Introduction of Numerical Analysis 01 Solution of algebraic and transcendental equations 01 Method of false position and Newton- Raphson method 02 Numerical solutions of non-homogeneous system 01 Linear algebraic equations in 3 variables by Jacobi's and Gauss-Seidel methods

02

Computation of largest eigen value of a square matrix by power method 01 Using inverse power method finding least eigen value 01 Solution of initial value problems by ordinary linear first order differential equations by Taylor's series

02

Euler s and Euler's modified method 01 Runge kutta method of order 4 02

Learniag resources:

Reference Books:

1. R V Churchil & JW Brown, Complex Variables and Applications, 5th ed.: McQraq Hill

Companies, 1989. 2. S S Sastry. Introductory methods of Numerical Analysis, PRENTICE Hall of India, 2012


PPT on complex analysis

Web links:

!.http;//www.mathcs.org/analysis/reals/index.html 2. http://www.amtp.canLac.uk/lab/pTOple/sd/lecturWnummeth98/jndexJitm

3. http;//math.fullerton.edu/raathews/numerical.html 4. http://www.onesmarfclick.com/engineering/numerical-methods.html

oiv; o-

^ PRINCIPAL Govt. First Grade Coiisp

K-G-F- - 563 188

■

Government of Karnataka

Department of Collegiate Education

Government First Grade College,KGF


Programe: BSc Course/Paper Name; PROGRAMMING CONCEPTS USING C Semesterrl Semester Class: PMCs Name of the Faculty: PRIYA.S Total Hours:60 SI.

No.

Topic covered No. of

Lecture

Hours

Methodology/pedagogy Date Initial

Unit 1:

1 Introduction to Programming Concepts: Software, Classification of Software, Modular Programming

2 Black board /Lecture Method/ICT

July 1st

week 2018

2 Structured Programming, Algorithms and Flowcharts with examples

3 Black board / Lecture method/ ICT

July 2nd

week 2018

3 History of C, Character set, C tokens. Identifiers, Keywords,

2 Blackboard/Lecture method/ ICT

July 3rd

week 2018

4 Data types. Variables, Constants, Symbolic Constants, Operators in C,


July 4th

week 2018

5 Hierarchy of Operators, Expressions, Type Conversions and Library Functions


August 1st

week 2018

Total hrs: 12

Quiz/Assignment - 01 Unit 2 :

6 Managing Input and Output Operation; Formatted and Unformatted I/O Functions


August 2nd

week 2018

7 Decision making, branching and looping: Decision Making Statements - if Statement, if- else statement, nesting of if-else statements, else-if ladder,?;operator


August 3rd

week 2018

8 Looping - while, do-while, for loop. Nested loop, break, continue, and goto statements


August 4th

week 2018

9 Functions: Function Definition, prototyping, types of functions, passing arguments to functions, Nested Functions,


August 5th

week 2018

10 Recursive functions 1 Blackboard/Lecture method/ ICT

September 1st week 2018

Total hours: 12

Internal Assessment Test-01 Assignment - 02 Unit 3:

11 Arrays: Declaring and Initializing, One Dimensional Arrays, Two Dimensional Arrays, Multi Dimensional Arrays - Passing arrays to functions


September 2nd week 2018

12 Strings; Declaring and Initializing strings. Operations on strings. Arrays of strings, passing strings to functions


September 3rd week 2018

13 Storage Classes - Automatic, External, Static and Register Variables


September 4,h week 2018

Total hours : 12 Unit 4:

14 Structures - Declaring and Initializing, Nested structure. Array of Structure, Passing structures to functions,


September 5th week

2018

15 Unions, typedef, enum. Bit fields 2 Blackboard/Lecture method/ ICT

October 1 st week 2019

16 Pointers - Declarations, Pointer arithmetic. Pointers and functions, Call by value. Call by reference

3 Black board/Lecture method / ICT

October 2nd

week 2018

17 Pointers and Arrays, Arrays of Pointers, Pointers and Structures. Meaning of static and dynamic memory allocation. Memory allocation functions

4 Black board/Lecture method / ICT

October 3rd

week 2018

Total hours : 12

Internal Assessment Test-02 Assignment - 03 Unit 5:

18 Files - File modes, File functions, and File operations. Text and Binary files


October 4,h

week 2018

19 Command Line arguments. C Preprocessor directives. Macros - Definition, types of Macros


October 5th

week 2018

20 Creating and implementing user defined header files


November 1st week 2018

Total hours; 12 Preparatory Exam-01

Date of submission of IA Marks :

D Signati

H.O.D of COMPUTER SCIENCE Govt. First Grade College

K.G.F'563 122. Government of Karnataka

Govt, Fi

K. G

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(

Programme: BSc Course/Paper Name: DATA STRUCTURES Semester:!! Semester Class: PMCs Name of the Faculty:PRIYA.S Total Hours:60 SI.

