1. MIT Department Of Physics - Advanced Standing Credit Advanced Standing Credit The physics advanced Standing Exams (ASE) are threehour,closed book exams covering Classical Mechanics (8.01) or Classical http://web.mit.edu/physics/undergrad/firstyear/asc.html

Prospective Physics Majors Advanced Standing Credit Transfer Credit About the First Year Subjects UROP Overview ... FAQs Advanced Standing Credit The Physics Advanced Standing Exams (ASE) are three-hour, closed book exams covering Classical Mechanics (8.01) or Classical Electromagnetism (8.02) at a level of calculus-based introductory physics texts for science and engineering students such as: University Physics by Young and Freedman; Physics by Halliday, Resnick, and Krane; Physics for Scientists and Engineers by Serway; Physics for Scientists and Engineers by Fishbane, Gasiorowicz, and Thornton. The exams are similar to the final exams given in 8.01 and 8.02, with problems based on a selection of the topics listed below. Neither calculators nor "formula sheets" may be used. The only students eligible to take the 8.01 and 8.02 advanced standing exams are: Those who have never registered for 8.01 or 8.02 at MIT, or

2. Physics Advanced Placement Exams Fall '01 The Department of Physics offers Advanced Standing Examinations for incoming studentseach Fall Semester during the week before instruction begins and, if http://www.physics.cornell.edu/physics/undergradstudies/Adv_Standing_new.html

Advanced Standing Examinations Fall 2003 Monday, August 25, 2003, beginning at 9:00 a.m. 230 Rockefeller Hall The Department of Physics offers Advanced Standing Examinations for incoming students each Fall Semester during the week before instruction begins and, if necessary, at the start of the Spring Semester. Each examination tests knowledge of subject matter in one Cornell Physics course or pair of courses (course content follows). Eligible students passing an examination will receive course credits equal in number to that usually given for completion of the course covered. The Department does not screen candidates before the examination. Instead, each interested student is asked to verify Eligibility Requirement A. The Department chooses to award credit only to students who have had some instruction specifically at the college-level, although not necessarily in a college or university. From experience, it is generally true that neither a good high school-level physics course nor a high score on the ETS Physics Achievement Test indicates sufficient preparation for our Advanced Standing Examination. These examinations are not meant as a "retake" of the equivalent Advanced Placement examinations offered by the College Board. Students select the examinations that best fit their plans for study at Cornell. A departmental representative is available to advise students at the exam room, approximately 30 minutes prior to testing; or one can contact Professor Galik, 108 Newman Lab

3. Holy Cross Physics Advanced Placement The following table summarizes the policy of the Department of Physicsregarding advanced placement Exam, Score, Credit, Placement. http://www.holycross.edu/departments/physics/website/apcredit.html

4. Department Of Physics: Advanced Centres Department of Physics. Advanced Centres. Centre for Advanced Studiesin Materials Science and Solid State Physics. The University Grants http://physics.unipune.ernet.in/academics/centres.shtml

Department of Physics Advanced Centres Centre for Advanced Studies in Materials Science and Solid State Physics The University Grants Commission, New Delhi, has given the status of Centre of Advanced Studies in Materials Science and Solid State Physics to this Department in 1988. In 1993, this status was extended for a further period of five years. Recently in 1998, the UGC has further extended this status to this Department for Phase III, upto March 2002. The UGC gives a suitable funding for the Department under this programme. A Liquid Nitrogen facility was installed in this Department during the first two phases. This was among the major facilities approved by the UGC. This has indeed helped the Department to take up various research programmes on superconductivity, magnetism, characterisation of materials etc. at low temperatures. In the present phase III, UGC has given funding for books, journals, upgradation and automation of facilities, and for research on scanning tunnelling microscopy, nanoparticles, materials science, lasers etc. Collaboration has been established between the Centre of Advanced Studies in this Department and the Centre of Advanced Studies in the University of New Mexico, Albuquerque, USA. A memorandum of Understanding has been signed between the two centres to arrange mutual visits and programmes such as conferences and workshops on areas of mutual interest.

