Lovely Professional University,Punjab

Course No Cours Title Course Planner Lectures Tutorial Practical Credits

PHY111 WAVES ELECTRICITY AND MAGNETISM 12236 :: Rajesh Kumar 3 1 0 4

Sr. No. (Web adress) (only if relevant to the courses) Salient Features

Sr No Jouranls atricles as compulsary readings (specific articles, Complete reference)

2 Young D. Hugh, Freedman A. Roger, University Physics, Pearson education, 12th edition

3 Purcell E. M., Electricity and Magnetism, Berkeley Physics Course II, Tata McGraw Hill, 2008.

4 Halliday D., Resnick R and Walker J., Fundamentals of Physics, Wiley India Pvt. Ltd., New Delhi, 8th edition, 2008.

Serway A. Raymod, Jewett. W. John, Physics for Scientists and Engineers with modern Physics , Cengage learning, New Delhi, 8th editon

1Text Book:

Other Specific Book:

Relevant Websites

Other Reading

Detailed Plan For Lectures

Week Number Lecture Number Lecture Topic Chapters/Sections of Textbook/other reference

Pedagogical tool Demonstration/case study/images/anmation ctc. planned

Part 1Week 1 Lecture 1 Propagation of disturbance ->Reference

:1,T1/Ch.16/p.450

Format For Instruction Plan [for Courses with Lectures and Tutorials

1 Approved for Autumn Session 2011-12

Week 1 Lecture 2 Analysis model: travelling waves ->Reference :1,T1/Ch.16/p.454

Lecture 3 Sinusoidal waves on string ->Reference :1,T1/ch.16/p.457

Week 2 Lecture 4 Speed of waves on strings ->Reference :1,T1/ch.16/p.458

Lecture 5 Reflection and transmission ->Reference :1,T1/ch.16/p.461

Lecture 6 Rate of energy transfer by sinusoidal waves on strings

->Reference :1,T1/ch.16/p.463

Week 3 Lecture 7 linear wave equation ->Reference :1,T1/ch.16/p.465

Lecture 8 Pressure variations in sound waves ->Reference :1,T1/ch.16/p.469

Lecture 9 Speed of sound waves ->Reference :1,T1/ch.17/p.475

Week 4 Lecture 10 Intensity of periodic sound waves ->Reference :1,T1/ch.17/p.478

Part 2Week 4 Lecture 11 sound level in decibels ->Reference

:1,T1/ch.17/p.480

Lecture 12 Loudness and frequency ->Reference :1,T1/ch.17/p.482

Week 5 Lecture 13 Doppler effect ->Reference :1,T1/ch.17/p.483

http://www.walter-fendt.de/ph14e/dopplereff.htm

Lecture 14 Shock waves

Lecture 15 Analysis Model: waves interference, standing waves ->Reference :1,T1/ch.18/p.501

http://www.walter-fendt.de/ph14e/interference.htm

Week 6 Lecture 16 Analysis Model: Waves under boundary conditions ->Reference :1,T1/ch.18/p.508

Lecture 17 Standing waves in air columns ->Reference :1,T1/ch.18/p.512

http://www.walter-fendt.de/ph14e/stwaverefl.htm

Lecture 18 Standing waves in rods ->Reference :1,T1/ch.18/p.516

http://www.walter-fendt.de/ph14e/resonance.htm

2 Approved for Autumn Session 2011-12

Week 7 Lecture 19 Standing waves in membranes ->Reference :1,T1/ch.18/p.516

http://www.walter-fendt.de/ph14e/stlwaves.htm

Lecture 20 Beats: interference in time ->Reference :1,T1/ch.18/p.516

http://www.walter-fendt.de/ph14e/beats.htm

Lecture 21 Nonsinusoidal wave patterns ->Reference :1,T1/ch.18/p.519

MID-TERMPart 3

Week 8 Lecture 22 Electric current,Resistance ->Reference :1,T1/ch.27/p.752-756

http://www.walter-fendt.de/ph14e/ohmslaw.htm

Lecture 23 A model for electrical conduction, Resistance and Temperature

->Reference :1,T1/ch.27/p.760-762

http://www.walter-fendt.de/ph14e/wheatstone_e.htm

Lecture 24 superconductors, electrical power, Electromotive force

->Reference :1,T1/ch.27-28/p.762-775

Week 9 Lecture 25 Resistors in series and parallel ->Reference :1,T1/ch.28/p.778

http://www.walter-fendt.de/ph14e/combres.htm, http://www.walter-fendt.de/ph14e/combrlc.htm