No.


Lecture

Hours

Methodology/pedag

ogy

Date Initial

Unit 1:

1 Introduction and Overview; Definition, Elementary data organization. Data Structures,data structures operations.

2 Black board/ Lecture method/ PPT

January 5th

week 2019

2 Abstract data types, algorithms complexity, time-space tradeoff.


February 1st week

2019 3 Preliminaries: Mathematical notations and

functions. Algorithmic notations, control structures. Complexity of algorithms, asymptotic notations for complexity of algorithms.


February 2nd week

2019

4 String Processing; Definition, Storing Stings, String as ADT, String operations.


February 3rd week

2019 5 word/text processing. Pattern Matching

algorithms


Feb 4th

week 2019

Total hours; 12

Unit 2 : 6 Arrays: Definition, Linear arrays, arrays as

ADT, Representation of Linear Arrays in Memory,


March 1st

week 2019

7 Traversing Linear arrays, Inserting and deleting.


March 2nd

week 2019

8 Sorting: Bubble sort. Insertion sort, Selection sort.

3 Black hoard/ Lecture method/ PPT

March 3rd

week 2019

9 Searching; Linear Search, Binary search. Multidimensional arrays. Matrices and Sparse matrices


March 4,il

week 2019

Total hours 12:

Internal Assessment Test/Quiz/Assignment - 01 Unit 3:

10 Linked list: Definition, Representation of Singly linked list in memory.


March 5 th

week 2019

11 Traversing a Singly linked list. Searching a Singly linked list.


April 1st

week 2019 12 Memory allocation. Garbage collection.

Insertion into a singly linked list 3 Black board/ Lecture

method/ PPT April 2nd

week 2019

13 Deletion from a singly liked list; Doubly liked list


April 3rd

week 2019 14 Header liked list. Circular linked list 2 April 4th

week 2019 Total hours : 12

Unit 4: 15 Stacks - Definition, Array representation of

stacks. Linked representation of stacks.


April 4th

week 2019 16 Stack as ADT, Arithmetic Expressions:

Polish Notation, Application of Stacks, Recursion, Towers of Hanoi, Implementation of recursive procedures by stack.


April 5th

week 2019

17 Queues - Definition, Operations on Queues Array representation of queue. Linked list representation of queues


May 1st

Week 2019

18 Types of queue: Simple queue, Circular queue. Double ended queue , Priority queue,Applications of queues


May 2nd

Week 2019

Total hours : 12 Internal Assessment Test/Quiz/Assignment - 02

Unit 5: 19 Graphs: Graph theory terminology. Sequential

representation of Graphs; Adjacency matrix. 3 Black board/ Lecture

method/ PPT May 3rd

week 2019 20 traversing a Graph.-Breadth first search and

Depth first search 3 PPT May3rd

week 2019 21 Tree - Definitions, Binary trees, Representing

binary trees in memory. 3 PPT May 4th

week2019 22 Operations on Binary Trees,Travering binary

trees

3 PPT May 4th

week2019

Total hours: 12 :

Preparatory Exam-01


BZ7co^RsaENCB

Govt. First Grade College £.0^56 J 122.

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ProgrammeiB.Sc Course/Paper Name DATABASE MANAGEMENT SYSTEM AND SOFTWARE ENGINEERING Semester:III Class: II year PMCs Name of the Faculty: Shuab ulla khan and GomathLS Total Hours: 60

Si.

No.


Lecture

Hours


Unit 1:

10. Introduction: Data, Database, DBMS, Characteristics of Database Approach, Database Users, Advantages of DBMS.

2 July 1 st week

2018

Database System Concepts and Architecture: Data Models, Schemas, and Instances, DBMS Architecture and Data Independence, Database languages and interfaces. The Database system Environment, Classification of Database Management Systems.