5. Physics Advanced Laboratory physics advanced Laboratory. Advanced Lab Writeups. Dr. Wing's Common WritingErrors Notes Dr. Bickel's Creative Project and Error Paper Notes. http://physics.arizona.edu/~haar/adv_lab.html

Physics Advanced Laboratory Advanced Lab Writeups Dr. Wing's Common Writing Errors Notes Dr. Bickel's Creative Project and Error Paper Notes Dr. Bickel's Notes on Presentations ... AJP Information For Contributors University of Arizona UA Physics Department Radiation Control Office Geology GeoMagnetism Tucson Spectral tables By wavelength - - - HUGE file By element then wavelength - - - HUGE file Modified from Reader J., and Corliss Ch.H. CRC Handbook of Chemistry and Physics; NSRDS-NBS 68 (1980-1) ftp://cdsarc.u-strasbg.fr/cats/VI/16/Site containing a downloadable equivelent of the wavelength table in the CRC handbook: ftp://cdsarc.u-strasbg.fr/cats/VI/16/ get files ReadME and catalog.dat.Z (needs UNIX decompression) Site with interactive wavelength / element search: http://cfa-www.harvard.edu/amdata/ampdata/kurucz23/sekur.html Note log(gf) is related to the intensity of the line but not equivelent. Here, f is the oscillator strength and g is the number of available states, but for emission this does not how likely the upper states are to be populated. In you searches, it is adviced to use a log(gf) -1. This site will give you information concerning the upper and lower states if requested Another version of Bob Kurucz's linelist database, this one setup for searching:

6. SIMS: 1893, Department Of Physics Advanced Laboratory SIMS About SIMS About South Hall Photo Archive 12, 1893 Departmentof physics advanced laboratory. Andrews Lange Commercial Photographers. http://www.sims.berkeley.edu/about/south_hall/photo_archive/photo12.html

sbtrap SIMS About SIMS About South Hall ... Photo Archive 1893: Department of Physics advanced laboratory Previous Next top Home ... Research Last updated: Feb-09-2001

7. TRESPASS: Topical Research In Space Physics Advanced Seminar Series Center For Space Physics. This page has moved to here, if youare not autoforwarded promptly, please click on the link. http://www.bu.edu/csp/trespass/TRESPASS.html

Center For Space Physics This page has moved to here , if you are not auto-forwarded promptly, please click on the link.

8. Physics Advanced Laboratory: Syllabus Physics 4822L physics advanced Laboratory Fall 2002. 1. General informationInstructor Horst D. Wahl office KEN 512 (phone office http://www.physics.fsu.edu/courses/Fall02/phy3802L/syllabus4822.html

Physics 4822L: Physics Advanced Laboratory Fall 2002 1. General information: Instructor:     Horst D. Wahl: office KEN 512 (phone: office 644-3509, home 386-2239,  e-mail  wahl@hep.fsu.edu     Office hours: Monday and Tuesday 11:00 to 12:00, 512 Keen Bldg. (or anytime you can get a hold of me)     Teaching Assistant:  Xiaohang Zhang: office KEN 222 (phone: 644-1076 (from 14:00 to 17:00),             e-mail xxz0013@garnet.acns.fsu.edu, Class meeting times: Monday and Wednesday 14:00to 17:00 (2:00 to 5:00pm) UPL 206 and adjacent rooms. Text: The Art of Experimental Physics , by Daryl W. Preston and Eric R. Dietz, John Wiley and Sons (1991) Other Useful Books Experiments in Modern Physics , by A. C. Melissinos, Academic Press (1966). Statistics for nuclear and particle physicists , by Louis Lyons, Cambridge University Press (1989) An Introduction to Error Analysis , by John R. Taylor, Oxford University Press (1982). Introduction to the Theory of Error , by Yardley Beers, Addison-Wesley (1957). Experimental Physics Modern Methods , by R.A. Dunlap

