ip phy-112

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Lovely Professional University, Punjab

Course Code Course Title Course Planner Lectures Tutorials Practicals Credits

PHY112 MODERN PHYSICS AND ELECTRONICS 13481::Parminder Kaur 3.0 1.0 0.0 4.0

Course Category Courses with numerical and conceptual focus

TextBooks

Sr No Title Author Edition Year Publisher NameT-1 Concepts of Modern Physics Arthur Beiser 6th 2008 Tata McGraw Hill

T-2 Electronic Devices and Circuit Theory Robert Boylestad andLouis Nashelsky

9th 2007 Pearson Education

Reference Books

Sr No Title Author Edition Year Publisher Name

R-1 Fundamentals of Physics Halliday D Resnick RWalker J

8th 2009 Wiley

Relevant Websites

Sr No (Web address) (only if relevant to the course) Salient Features

RW-1 http://phet.colorado.edu/en/simulation/blackbody-spectrum black body radiation

RW-2 http://phet.colorado.edu/en/simulation/photoelectric photoelectric effect

RW-3 http://www.ndt-ed.org/EducationResources/CommunityCollege/Radiography/Physics/comptonscattering.htm

compton scattering

RW-4 http://phet.colorado.edu/en/simulation/davisson-germer particle diffraction

RW-5 http://www.chm.davidson.edu/ronutt/che115/Box/Box.htm particle in boundary conditions

RW-6 http://www.falstad.com/qm1d/ particle in finite and infinite potential well

RW-7 http://phet.colorado.edu/en/simulation/quantum-tunneling tunnel effect

RW-8 http://phet.colorado.edu/en/simulation/semiconductor energy levels

RW-9 http://phet.colorado.edu/en/simulation/semiconductor semiconductor diode

RW-10 http://transistor.20m.com/transistor.html transistor characterstics

LTP week distribution: (LTP Weeks)

Weeks before MTE 7

Weeks After MTE 6

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WeekNumber

LectureNumber

Broad Topic(Sub Topic) Chapters/Sectionsof Text/referencebooks

Other Readings,RelevantWebsites, AudioVisual Aids,software andVirtual Labs

Lecture Description Learning Outcomes Pedagogical ToolDemonstration/ CaseStudy / Images /animation / ppt etc.Planned

Week 1 Lecture 1 Particle properties of waves(electromagnetic waves) T-1:chapter page no53-56 detail of em spectrum know about em waves

Lecture 2 Particle properties of waves(blackbody radiation and planck'shypothesis)

T-1:chapter 2 pageno 57-62

RW-1 what is black bodyradiation, how classical,echanics failed toexplain it and howplanck introduced quantaof em waves to give avalid explaination of thisphenimena

intoduction of quantammechanics

Audio Visual aid

Lecture 3 Particle properties of waves

(blackbody radiation and planck'shypothesis)

T-1:chapter 2 page

no 57-62

RW-1 what is black body

radiation, how classical,echanics failed toexplain it and howplanck introduced quantaof em waves to give avalid explaination of thisphenimena

intoduction of quantam

mechanics

Audio Visual aid

Week 2 Lecture 4 Particle properties of waves(photoelectric effect)


RW-2 how a different characterof light is confirmed inthis effect

particle nature of light Audio Visual aid

Lecture 5 Particle properties of waves(compton effect)


RW-3 an effect that furtherconfirms the particle

nature of light

particle nature of llight allotment of term paper

Lecture 6 Wave properties of particle(debroglie waves)


de broglie predicted thewave nature of particles

particles have wavenature

Wave properties of particle(wavesof probability)


what the matter wavesare made of

physical significance ofmatter waves

Week 3 Lecture 7 Wave properties of particle(describing a wave)


basic wave equation andits mathematicalrepresentation

to know about waveequation

Lecture 8 Wave properties of particle(phase

and group velocities)

T-1:chapter 3 page

no 99-101

what is difference

between phase and groupvelocities

to know what is

difference betweenphase and groupvelocities

Detailed Plan For Lectures

Spill Over 2

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Week 3 Lecture 9 Quantam modal of particle(particlediffraction)


RW-4 how the electronsundergo diffractionphenomena

experimentalconfirmation of waveproperties of particles

Audio Visual aid

Week 4 Lecture 10 Quantam modal of particle(particleplaced under boundary conditions(particle in a box))


