Format No. QSP/7.1/01.F01 (B)Issue No. 04 Rev. No 4 Dated: Dec 23, 2014_____________________________________________________________________________________________UNIVERSITY OF PETROLEUM & ENERGY STUDIESCollege of Engineering StudiesDehradun______________________________________________________COURSE PLANProgramme:B. Tech.(II SEM)Course : Physics -IISubject Code: PHYS-102No. of credits: 4Semester : IISession: Jan 2015- June 2015Batch : Prepared by:Email:

Approved By

______________________________________________ HOD DeanUPES CampusTel : +91-135-2770137Energy AcresFax : +91 135- 27760904P.O. Bidholi, Via Prem NagarWebsite : www.upes.ac.in

COURSE PLANSubject:Physics-IICourse: B. Tech. (II SEM)

Duration:Jan 2015- June 2015 Subject code:PHYS-102

One Session: 60 Minutes1.0LEVEL OF KNOWLEDGE REQUIRED:Students should have knowledge of basic concepts of physics and mathematics.

1.1PREREQUISITE Physics and Mathematics understanding up to 10+2 standard

1.2 CORE REQUISITEPhysics at 10+2 standard2.0 OBJECTIVES OF COURSE:The objectives of this course are:(a) The prime objective of this course is to develop an understanding of the concepts, fundamental laws & principles, which make students familiar with different types of processes in the field of Physics. (b) This course provides the students with a strong comprehension of the fundamental concepts of Engineering Physics and shows how these concepts are applicable for the industry. (c) To develop the ability to apply the knowledge and understanding of Physics to unfamiliar situations (d) To develop the scientific attitude/skills in the practical aspects of handling apparatus, recording observations and drawing diagrams, graphs etc.

3.0 SYLLABUS Sl. NoUnitsContents

1.Unit - 1Wave Mechanics & X-rays

2Unit 2Electromagnetics

3Unit 3Thermal Physics & Statistical Physics

4.0 PEDAGOGY:The course will be taught using lecture method. The concepts will be adequately illustrated with examples to make applications of theoretical concepts clear. Students will be required to make presentations and solve numerical problems.5.0 EVALUATION OF GRADING:Students will be evaluated based on the following 3 stages.5.1 Internal Assessment-30%5.2Mid-term Examination-20%5.3End term Examination-50%

ComponentActivityDuration (hr) MarksRemark

Internal AssessmentClass Test #1 (L-1 to L-12)125 28 Feb 2015

Class Test #2( L-23-L-34)12518 April 2015

Home Assignments/Tutorials40 After completion of each unit

Class Discipline 10Regular assessment

Total100

Mid-Term ExamL1 to L-222100

End-Term ExamL-1 to L-423100

Internal Assessment Record Sheet (including Mid Term Examination marks) will be displayed on LMS at the end of semester i.e. last week of regular classroom teaching. Mid term answer scripts display: Ten Days after the completion of the exam.End term answer scripts display: Ten Days after the completion of the exam.

5.1.1CLASS TESTS/QUIZZES: Two Class Tests based on descriptive type; theoretical & numerical questions and Two Quizzes based on objective type questions will be held. One class test and one quiz at least one week before the Mid Term Examination and second class test and second quiz at least ten days before the End Term Examination. Those who do not appear in Viva-Voce and quiz examinations shall lose their marks. The marks obtained by the students will be displayed on LMS a week before the start of Mid Term and End Term Examinations respectively.5.1.2ASSIGNMENTS: After completion of each unit or in the mid of the unit, there will be home assignments based on theory and numerical problems. Those who fail to submit the assignments by the due date shall lose their marks. The marks obtained by the students will be displayed on LMS after each submission and subsequent evaluation.5.1.3 GENERAL DISCIPLINE: Based on students regularity, punctuality, sincerity and behaviour in the class. The marks obtained by the students will be displayed on LMS at the end of semester.5.2 MID TERM EXAMINATION:WEIGHTAGE 20%Mid Term examination shall be Two Hours duration and shall be a combination of Short and Long theory Questions.5.3 END TERM EXAMINATION:WEIGHTAGE 50%End Term Examination shall be Three Hours duration and shall be a combination of Short and Long theory/numerical Questions.6.0 GRADING:The overall marks obtained at the end of the semester comprising all the above three mentioned shall be converted to a grade.7.0. ATTENDANCE:Students are required to have a minimum attendance of 75% in the subject. Students with less than the stipulated percentage shall not be allowed to appear in the End Term Examination8.0 DETAILED SESSION PLAN MID TERM SYLLABUS: from lecture L1-L19 & END TERM SYLLABUS: from L20- L40Lecture No.Learning ObjectiveTopics to be coveredReferences (Chap./Sec./ Page Nos.of Text Book)Pedagogy