9. Physics Advanced Laboratory: Syllabus Physics 4822L physics advanced Laboratory Spring 2003. 1. General informationInstructor Horst D. Wahl office KEN 512 (phone office http://www.physics.fsu.edu/courses/Spring03/phy3802L/syllabus4822.html

Physics 4822L: Physics Advanced Laboratory Spring 2003 1. General information: Instructor:     Horst D. Wahl: office KEN 512 (phone: office 644-3509, home 386-2239,  e-mail  wahl@hep.fsu.edu     Office hours: Monday and Tuesday 11:00 to 12:00, 512 Keen Bldg. (or anytime you can get a hold of me)     Teaching Assistant: Sang Jin Lee; office: KEN 220 (phone: 644-1423 ,             e-mail sl02h@garnet.acns.fsu.edu Class meeting times: Monday and Wednesday 14:00 to 17:00 (2:00 to 5:00pm) UPL 206 and adjacent rooms. Text: The Art of Experimental Physics , by Daryl W. Preston and Eric R. Dietz, John Wiley and Sons (1991) Other Useful Books Experiments in Modern Physics , by A. C. Melissinos, Academic Press (1966). Statistics for nuclear and particle physicists , by Louis Lyons, Cambridge University Press (1989) An Introduction to Error Analysis , by John R. Taylor, Oxford University Press (1982). Introduction to the Theory of Error , by Yardley Beers, Addison-Wesley (1957). Experimental Physics Modern Methods , by R.A. Dunlap

10. National Institute Of Physics: Advanced Physics Laboratory Course Number Physics 10. Course Title Physics and Astronomy for Pedestrians*. CoursePolicies for Physics 10. Minumum Passing Score. http://www.nip.upd.edu.ph/physics10.html

Last Updated: 25 February 2002 GE Course Search WWW Search www.nip.upd.edu.ph Course Descriptions NIP Main Course Number: Physics 10 Course Title: Physics and Astronomy for Pedestrians* Course Description: The course serves as an introduction to different aspects of physics and astronomy from its emergence up to its current developments. Prerequisite: None Credits: 3.0 units Course Objectives To introduce concepts from various sub-disciplines of physics and astronomy to students and to develop an appreciation of the position of mankind in the universe. To update the student with the latest development in physics and astronomy. To refine the student's understanding of the role of physics and its sub-disciplines in technological innovations and in the advancement of other fields in the natural and social sciences. The latter, in turn, conditions other human activities, transforming processes by which humans interact. To enable the student to understand the character and functions of science and technology and develop an appreciation of the key role of science and technology in national development. Course Syllabus PART I. CLASSICAL PHYSICS (7.5 hrs)

11. National Institute Of Physics: Advanced Physics Laboratory s NIP Main, Physics......Last Updated 04 Dec 2001. Advanced Physics Laboratory. Google SearchWWW Search www.nip.upd.edu.ph. Course http://www.nip.upd.edu.ph/apl/

Last Updated: 04 Dec 2001 Advanced Physics Laboratory Search WWW Search www.nip.upd.edu.ph Course Descriptions NIP Main Physics 103.1 Fundamental Physics III Laboratory Co-requisite: Physics 103, 3 h. (lab) 1 u. [2nd semester] Physics 104.1 Modern Physics I Laboratory Co-requisite: Physics 104. 3 h. (lab) 1 u. [1st semester] Physics 191 Experimental Physics I Prerequisite: App Physics 181. 10 h. (1 lec, 6 lab, 3 shop work) 4 u. [1st semester] Physics 192 Experimental Physics II Prerequisite: Physics 191. 7 h. (1 lec, 6 lab) 3 u. [2nd semester] Applied Physics 185 Instrumentation Physics I Prerequisite: App Physics 182, Physics 191. 6 h. (3 lec, 3 lab) 4 u. [2nd semester] Applied Physics 186 Instrumentation Physics II Prerequisite: Physics 165, App Physics 185. 6 h. (3 lec, 3 lab) 4 u. [1st semester] Applied Physics 195 Modern Control Systems II Prerequisite: Consent of Instructor 3 h. (lec) 3 u. (Special Topics Course) Enviromental Science 271.1 Photonics Techniques