5 Black board. Lecture,

Case Studies.

July 2nd week 2018

Data Modeling Using the Entity- Relationship Model: High level Conceptual Data Models for Database Design with an example. Entity types. Entity sets, Attributes, and Keys, ER Model Concepts, Notation for ER Diagrams, Proper naming of Schema Constructs.

5

July 3rd week 2018

Total hours : 12

Unit 2 :

11. RDBMS: Relational database concepts & attribute, tuple, types of attributes - single, multi-valued, stored, derived etc., keys - primary, index, candidate, alternate, foreign, Relationships,

Relational algebra operations- UNION, INTERSECTION, DIFFERENCE, CARTESIAN PRODUCT, SELECTION, PROJECTION, JOIN, DIVISION, relational calculus. Domain, Domain integrity,

Integrity rules - Entity integrity, referential integrity. Normalization and its properties, I, II and III Normal forms.

4

4

4

Black board, Lecture, PPT, Case Studies.

July 4thweek

2018

July 5th

week to August 1st

week 2018

August 2nd week to

August 3rd

week 2018

12. Internal Assessment Test, Assignment - 01

1

Total hours : 12 Unit 3:

4. DDL and DML in SQL: DDL commands - create table/views/index, drop, alter, DML commands - select, insert, delete, update, etc.,

DCL commands - grant, revoke, commit, TCL commands, SQL - query, sub-query, nested query. Joins - natural, inner, outer join, aggregate functions in SQL. PL / SQL: Introduction, Exceptions & Cursor Management, Database Triggers, Functions,

4

5

3

Black board, Lecture, PPT, Seminar, Case

Studies.

August 4th week to

August 5th week 2018

September 1 st week to

3rd week 2018

September 4th week to 5th week 2018

Internal Assessment Test, Assignment - 01

Total hours :12 Unit 4:

22 Defining software,software engineering and its application characteristics

2 Black board/ Lecture October 1st

23 Software process (generic and umbrella activities) and myths

1 Black board/ Lecture week to 3rd

week 24 Generic process models-waterfall model 2 PPT 2018

25 V-model ,mcremental model and Evolutionary process model

2 PPT

(prototype and spiral model)

26 Agile model 1 PPT

27 Extreme programming 1 Black board/ Lecture

28 Other Agile process models 1 PPT

29 Understanding requirements and requirement engineering tasks

1 Black board/ Lecture

30 Establishment of Groundwork 1 Black board/ Lecture Internal Assessment Test/Quiz/Assignment - 04

1

Total hours 13 Unit 5:

31 Requirement Analysis 1 Group Discussion 32 Modeling- Requirement modeling.

Scenario based modeling, UML models. Data modeling. Class based modeling, Flow oriented modeling. Behavioral modeling

4 PPT

October 3rd

33 Design concepts( Architectural design, Component-Level design,User Interface design and Pattern-Based design)

3 PPT week to 5th

week 2018

34 Quality Concepts : Software Quality Assurance, Reviews and Techniques


35 Testing (White box and Black box ) Software Testing Strategies and Software Testing Fundamentals

3 PPT/ Black board

Internal Assessment Test/Quiz/Assignment - 05

1

Total hours :13

Date of submission of LA Marks :

Signature(

E.O.D of COMPUTER SCIENCE

Govi. First Grade College

K.O.F'56d 122

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Govt>first Grade Colleg

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Governmeiit First Grade College K G F


programe; B.Sc Course/Paper Name: Operating System and Unix Semester: IV Semester Class: PMCS

Name of the Faculty:TANAJI Total Hours: 60

SI.