L-1Wave MechanicsIntroduction, photoelectric effectT2: Ch-2HA# 1 & 2

L-2Compton Effect

L-3Pair production & Anihilation

L-4De Broglie waves, Waves of probability, phase and group velocitiesT2: Ch-3

L-5Thought Experiment; Electron microscope, particle diffraction

L-6Uncertainty principle and its applications

L-7Two-slit interference experiment

L-8Wave function and its interpretation, NormalizationT2: Ch-5

L-9Schrodinger time independent & dependent wave equations

L-10Linearity and superposition, expectation values, operators, eigen values & eigen functions.

L-11 & 12Particle in a 1-D box; generalization to 3-D box

L-13Thermal Physics & Statistics PhysicsIntroduction to Statistical PhysicsT2: Ch-9R2: Ch-5HA#3

L-14, 15Statistical Distribution, Maxwell Boltzmann Statistics, Probability function, density of state

L-16Applications of MB Statistics: vrms, vav, vav, av momentum & av energy

L-17Quantum Statistics, B-E Statistics, Probability function, density of state

Quize # 1 (L-1 to L-17) will be conducted on 28 Feb 2015

L-18, 19

Thermal Physics & Statistics PhysicsRayleigh Jeans Formula, Planck Radiation Law & Specific Heat of solids.HA#3

L-20, 21Fermi Dirac Statistics, Probability function, density of state

L-22Fermi energy, electron-energy distribution at 0K

L-23Vector CalculusCoordinate systemsT1: Ch-1,2HA#4

L-24Del operator, Gradient, Divergence, Divergence Theorem, Stokess TheoremT1: Ch-1,2

L-25-28Electrostatic FieldsIntroduction to electrostatics, calculation of electric field, potential and energy due to charge distribution by vector approach.

T1: Ch-3HA #5

L-29-31Dielectric MaterialsPolarization in Dielectrics, Bound charges, Dielectric Constant and strength, Continuity equation and relaxation time Boundary Conditions

T1:Ch-4,5

L-32-34

Magneto-staticsIntroduction, Biot-Savarts law, Amperes Circuit Law; Applications, Magnetic flux density, T1:Ch-6HA# 6

L-35-L37Maxwells Equations & Wave PropagationFaradays Law, Transformer and motional EMF. Displacement current, Maxwells Equations in Final form. T1:Ch-7

Class Test # 2 (L-18 to L-37) will be conducted on 3rd week of April 2015

L-38-39X-RaysOrigin of X-rays, Continuous X-ray Spectra production of characteristic X-Ray spectra Moseleys law, T2: Ch-2

HA# 7

L-40X-ray diffraction and its applications in crystallography

9.0 SUGGESTED READINGS:Books Recommended

T1: Modern Engineering Physics by A. S. Vasudeva, S. Chand, New DelhiT2: Engineering Physics by Malik & Singh, TMH, New DelhiT3: Engineering Physics by Neeraj Mehta, PHI Learning Pvt. Ltd., New DelhiR1: Introduction to Electromagnetics by D J GrifithR2: Elements of Electromagnetics by M N O Sadiku, Oxford Press, Fourth EditionR3: Modern Physics, By Aurther Beiser , TMH VIth edition

10.0OTHER RESOURCES

10.1VIDEO RESOURCES:

Available with Department of Physics

10.2 WEB RESOURCES: http://www.hyperphysics.phy-astr.gsu.edu http://www.ocw.mit.edu http://www.youtube.com