12. Physics: Advanced Higher physics advanced Higher. Why Physics? The study of Advanced Higher Physics encouragesan interest in current developments and applications of physics. http://www.ceg.org.uk/progress/advhigh/advh2801.htm

Physics: Advanced Higher Why Physics? This course is designed to provide you with a deeper understanding of the nature of Physics and its applications. It builds on the skills, attitudes and abilities that you have developed at Higher level and provides a challenging experience for those who wish to study the subject in greater depth. The study of Advanced Higher Physics encourages an interest in current developments and applications of physics. Entry to the course This is at the discretion of the school/college but you would normally be expected to have attained the following Higher Physics and Higher Mathematics Course Outline The course is made up of four compulsory units – two 40 hour units and two 20 hour units. Mechanics (40hours) Topics studied in this unit include kinematic relationships and relatavistic motion angular motion rotational dynamics gravitation simple harmonic motion wave - particle duality. Electrical Phenomena (40 hours) Topics studied in this unit include electric fields electromagnetism motion in a magnetic field self inductance forces of nature.

13. Physics Advanced Laboratory -- List Of Experiments Physics 4822L physics advanced Laboratory List of experiments AE1.Millikan Oil Drop Experiment (measurement of e) AE2. Gamma http://www.hep.fsu.edu/~wahl/phy4822/advlistf02.html

Physics 4822L: Physics Advanced Laboratory List of experiments: Millikan Oil Drop Experiment (measurement of e) Gamma Ray Spectroscopy with multichannel analyzer. Photoelectric effect , lock-in amplification techniques AE4. Introduction to Lab-View Data Acquisition and Analysis Software. AE5. Preparation of a High Temperature Superconductor , and measurement of its physical properties (powder X-ray diffraction, magnetic measurements) (at NHMFL) This experiment can only be performed at prearranged times (at least two weeks in advance). Hall Effect in Germanium AE7. Determination of the Muon Life Time (needs extra work extra credit!) Particle reaction in a bubble chamber Electron spin resonance Bragg diffraction with microwaves AE11. Digital-to-analog conversion with operational amplifier AE12. Measurement of speed of light by Foucault's method AE13. Grating spectrograph, atomic spectroscopy. AE14. Zeeman Effect (Effect of magnetic fields on atomic spectra, (requires Fabry-Perot expt.in Intermediate Lab)

14. Physics Advanced Laboratory -- List Of Experiments Physics 4822L physics advanced Laboratory List of experiments AE1.Grating spectrograph, atomic spectroscopy. AE2. Zeeman Effect http://www.hep.fsu.edu/~wahl/phy4822/advlists00.html

Physics 4822L: Physics Advanced Laboratory List of experiments: AE1. Grating spectrograph, atomic spectroscopy. AE2. Zeeman Effect (Effect of magnetic fields on atomic spectra, AE3. Millikan Oil Drop Experiment (Measurement of e) ( broken not available) AE4. Gamma Ray Spectroscopy with multichannel analyzer. AE5. Photoelectric effect, Lock-in amplification techniques. AE6. Holography AE7. Introduction to Lab-View Data Acquisition and Analysis Software. AE8. Preparation and Physical Properties of a High Temperature Superconductor (at NHMFL) AE9. Powder X-ray Diffraction of a High Temperature Superconductor (at NHMFL) AE10. Critical Field and / or Critical Current Measurement of a Superconductor (at NHMFL) AE11. Hall Effect in Germanium AE12. Determination of the Muon Life Time ( broken needs repair AE13. Quantum Hall Effect (anticipated ) AE14. Ellipsometer (status uncertain) AE15. Particle reaction in a bubble chamber AE16. Electron spin resonance AE17. Bragg diffraction with microwaves AE18. Digital-to-analog conversion with operational amplifier