RW-5 particle placed underboundaryconditionsparticle in abox

to know howboundaries play role inquantam mechanics

Lecture 11 Quantam modal of particle(uncertainty principle)


what is uncertaintyprinciple

how uncertainty isinterwovwn in reality ofmatter and not inmethods ofmeasurement

Lecture 12 Quantam modal of particle(applications of uncertaintyprinciple)


some applications ofuncertainty principle

how to applyuncertainty principle

Week 5 Lecture 13 Schrodinger's wave equation(wavefunction)


to know about wavefunction

to know about wavrfunction

Schrodinger's wave equation(thewave equation)


differential equation ofwave

to know differentialform of wave equationand its solutions

Lecture 14 Schrodinger's wave equation(the

wave equation)

T-1:chapter 5 page

no 163-166

differential equation of

wave

to know differential

form of wave equationand its solutions

Schrodinger's wave equation(Schrodinger's wave equation: timedependent form)


Derivation ofSchrodingers waveequation time dependentform

to know about theeqyation that will solveevery problem inquantam mechanics

Schrodinger's wave equation(expectation values)


to know aboutexpectation values

to know aboutexpectation values

Lecture 15 Term Paper,Test 1

Week 6 Lecture 16 Applications of Schrodinger'swave equation(particle in a box)


RW-6 solving the particle in abox problem with SWE

how to apply SWE in aquantam situation

Audio Visual aid

Lecture 17 Applications of Schrodinger'swave equation(particle in a finitepotential well)


RW-6 particle in a finitepotential well

expectation values Audio Visual aid


Week 7 Lecture 19 Applications of Schrodinger'swave equation(tunnel effect)


RW-7 what is tunnel effect expectation values Audio Visual a id

Lecture 20 Applications of Schrodinger's

wave equation(harmonic oscillator)

T-1:chapter 5 page

no 187-191

to solve the problem of

harmonic oscillator inquantam mechanics

expectation values

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Week 7 Lecture 21 Applications of Schrodinger'swave equation(harmonic oscillator)


to solve the problem ofharmonic oscillator inquantam mechanics

expectation values

MID-TERMWeek 8 Lecture 22 Semiconductor diodes(Energy

levels)T-2:chapter 1 page

no 5-7RW-8 Energy levels to know how

semiconductors aredifferent frominsulators andconductors

Audio Visual aid

Semiconductor diodes(n type and ptype semiconductors)


n type and p typesemiconductors

to know about differenttypes of semiconductors

Semiconductor diodes(semiconductor diode and itsbiasing)


RW-9 semiconductor diode andits biasing

to know about diodeand its role in circuits

Audio Visual aid

Lecture 23 Semiconductor diodes(semiconductor diode and itsbiasing)


RW-9 semiconductor diode andits biasing

to know about diodeand its role in circuits

Audio Visual aid

Semiconductor diodes(ideal versuspractical diode)


ideal versus practicaldiode

to know the differencebetween ideal andpractical diode

Lecture 24 Semiconductor diodes(ideal versuspractical diode)


ideal versus practicaldiode

to know the differencebetween ideal andpractical diode

Week 9 Lecture 25 Semiconductor d iodes(resistancelevels)


resistance levels to know aboutvariations in resistancesin adiode

Semiconductor diodes(loadlineanalysis)


solution of electroncircuitry problems byloadline analysis

to know a new methodfor solving circuitproblems

Lecture 26 Diode Applications in series andparallel configuration(Parallel and

Series Parallel Configurations)


Parallel and SeriesParallel Configurations

help students inanalytical thinking and

problem solvingLecture 27 Diode Applications in series and

parallel configuration(Series DiodeConfigurations)


Series DiodeConfigurations

help students inanalytical thinking andproblem solving

Week 10 Lecture 28 Diode Applications in series andparallel configuration(OR Gate)


to learn circuit and solveoutcomes for OR Gate


Diode Applications in series andparallel configuration(AND Gate)

T-2:Chapter 2 pageno 72-73

to learn circuit and solveoutcomes for AND Gate


Lecture 29 Diode Applications in series and

parallel configuration(Sinussoidalinputs Half Wave Rectification)

T-2:chapter 2 page

no 74-77

Sinussoidal inputs Half

Wave Rectification

help students in

analytical thinking andproblem solving

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Week 10 Lecture 29 Diode Applications in series andparallel configuration(Full WaveRectification)


Full Wave Rectification help students inanalytical thinking andproblem solving

Lecture 30 Diode Applications(Clippers) T-2:chapter 2 pageno 81-86

Clippers help students inanalytical thinking andproblem solving

Week 11 Lecture 31 Diode Applications(Clippers) T-2:chapter 2 pageno 81-86

Clippers help students inanalytical thinking andproblem solving

Diode Applications(Clampers) T-2:chapter 2 page

no 87-92

Clampers help students in

analytical thinking andproblem solving

Lecture 32 Diode Applications(Clampers) T-2:chapter 2 pageno 87-92

Clampers help students inanalytical thinking andproblem solving

Lecture 33 Diode Applications(Zener Diode) T-2:chapter 2 pageno 92-100

Zener Diode help students inanalytical thinking andproblem solving

submission of termpaper

Week 12 Lecture 34 Diode Applications(VoltageMultiplier circuits)