No. Topic covered

No. of Lecture

Hours

Methodology/

pedagogy Date Initial

Unit 1: Introduction to operating systems. Process Management

1 Introduction, Types of Operating System

2 Black board/ Lecture Jan 5th

week 2019

2 Functions of Operating System 1 Black board/ Lecture Feb 1st

week 2019 3 Components of Operating System 1 Black board/ Lecture

4 Operating system services and System call


5 Process concepts. Process Scheduling 1 Black board/ Lecture/ PPT/ Seminar

Feb 2nd

week 2019 6 Intercrosses Communication, CPU

Scheduling Criteria. 2 Black board/ Lecture

7 Scheduling algorithms. Types of Scheduling Algorithms.

3 Black board/ Lecture Feb 3rd

week 2019

8 Multiple processor scheduling, Real time scheduling.


Total hours: 12

Unit 2 : Process Synchronization, Deadlocks

9 The critical section problem 1 Black board/ Lecture Feb 4th

week 2019 10 Synchronization hardware 1 Black board/ Lecture

11 Semaphores 1 Black board/ Lecture

12 Classical problems of synchronization

2 Black board/ Lecture March r1 week

13 Critical regions 1 Black board/ Lecture 2019

14 Monitors 1 Black board/ Lecture

15 Introduction, system model, deadlock

characteristics.

1 Black board/ Lecture March 2nd week

16 Handling deadlocks 1 Black board/ Lecture/ PPT/ Seminar

2019

17 Deadlock prevention 1 Black board/ Lecture / PPT/ Seminar

18 Deadlock avoidance 1 Black board/ Lecture

19 Detection, recovery from deadlock 1 Black board/ Lecture

Total hours; 12

20 Internal Assessment Test/Quiz/Assignment - 01

1 Offline

Unit 3: Memory management. File management. Disk management

21 Functions, Single contiguous partitioned memory management.

2 Black board/ Lecture /PPT

March 3rd week

22 Paging, Segmentation 1 Black board/ Lecture 2019

23 Demand paging. Virtual memory management.


24 File concepts. File access methods 1 Black board/ Lecture March

25 Directory structures 1 Black board/ Lecture 4th week

26 File sharing. File allocation methods 1 Black board/ Lecture 2019

27 Free space management 1 Black board/ Lecture

28 Disk Structure 1 Black board/ Lecture March 5th week

29 Disk Scheduling methods 1 Black board/ Lecture 2019

30 Disk Management 1 Black board/ Lecture

31 Swap space management 1 Black board/ Lecture

Total hours: 12

Unit 4: History of Unix, Files and File Organization

32 History of Unix, salient features, Unix Components

1 Black board/ Lecture April 1st

week

33 Types of shell. Internal and External commands

2 Black board/ Lecture 2019

34 Files and File Organization- Categories of files


35 Unix file system. Directories 2 Black board/ Lecture April 2nd

36 File related commands. 1 Black board/ Lecture week 2019

37 Directory related commands. 1

38 wild cards, Printing ,Comparing files. 1 Black board/ Lecture

39 Ownership of files, File attributes 1 Black board/ Lecture April 3rd

week 2019

40 File pennissions and Manipulations, 1 Black board/ Lecture/ PPT

41 Standard I/O, Redirection, pipe,

filter.


Total hours : 12

42 Internal Assessment

Test/Quiz/Assignment - 02 Offline

Unit 5: Introduction to vi editor, Shel Programming

43 Introduction to vi editor. The three

modes of the vi editor, Invoking vi editor

1 Black board/ Lecture April 4th

week 2019

44 Configuring the vi environment.

Regular expressions. The grep

command.


45 The process - parent and child process, process creation, process related commands

2 Black board/ Lecture April 5th

week 2019

46 Shell Programming - shell script features, shell variables


47 writing and executing a shell script,

positional parameters arguments 1 Black board/ Lecture/

PPT May 1st

week 2019 48 Branching control structures- if, case. 2 Black board/ Lecture

49 Loop control structures - while, until, for

2 Black board/ Lecture May 2nd

week 2019 50 Jumping control structures: break,

continue, exit


51 Integer and Real arithmetic in shell

programs. Debugging scripts.


Total hours ; 12

Date of submission of IA Marks ;

OD Signat

H.O.D of COMPUTER SCIENCB

Govt. First Grade College K.G.F'56J 122,

Govt

ci

RI e

K. G.

'AL

Grade College

F. - 563 122





Programe: B.Sc Course/Paper Name: Object Oriented Programming Using JAVA

Semester: V Semester Class: PMCS

Name of the Faculty:TANAJI Total Hours: 52

SI.

No. Topic covered

No. of

Lecture

Hours

Methodology/


Unit 1: Introduction to JAVA, Operators, Decision Making Branching and Looping

1 Introduction to JAVA; JAVA

Evolution: Java History, Java Features, How Java Differs from C

and C++,


July 1st

week 2018

2 Java and Internet, Java and World Wide Web, Web Browsers, Hardware and Software Requirements, Java Support Systems,

Java Environment.