15. PHYS-461 Physics Advanced Laboratory Course Outline TRENT UNIVERSITY PHYSICS 461C COURSE OUTLINE ADVANCED LABORATORY INSTRUCTORSPhysics Faculty Demonstrators, Graduate TA's. PREREQUISITES http://www.trentu.ca/academic/physics/coursedescriptions/461CADV_LAB.html

TRENT UNIVERSITY PHYSICS 461C COURSE OUTLINE ADVANCED LABORATORY INSTRUCTORS: PREREQUISITES: All courses required for the Honours program at the 100-, 200- and 300- levels. COURSE DESCRIPTION: This course is designed to provide students with laboratory experience at an advanced level in five areas of research of interest to the faculty. Each laboratory normally will require two 6-hour periods and a formal report. It will, therefore, give students exposure to a number of potential areas of graduate research, at a deeper level of investigation than possible in the 3-hour labs in earlier years. The report will be in the form of a scientific paper, including an abstract, and will normally require some use of the scientific literature. The laboratory schedule will extend over the entire year. It will depend on the experiments selected and, to some extent, the timetables of the students involved. However, a given experiment normally will be performed by all lab groups over a period of a few weeks to facilitate supervision and marking. GRADING SCHEME: Five lab reports worth 20% each will determine the grade.

16. Physics Advanced Higher 0141 641 7741. The CD's listed provide interactive computer models of Advanced HigherPhysics experiments which would be difficult to set up in a laboratory. http://www.strathaven.s-lanark.sch.uk/materials/physics/Physics Advanced Higher.

Physics Using ICT in Advanced Higher Brief Overview Resource Details Further Information School Contact Light & Sound" CD Rom from BTL Publishing supports wave related topics at all levels through simulations, virtual laboratory etc. Site Licence costs around £100. Click on the link below E-mail Phone - Use of "Virtual Experiments" to complement class practical work. Virtual experiments. Full site licence £148. Click on the link below E-mail Phone - The CD's listed provide interactive computer models of Advanced Higher Physics experiments which would be difficult to set up in a laboratory. Many of the items are supported by Intenet style hypertext and photographs. Excellent for use on AH Travelling Waves, Interference, Electrostatic Fields, Potentials, Spectrscopy etc. CD - Focus on Physics - Waves. CD - Focus on Physics - Fields. CD's cost £39.95 each. Extra student copies of theCD cost £10 each. From; Focus Educational Software Ltd PO Box 52 Truro.

17. PHYSICS ADVANCED LEVEL physics advanced LEVEL. Resources Menu. Advancing Physics Outline. AdvancingPhysics 2nd Draft Specification. World Wide Web Links. Worksheets Menu. http://www.exmouthcollege.devon.sch.uk/departments/science/science Intranet/phys

PHYSICS ADVANCED LEVEL Resources Menu Advancing Physics Outline. Advancing Physics 2nd Draft Specification World Wide Web Links ... Worksheets Menu

18. Advanced Character Physics Advanced Character Physics. Thomas Jakobsen. IO Interactive, Farvergade 2.DK1463 Copenhagen K. Denmark. Email tj@ioi.dk, www www.ioi.dk/~tj. Abstract. http://www.ioi.dk/Homepages/tj/publications/gdc2001.htm