Lecture 26 Kirchhoffs rules, RC circuits ->Reference :1,T1/ch.28/p.785-788

http://www.walter-fendt.de/ph14e/potentiometer_e.htm,http://www.walter-fendt.de/ph14e/accircuit.htm

Lecture 27 Magnetic fields and forces ->Reference :1,T1/ch.29/p.809

Week 10 Lecture 28 Motion of a charged particle in a uniform magnetic field

->Reference :1,T1/ch.29/p.813

http://www.walter-fendt.de/ph14e/mfbar.htm

Part 4Week 10 Lecture 29 Applications involving charged particles moving in

magnetic field->Reference :1,T1/ch.29/p.816

3 Approved for Autumn Session 2011-12

Week 10 Lecture 30 magnetic force acting on a current carrying conductor

->Reference :1,T1/ch.29/p.819

http://www.walter-fendt.de/ph14e/mfwire.htm

Week 11 Lecture 31 Torque on a current loop in a uniform magnetic field, The Hall effect

->Reference :1,T1/ch.29/p.821-825

Lecture 32 Biot-Savart law, magnetic force between two parallel conductors

->Reference :1,T1/ch.30/p.837-842

Lecture 33 Amperes law, magnetic field of a solenoid ->Reference :1,T1/ch.30/p.844-848

Week 12 Lecture 34 Gausss law in magnetism, magnetism in matter ->Reference :1,T1/ch.30/p.850-852

Lecture 35 Faradays law of Induction, Motional emf, Lenzs law, Induced emf and electric fields

->Reference :1,T1/ch.31/p.867-878

http://www.walter-fendt.de/ph14e/lorentzforce.htm

Lecture 36 Generators and motors, eddy currents ->Reference :1,T1/ch.31/p.880-884

14 http://www.walter-fendt.de/ph14e/electricmotor.htm, http://www.walter-fendt.de/ph14e/generator_e.htm

Spill OverWeek 13 Lecture 37 Waves under boundary conditions ->Reference

:1,T1/ch.18/p.508

Lecture 38 Kirchhoff's rules ->Reference :1,T1/ch.28/p.785-788

http://www.walter-fendt.de/ph14e/potentiometer_e.htm,http://www.walter-fendt.de

Scheme for CA:out of 100*Component Frequency Out Of Each Marks Total Marks

Class test based on homework 2 3 10 20

Total :- 10 20

* In ENG courses wherever the total exceeds 100, consider x best out of y components of CA, as explained in teacher's guide available on the UMS

4 Approved for Autumn Session 2011-12

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 Propagation of disturbance, Analysis model: travelling waves,Sinusoidal waves on string

Problem solving

Tutorial 2 Speed of waves on strings, Reflection and transmission,

Rate of energy transfer by sinusoidal waves on strings

Problem solving

Tutorial 3 linear wave equation, Pressure variations in sound waves,Speed of sound waves

Problem solving,Test

Tutorial 4 intensity of periodic sound waves, Sound level in decibelsLoudness and frequency

Problem solving

Tutorial 5 Doppler effect, Shock waves, Analysis Model: waves interference, Standing waves

Problem solving

Tutorial 6 Analysis Model: Waves under boundary conditionsStanding waves in air columnsstanding waves in rods

Problem solving,Test

Tutorial 7 standing waves in membranesBeats: interference in time Nonsinusoidal wave patterns

Problem solving

After Mid-TermTutorial 8 Electric current,Resistance

A model for electrical conduction, Resistance and Temperature superconductors, electrical power, Electromotive force

Problem solving

Tutorial 9 Resistors in series and parallelKirchhoffs rules, RC circuits Magnetic fields and forces

Problem solving

5 Approved for Autumn Session 2011-12

Tutorial 10 Motion of a charged particle in a uniform magnetic field,Applications involving charged particles moving in magnetic fieldmagnetic force acting on a current carrying conductor

Problem solving,Test

Tutorial 11 Torque on a current loop in a uniform magnetic field, The Hall effect, Biot-Savart law, magnetic force between two parallel conductors Amperes law, magnetic field of a solenoid

Problem solving

Tutorial 12 Gausss law in magnetism, magnetism in matter Faradays law of Induction, Motional emf, Lenzs law, Induced emf and electric fieldsGenerators and motors, eddy currents

Problem solving

6 Approved for Autumn Session 2011-12