3 Overview of JAVA Language; Introduction, Simple Java program.

More of Java Statements, Implementing a Java Program, Java

Virtual Machine


4 Command Line Arguments, Programming Style. Constants,

Variables, and Data Types:

1 Black board/ Lecture/ PPT/ Seminar

July 2nd

week 2018

5 Introduction, Constants, Variables,

Data Types, Declaration of Variables, Giving Values to Variables, Scope of Variables, Symbolic Constants, Type Casting, Getting Values of Variables, Standard Default Values.


6 Operators and Expressions; Introduction, Arithmetic Operators, Relational Operators Logical


July 3rd

week 2018

Operators, Assignment Operators, Increment and Decrement Operators,TConditional Operators,

Bitwise Operators, Special

Operators, Arithmetic Expressions,

7 Evaluation of Expressions, Precedence of Arithmetic Operators,

Type Conversion and Associativity, Mathematical Functions.


July 4th

week 2018

8 Decision Making and Branching; Introduction, Decision Making with

if Statement, Simple if Statement, The if else Statement, Nesting of if.else Statements, The else if Ladder, The Switch Statement, The ?

: Operator.

2 Black board/ Lecture/

PPT/ Seminar

9 Decision Making and Looping: Introduction. The while Statement,

the do Statement, the for Statement, Jumps in Loops Labeled Loops.


July 5th

week 2018

Total hours: 13

Unit 2 : Classes. Arrays. Strings, Vectors, Wrapper C1 asses. Interfaces

10 Classes, Objects and Methods; Introduction, Defining a Class,

Adding Variables, Adding Methods


August 1 week 2018

11 Creating Objects, Accessing Class Members


12 Constructors, Types of Constructors 1 Black board/ Lecture

13 Methods Overloading, Static Members, Nesting of Methods


August 2nd

week 2018

14 Inheritance; Extending a Class Overriding Methods


15 Final Variables and Methods, Finalizer methods, Abstract Methods

and Classes, Visibility Control.


16 Arrays, One-dimensional Arrays, Creating an Array, Two - Dimensional Arrays, Creating an

Array, Two - dimensional Arrays.

2 Black board/ Lecture /PPT/ Seminar

17 Strings 1 Black board/ Lecture

August 3rd

week 2018

18 Vectors 1 Black board/ Lecture

19 Wrapper Classes 1 Black board/ Lecture

August 4th

week 2018

20 Interfaces: Multiple Inheritance; Introduction, Defining Interfaces, Extending Interfaces, Implementing

Interfaces, Accessing Interface Variables.


Total hours: 13 1

21 Internal Assessment Test/Ouiz/Assienment - 01

1 Offiline

Tinit 3; Padcapes. Multithreadine. Exceptions 1

22 Packages; Putting Classes together: Introduction, Java API Packages,

Using System Packages, Naming Conventions,


August 5 week 2018

23 Creating Packages, Accessing a Package, Using a Package, Adding a

Class to a Package, Hiding Classes


24 Multithreaded Programming: Introduction, Creating Threads,

Extending the Thread Class


September

1st week 2018

25 Stopping and Blocking a thread. Life

Cycle of a thread.


26 Using Thread Methods, Thread

Exceptions, Thread Priority,

Synchronization, Implementing the

'Runnable' Interface.