Voltage Multipliercircuits


Lecture 35 BJT construction and operation(Transistor Construction) T-2:chapter 3 pageno 131-131 Transistor Construction to know basics oftransistors

BJT construction and operation(Transistor Operation)


Transistor Operation to know basics oftransistors


Week 13 Lecture 37 BJT construction and operation(Common-Base Configuration)


RW-10 CommonBasecharacterstics ofConfiguration

to know transistorconfiguration andproblem solving

Audio Visual aid

Bipolar Junction Transistors

Configurations(TransistorAmplifying Action)

T-2:chapter 3 page

no 137-137

Transistor Amplifying

Action

to know transistor

configuration andproblem solving

Lecture 38 Bipolar Junction TransistorsConfigurations(Common-EmitterConfiguration)


RW-10 CommonEmitter rConfigurationcharacterstics


Audio Visual aid

Lecture 39 Bipolar Junction TransistorsConfigurations(Common-CollectorConfiguration)


CommonCollectorConfigurationcharacterstics

to know transistorconfiguration andproblem solving

SPILL OVERWeek 14 Lecture 40 revision revision of whole

syllabuswith the help of audiovisual aids and

problem solving

Lecture 41 revision revision of wholesyllabus

with the help of audiovisual aids andproblem solving

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Scheme for CA:

Component Frequency Out Of Each Marks Total Marks

Term Paper,Test 2 3 10 20

Total :- 10 20

Details of Academic Task(s)

AT No. Objective Topic of the Academic Task Nature of Academic Task(group/individuals/field

work

Evaluation Mode Allottment /submission Week

Test 1 to check the problemsolving ability ofstudents

syllabus for test will be from lecture 1 to lecture 14. multiple setsof question paper will be given to the students.

Individual weightage is 10 4 / 5

Test 2 to check problemsolving ability ofstudents

syllabus for test will be from lecture 22 to lecture 35. multiplesets of question paper will be given to the students.

Individual weightage is 10 11 / 12

Term Paper,Test 3 To develop paper

writing skill ofstudents

Topics will be alloted as list attached Group 30 marks ( Mid

Term report- 5marks End Termreport- 15 marksViva / presentation-10 marks)

2 / 12

List of suggested topics for term paper[at least 15] (Student to spend about 15 hrs on any one specified term paper)

Sr. No. Topic

1 x-ray

2 Lasers

3 Large Hadron Collider

4 nuclear reactor

5 black holes

6 elementry particles

7 nanotechnology

8 future energy sources

9 fission and fusion reactions

10 optical fibres

11 scanning tunneling microscope

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12 maglev

13 superconductivity

14 magnetic storage devices

15 magnetic resonance imaging

Plan for Tutorial: (Please do not use these time slots for syllabus coverage)

Tutorial No. Lecture Topic Type of pedagogical tool(s) planned(case analysis,problem solving test,role play,business game etc)

Tutorial 1 blackbody radiation and planck's hypothesis,photoelectric effect, compton effect

Problem solving

Tutorial 2 compton scattering, de broglie waves, phase and groupvelocities

Problem solving

Tutorial 3 particle diffraction, particle placed under boundaryconditions(particle in a box), uncertainty principle

Problem solving

Tutorial 4 application of unncertainty principle, wave function, the

wave equation

Problem solving

Tutorial 5 Schrodinger's wave equation: time dependent form,expectation values

Problem solving

Tutorial 6 particle in a box, particle in a finite potential well Problem solving

Tutorial 7 tunnel effect, harmonic oscillator Problem solving

After Mid-TermTutorial 8 Energy Levels, Extrinsic Materials: n-Type and p-Type,

Semiconductor Diode and its biasing, Ideal diodeversus practical

Problem solving

Tutorial 9 Resistance levels, Load-Line Analysis, Series Diode

Configurations, Parallel and Series ParallelConfigurations

Problem solving

Tutorial 10 OR, AND Gates, Sinusoidal Inputs; Half-WaveRectification, Full Rectification, Clippers, Clampers,Zener Diodes, Voltage-Multiplier Circuits,TransistorConstruction

Problem solving

Tutorial 11 term paper review term paper review

Tutorial 12 term paper submission term paper submission

Tutorial 13 Transistor Operation, Common-Base Configuration,Transistor Amplifying Action, Common-Emitter

Configuration, Common-Collector Configuration.

Problem solving

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