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Course: PHYSICS 331, Fall 2011School: Washington
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Washington - PHYSICS - 331
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Washington - PHYSICS - 331
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Washington - PHYSICS - 331
Physics331Instructor:XiaodongXuOffice:B437OfficeHour:34pmThursdayLectureTime:RoomA118,9:3010:20am,TuesdayLabs:RoomB260LabTime:SectionAD:1:304:20,MondaySectionAA:1:304:20,TuesdaySectionAB:1:304:20,WednesdaySectionAC:1:304:20,FridayRequirements:Labs:
Washington - PHYSICS - 118
Physics 1xx Laboratories: Rounding errorshttp:/courses.washington.edu/phys121z/common_policies/WA_roundin.Physics 1xx Laboratories - WebAssignRounding Errors, or, Why Won't WebAssign Accept MyAnswer?Here is a common complaint:"I know I am doing the
Washington - PHYSICS - 118
Physics 1xx Laboratories: Significant figureshttp:/courses.washington.edu/phys121z/common_policies/WA_java_app.Physics 1xx Laboratories - WebAssignJava Applets on WebAssignThe Java applets on WebAssign are adapted from the Java PADs created by Scott B
Washington - PHYSICS - 118
Physics 1xx Laboratories: Units on WebAssignhttp:/courses.washington.edu/phys121z/common_policies/WA_units.phpPhysics 1xx Laboratories - WebAssignUnits on WebAssignMany numerical-entry questions require units to be entered after the number. Some aspec
Washington - PHYSICS - 118
Physics 118 Heat & Electricity Laboratory: Course structurehttp:/courses.washington.edu/phys118/coursestructure.phpPhysics 118 Heat & Electricity LaboratoryHomeMeeting Times/LocationsLab Section/T.A. InfoWebAssignFAQsCourse StructurePre-LabIn-
Washington - PHYSICS - 118
Physics 118 Heat & Electricity Laboratory: Due Dateshttp:/courses.washington.edu/phys118/duedates.phpPhysics 118 Heat & Electricity LaboratoryHomeMeeting Times/LocationsLab Section/T.A. InfoWebAssignFAQsCourse StructurePre-LabIn-ClassPost-Lab
Washington - PHYSICS - 118
Physics 118 Heat & Electricity Laboratory: Email policyhttp:/courses.washington.edu/phys118/email_policy.phpPhysics 118 Heat & Electricity LaboratoryHomeMeeting Times/LocationsLab Section/T.A. InfoWebAssignFAQsCourse StructurePre-LabIn-ClassP
Washington - PHYSICS - 118
Physics 118 Heat & Electricity Laboratory: Frequently Asked Questionshttp:/courses.washington.edu/phys118/faqs.php#webassign_faqsPhysics 118 Heat & Electricity LaboratoryHomeMeeting Times/LocationsLab Section/T.A. InfoWebAssignFAQsCourse Structu
Washington - PHYSICS - 118
Physics 118 Heat & Electricity Laboratory: Gradeshttp:/courses.washington.edu/phys118/grades.phpPhysics 118 Heat & Electricity LaboratoryHomeMeeting Times/LocationsLab Section/T.A. InfoWebAssignFAQsCourse StructurePre-LabIn-ClassPost-LabDue
Washington - PHYSICS - 118
Physics 118 Heat & Electricity Laboratory: Home1 of 3http:/courses.washington.edu/phys118/Meeting Times/LocationsLab Section/T.A. InfoWebAssignFAQsCourse StructurePre-LabIn-ClassPost-LabDue DatesMake-Up WorkGradesEmail policyInstructors O
Washington - PHYSICS - 118
Physics 118 Heat & Electricity Laboratory: Make-up workhttp:/courses.washington.edu/phys118/makeuplabs.phpPhysics 118 Heat & Electricity LaboratoryHomeMeeting Times/LocationsLab Section/T.A. InfoWebAssignFAQsCourse StructurePre-LabIn-ClassPos
Washington - PHYSICS - 118
Physics 118 Heat & Electricity Laboratory: WebAssignhttp:/courses.washington.edu/phys118/webassign.phpPhysics 118 Heat & Electricity LaboratoryHomeMeeting Times/LocationsLab Section/T.A. InfoWebAssignFAQsCourse StructurePre-LabIn-ClassPost-La
Washington - PHYSICS - 118
Physics 119 Waves & Optics Lab: Homehttp:/courses.washington.edu/phys119/Physics 119 Waves & Optics LabMeeting Times/LocationsLab Section/T.A. InfoWebAssignFAQsCourse StructurePre-LabIn-ClassPost-LabDue DatesMake-Up WorkGradesEmail policy
Washington - PHYSICS - 118
PHYSICShttp:/www.washington.edu/students/timeschd/WIN2012/phys.html#phys118Search | Directories | Reference ToolsUW Home > Discover UW > Student Guide > Time ScheduleWinter 2012 Time ScheduleWinter Quarter 2012 Time ScheduleEnrollment and status (op
Washington - PHYSICS - 118