September

2nd week 2018

27 Managing Errors and Exceptions; Introduction, Types of Exception Handling Code


28 Multiple Catch Statements, Using

Finally Statement, Throwing Our Own Exceptions


September

3rd week 2018

29 Using Exceptions for Debugging. 1 Black board/ Lecture

Total hours : 13 1

Unit 4- Armlet Proprammins. Managing Input/Output Files 1

30 Introduction, How Applets Differ

from Applications, Preparing to Write Applets, Building Applet Code


September

5th week 2018 1

31 Applet Life Cycle, Creating an Executable applet, Designing a Web

Page, Applet Tag,


October 1st

week 2018

32 Adding Applet to HTML File, running the Applet, More About HTML Tags,

1 Black board/

Lecture

October 2nd

week 2018

33 Displaying Numerical Values,

Getting Input from the User

1 Black board/ Lecture / PPT

34 Graphics Programming; Introduction,

The Graphics Class, Lines and rectangles, circles

1 Black board/ Lecture/ PPT

October 3rd

week 2018

35 Ellipses, Drawing Arcs, Drawing Polygons, Lines Graphs, Using

Control Loops in Applets, Drawing Bar Charts

2 Black board/ Lecture / PPT

36 Managing Input/Output Files in

JAVA: Introduction, Concept of Streams, Stream Classes


October 4th

week 2018

37 Byte Stream Classes, Character Stream Classes, Using Streams


38 Other Useful I/O Classes, Using the

File Class, Input / Output Exceptions,


November

1st week 2018

39 Creation of Files, Reading / Writing Characters, Reading / Writing Bytes, Handling Primitive Data Types, Concatenating and Buffering Files,


40 Interactive Input and output. Other

Stream Classes.

1 Black board/ Lecture/ / PPT

Total hours : 13

41 Intern

Test/C

al Assessment ►uiz/Assisnment - 02

Offline


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Pri

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K. G. F. - 563 122





Programe: B.Sc Course/Paper Name: Visual Programming Semester: V Semester

Class: PMCS

Name of the Faculty: PRIYA AND DHANALAKHSMI Total Hours: 52

SI.

No. Topic covered

No. of Lecture

Hours

Methodology/


Unit 1: Introduction to Visual Programming

1 The integrated Development Enviromnent - menu bar, tool bar, from designer

1 Black board/

Lecture July 1st

week 2018

2 Project explorer, properties window, from layout window


3 The VB editor. The form object: Properties, events and methods pf forms

1 Black board/ Lecture July 2nd

week 2018

4 Properties - Name, Captain, Backcolor, Borderstyle, controlbox, maxbutton, minbutton, moveable.


5 Startup position, height, width, left, top, scalemode, window, state;

1 Black board/ Lecture July 3rd

week 2018

6 Events -load, unload. Clerk, Activate, Deactivate, Resize, methods - Show, hide, els, Unload


7 print. Controls -Properties and events of different controls such as command buttons, labels, textboxes

2 Black board/ Lecture July 4th

week 2018

8 image controls, timer, horizontal and vertical scroll bars, option buttonscheck boxes, frames lists and combo boxes


July 5th

week 2018

9 Predefined Dialog Boxes - MsgBox and InputBOX.


August 1st

week 2018

Total hours: 13

Unit 2 : Programming

10 Data types, variables; declaration 1 Black board/ Lecture August 2nd

week 2018 11 scope arithmetic operations. Study of

form and code modules 1 Black board/

Lecture/ PPT/ Seminar

12 private and public procedures. Main

procedure


13 Sub and Functions 1 Black board/ Lecture August 3rd

week 2018 14 Mathematical and string Functions 1 Black board/ Lecture

15 Branching Statement: If - Then, if -

Then -Else and Nested If Statements;

Select Case

1 Black board/ Lecture August 4th

week 2018

16 Looping Statement: For - Next,

While - Wend and Do - Loops

1 Black board/ Lecture /PPT/ Seminar

17 Arrays- declaration. Static and

dynamic arrays.

1 Black board/ Lecture August 5th

week 2018

18 Array Function 1 Black board/ Lecture

19 Menus and toolbars-Creating menus

and toolbars

2 Black board/ Lecture September 1st week 2018

20 Working with the menu editor.

Designing Multiple Document

interface forms. Microsoft common

controls.

2 Black board/ Lecture September 2nd week 2018

Total hours: 13

21 Internal Assessment Test/Quiz/Assignment - 01

1 Offiline

Unit 3: OOP methods

22 class Modules 1 Black board/ Lecture September 3rd week 2018 23 Encapsulation and Inheritance

characteristics. 2 Black board/ Lecture

24 Dynamic Link Libraries (DLLs) 2 Black board/ Lecture September 4th week 2018 25 Windows API; Designing Help files 1 Black board/ Lecture