Advanced Character Physics Thomas Jakobsen IO Interactive, Farvergade 2 DK-1463 Copenhagen K Denmark Email: tj@ioi.dk , www: www.ioi.dk/~tj Abstract This paper explains the basic elements of an approach to physically-based modeling which is well suited for interactive use. It is simple, fast, and quite stable, and in its basic version the method does not require knowledge of advanced mathematical subjects (although it is based on a solid mathematical foundation). It allows for simulation of both cloth; soft and rigid bodies; and even articulated or constrained bodies using both forward and inverse kinematics. The algorithms were developed for IO Interactive’s game Hitman: Codename 47. There, among other things, the physics system was responsible for the movement of cloth, plants, rigid bodies, and for making dead human bodies fall in unique ways depending on where they were hit, fully interacting with the environment (resulting in the press oxymoron “lifelike death animations”). The article also deals with subtleties like penetration test optimization and friction handling. Introduction The use of physically-based modeling to produce nice-looking animation has been considered for some time and many of the existing techniques are fairly sophisticated. Different approaches have been proposed in the literature [Baraff, Mirtich, Witkin, and others] and much effort has been put into the construction of algorithms that are accurate and reliable. Actually, precise simulation methods for physics and dynamics have been known for quite some time from engineering. However, for games and interactive use, accuracy is really not the primary concern (although it’s certainly nice to have) – rather, here the important goals are

19. Session FM2 - Mini-Conference On Plasma Propulsion Physics: Advanced Plasma Prop Session FM2 Mini-Conference on Plasma Propulsion physics advanced Plasma Propulsion.ORAL session, Tuesday morning, November 16 Vashon, The Westin Seattle. http://www.eps.org/aps/meet/DPP99/baps/abs/S334.html

Previous session Next session Session FM2 - Mini-Conference on Plasma Propulsion Physics: Advanced Plasma Propulsion. ORAL session, Tuesday morning, November 16 Vashon, The Westin Seattle An Overview of Advanced Propulsion for Planetary Exploration J. Brophy (NASA-JPL, Pasadena, CA) A review of advanced propulsion for planetary exploration is presented with the aim of providing a framework for other presentations in this session of the miniconference. The propulsion requirements for various classes of planetary missions are presented followed by a review of promising propulsion concepts and an account of the main challenges in this field. The Role of Numerical Simulation in Advancing Plasma Propulsion P. J. Turchi, P. G. Mikellides, I. G. Mikellides (The Ohio State University, Columbus, OH) Recent Progress on the VASIMR F. R. Chang-Diaz, J. P. Squire, A. V. Ilin, V. T. Jacobson, T. W. Glover (Advanced Space Propulsion Laboratory, JSC/NASA, Houston, TX), F. W. Baity, M. D. Carter, R. H. Goulding (Oak Ridge National Laboratory, Oak Ridge, TN), R. D. Bengtson, B. N. Breizman, L. J. Amador, A. V. Arefiev (University of Texas, Austin, TX) Experimental and theoretical studies on the Variable Specific Impulse Magnetoplasma Rocket (VASIMR) have continued through a NASA led collaborative program involving several research groups. In the experimental area, performance characterization of the VASIMR helicon plasma source has been obtained over a portion of the parameter space, with helium and hydrogen propellant. Density (10^18 - 10^19 m^-3) and temperature (5~eV) were measured at moderate degree of ionization in two separate experimental devices. Helicon design improvement and optimization will be discussed. Experiments with the ion cyclotron resonance heating (ICRH) subsection have begun and preliminary results will be discussed. Theoretical picture and integrated numerical simulation continue to be refined to account for the main physics elements of the VASIMR, including RF absorption and particle acceleration with subsequent detachment in the magnetic nozzle.

20. Advanced Physics Advanced Physics. The Advanced Physics class is open to seniors who havetaken one year of physics. It is a continuation of the previous http://www.benton.k12.in.us/bc/faculty/ghoover/advphys.html

Advanced Physics The Advanced Physics class is open to seniors who have taken one year of physics. It is a continuation of the previous year, with more emphasis toward a lab environment. Class Projects Course Description Course Assignments Hoover Central ... Email

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