26 File handling 2 Black board/ Lecture September 5th week 2018 27 Sequential,Random access and

Binary files 2 Black board/ Lecture

28 Database connectivity - DAO and ADO Tables

2 Black board/ Lecture October 1st

week 2018

29 Queries, ActiveX Data objects 1 Black board/ Lecture

Total hours ; 13

Unit 4: Visual C++ Programming

30 Obj ects-Classes-V C++Components 1 Black board/ Lecture October 2nd

week 2018

31 Resources-Event Handling 1 Black board/ Lecture

32 Menus 1 Black board/ Lecture

33 Dialog Boxes 1 Black board/ Lecture /PPT

October 3rd

week 2018

34 Importing VBX Controls 1 Black board/

Lecture/ PPT

35 Files - MFC File Handling Black board/ Lecture /PPT

36 Document View Architecture - Serialization

1 Black board/ Lecture October 4th

week 2018

37 Interfacing Other Applications - Multiple Document Interface (MDI)


38 Splitter Windows, Exception Handling, Debugging

1 Black board/ Lecture October 5th

week 2018

39 Object Linking and Embedding (OLE)

Black board/ Lecture

40 Database Application - DLL-

ODBC.

1 Black board/ Lecture/ / PPT

November 1st week 2018

Total hours: 13

41 Intern

Test/C

al Assessment •uiz/Assignment - 02

Offline

Date of submission of IA Marks ;

D Signatui

H.O.DofCOMPUTER SCIENCS Govt. First Grade College

&.Q.F'56J 122.

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Govt First Grade CoileQe K. G. F.-563 122





Progranime;B.Sc Course/Paper NaraeCOMPUTER NETWORKS Semester: VI Class: 111 year PMCs Name of the Faculty: Shuab ulla khan and Priya S Total Hours: 52

SI.

No.


Hours


Unit 1:

1 Introduction; Growth of computer networking, Complexity in network system, Motivation and Tools: Resource sharing, Growth of the internet, probing the internet, interpreting the ping response, tracing a route.

3 Black board. Lecture, Case Studies.

January 5 th

week 2019

2.

Transmission Media: Copper wires, glass fibers, radio, satellite, Geosynchronous satellites, low earth orbit satellites. Low earth orbit satellite arrays, Microwave, Infrared, Light from a laser. Local Asynchronous Communications: Introduction, the need for asynchronous communications, using electric current to send bits, standards for communication, baud rate. Framing and errors. Half and Full duplex asynchronous communication, the effect of noise on communication.

5 Black board, Lecture, Case Studies Feb 1st

week to 3rd

week 2019

3.

Long distance Communication: Sending signals across long distances. Modem hardware used for Modulations and Demodulation, Leased analog data circuites, optical, radio frequency and dialup Modems, carrier frequencies and Multiplexing, baseband and bradband technologies, wave length division multiplexing, spread spectrum, time division multiplexing

5 Black board. Lecture, Case Studies +PPT Feb 4th

week 2019

Total hours: 13

4

Packets, Frames and Error Detection; Concept of Packets, packets and Time- division Multiplexing, Packets and Hardware Frames, byte Stuffing, transmission errors. Parity bits and Parity checking, error detection, Detecting errors with checksums, detecting errors with CRC, Burst errors, frame formats and error detection mechanism.

3 Black board. Lecture, PPT, Case Studies.

March 1st

week2019

5.

LAN Technologies and Network Topologies: Direct point-to-point communications, Shared Communications channels, LAN Topologies, Ethernet, Carries sense on CSMA, Collision Detection and Backoffwih CSMA/CD, Ring Topology and Token Passing, Self- Healing Token Passing Networks, ATM.

3 Black board. Lecture, PPT, Case Studies. March 2nd

week 2019

6. Hardware addressing and Frame Type Identification; specifying a recipient. How LAN hardware uses addresses to filer packets, format of a physical addresses, broadcasting. Multicast addressing, identifying packet contents, frame headers and frame fonnat.

3 Black board, Lecture, PPT, Case Studies.

March 3rd

week 2019

7

LAN Wiring, Physical Topology and Interface Hardware, speeds of LANs and computers, Network Interface Hardware, The connection between a NIC and a network, original thick Ethernet wiring, connection multiplexing, thin Ethernet wiring, twisted pair Ethernet, Network interface cards and wiring schemes, categories of wires.

4 Black board. Lecture, PPT, Case Studies.

March 4,h

week 2019

Internal Assessment Test, Assignment - 01

1

Extending LANs: Fiber Optic Extensions, Repeaters, bridges, frame filtering, switching. Long-distance and Local Loop Digital Technologies: Digital telephony, Synchronous communication, SONET, ISDN, Asymmetric Digital Subscriber Line Technology, other DSL technologies, cable modem technology, upstream communication, Broadcast Satellite systems.

Black board, Lecture, PPT, Case Studies.

April lsl

and 2nd

week 2019

9,

10

WAN technologies and Routing; Large Networks and Wide Areas, Packet switches, forming a WAN, store and forward, Physical addressing in a WAN, Next-Hop forwarding, Source independence, Routing Table Computation, Shortest path computation in a Graph, distance vector routing, like-state routing, Example of WAN technologies. Network Characteristics: Network ownership, Network performance characteristics. Jitter.

Protocols and Layering: the need for protocols, the seven layers. Stacks: Layered Software.

Black board, Lecture, PPT, Seminar, Case Studies.

April

3rdweek

and 4th

week 2019

Black board. Lecture, PPT, Case Studies.

April 5th

week 2019

Internal Assessment Test, seminar, Assignment - 01

Total hours :13 11 Internetworking: internet architecture,

A virtual Network, Layering and TCP/IP protocols.

12

13

Internet Protocol Addresses, APR, IP Datagram's and Datagram Forwarding, IP Encapsulation.

Lecture, Online Classes, PPT, Case Studies.

May 1st

week to 3rd

week2019

Fragmentation, and Reassembly, IPv6, ICMP, UDP, TCP, Internet routing, DNS, WWW, MAIL.

Total hours :13 Date of submission of LA Marks ;

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Programme:B.Sc Course/Paper Name :Web Programming Semester: VI Class : III year PMCs Same of the Faculty: DHANALAKSHMI Total Hours: 52

SI. No

Topic Covered No.of Lecture Hours

Method ology/Ped

agogy

Date Initial

Unit 1;

1. Fundamentals of Web; Internet, WWW, Web Browsers and Web Servers, URLs, MCVLE, HTTP, Security. The Web Programmers Toolbox

05 Text Book, Black Board, System, PPT

Jan 5th

week to

Feb 2nd

week 2019

XHTML; Origins and evolution of HTML and XHTML, Basic syntax. Standard XHTML document structure, Basic text markup, Images, hypertext Links, Lists Tables, Fonns, Frames, syntactic differences between HTML and XHTML


Total Hours 13

2. Unit H

Java Script: Overview of JavaScript: Object orientation

and JavaScript; General syntactic characteristics; primitives. Operations and expressions;


Feb 2nd

week to 4th

week 2019 Screen output and keyboard

input; control statements; Object creation and Modifications;

arrays, functions; constructor, pattern matching using expressions, errors in Scripts; examples


3. Internal Assessment Test/Ouiz/Assignment

01 Test Paper

Total Hours 13

4. Uni tm

Java Script and HTML documents. Dynamic Documents with JavaScript, the JavaScript execution environment; the Document Object Model; Element access in JavaScript; event and event handling; Handling events from the Body elements, Button elements. Text box and Password elements;


March 1st

week to march 2nd

week 2019

the DOM 2 event model; the navigator object; DOM tree traversal and modification. Introduction to dynamic documents; positioning elements; Moving elements; Element visibility; changing colours and fonts; dynamic

content; Stacking elements; Locating the mouse cursor; reacting to a mouse click; slow

movement of elements; Dragging and dropping

elements.


March 2nd

week to 4th

week 2019

5. Internal Assessment Test/Assignment

01 Text Paper

Total Hours 13

6. Unit IV:

CSS: introduction, levels of style sheets. Style specification formats. Selector forms, property value forms. Font properties. List properties. Color, alignment of text. The Box model. Background mages. The <span> and <div> tags, conflict resolution

06 OnLine Classes, PPT, Notes, Video

April 1st

week to 5th

week 2019 XML: Introduction; syntax:

document structure; document Type definitions; Namespaces, XML schemas; displaying raw XML documents; displaying XML documents with CSS; XSLT style sheets; XML processors; Web services.

06 OnLine Classes, PPT, Notes, Video

7. Internal Assessment Test/Assignment

01 OnLine

Total Hours 13 Date of submission of IA Marks :

Signature

H.O.D of COMPUTER SCIENCE

Govt. First Grade College K.O.F-56d 122,

ipa

JRINCI]

Govt. Ism^faflOSHlege

K. G. F. - 563 122