UW Physics Student Quick Start GuideThis Quick Start Guide provides basic instructions for some of your most common tasks. For more information, see the Student Online Help at www.webassign.net/user_support/student/Enrolling in ClassAt the University o
Washington - PHYSICS - 118
Where Do I Log In ?Go to the Login page athttp:/webassign.net/washington/login.htmlClick the LOG IN button and log in with yourUW Net ID.Intro toWebAssign@washingtonPhysics 1xxUniversity of WashingtonHow Do I Pay for WebAssign?What if I forget t
Washington - PHYSICS - 119
Physics 1xx Laboratories: Rounding errorshttp:/courses.washington.edu/phys121z/common_policies/WA_roundin.Physics 1xx Laboratories - WebAssignRounding Errors, or, Why Won't WebAssign Accept MyAnswer?Here is a common complaint:"I know I am doing the
Washington - PHYSICS - 119
Physics 1xx Laboratories: Significant figureshttp:/courses.washington.edu/phys121z/common_policies/WA_sig_figs.phpPhysics 1xx Laboratories - WebAssignSignificant Figures on WebAssignHow does sig figs checking work?Sig figs checking on a computer is v
Washington - PHYSICS - 119
Physics 1xx Laboratories: Units on WebAssignhttp:/courses.washington.edu/phys121z/common_policies/WA_units.phpPhysics 1xx Laboratories - WebAssignUnits on WebAssignMany numerical-entry questions require units to be entered after the number. Some aspec
Washington - PHYSICS - 119
Physics 119 Waves & Optics Lab: Course structurehttp:/courses.washington.edu/phys119/coursestructure.phpPhysics 119 Waves & Optics LabHomeMeeting Times/LocationsLab Section/T.A. InfoWebAssignFAQsCourse StructurePre-LabIn-ClassPost-LabDue Dat
Washington - PHYSICS - 119
Physics 119 Waves & Optics Lab: Due Dateshttp:/courses.washington.edu/phys119/duedates.phpPhysics 119 Waves & Optics LabHomeMeeting Times/LocationsLab Section/T.A. InfoWebAssignFAQsCourse StructurePre-LabIn-ClassPost-LabDue DatesMake-Up Wor
Washington - PHYSICS - 119
Physics 119 Waves & Optics Lab: Email policyhttp:/courses.washington.edu/phys119/email_policy.phpPhysics 119 Waves & Optics LabHomeMeeting Times/LocationsLab Section/T.A. InfoWebAssignFAQsCourse StructurePre-LabIn-ClassPost-LabDue DatesMake
Washington - PHYSICS - 119
Physics 119 Waves & Optics Lab: Frequently Asked Questionshttp:/courses.washington.edu/phys119/faqs.php#webassign_faqsPhysics 119 Waves & Optics LabHomeMeeting Times/LocationsLab Section/T.A. InfoWebAssignFAQsCourse StructurePre-LabIn-ClassPo
Washington - PHYSICS - 119
Physics 119 Waves & Optics Lab: Gradeshttp:/courses.washington.edu/phys119/grades.phpPhysics 119 Waves & Optics LabHomeMeeting Times/LocationsLab Section/T.A. InfoWebAssignFAQsCourse StructurePre-LabIn-ClassPost-LabDue DatesMake-Up WorkGra
Washington - PHYSICS - 119
Physics 119 Waves & Optics Lab: Homehttp:/courses.washington.edu/phys119/Physics 119 Waves & Optics LabMeeting Times/LocationsLab Section/T.A. InfoWebAssignFAQsCourse StructurePre-LabIn-ClassPost-LabDue DatesMake-Up WorkGradesEmail policy
Washington - PHYSICS - 119
Physics 119 Waves & Optics Lab: Make-up workhttp:/courses.washington.edu/phys119/makeuplabs.phpPhysics 119 Waves & Optics LabHomeMeeting Times/LocationsLab Section/T.A. InfoWebAssignFAQsCourse StructurePre-LabIn-ClassPost-LabDue DatesMake-U
Washington - PHYSICS - 119
Physics 119 Waves & Optics Lab: TAs & Sectionshttp:/courses.washington.edu/phys119/TAinfo.phpPhysics 119 Waves & Optics LabHomeMeeting Times/LocationsLab Section/T.A. InfoWebAssignFAQsCourse StructurePre-LabIn-ClassPost-LabDue DatesMake-Up
Washington - PHYSICS - 119
Physics 119 Waves & Optics Lab: WebAssignhttp:/courses.washington.edu/phys119/webassign.phpPhysics 119 Waves & Optics LabHomeMeeting Times/LocationsLab Section/T.A. InfoWebAssignFAQsCourse StructurePre-LabIn-ClassPost-LabDue DatesMake-Up Wo
Washington - PHYSICS - 119
PHYSICShttp:/www.washington.edu/students/timeschd/WIN2012/phys.html#phys119Search | Directories | Reference ToolsUW Home > Discover UW > Student Guide > Time ScheduleWinter 2012 Time ScheduleWinter Quarter 2012 Time ScheduleEnrollment and status (op
Georgia Tech - PHYS - 3122
Physics 3122, Fall 2010: Homework Set 1 Solutions.1.5rrrA (B C)[rrrr]z = Ax (B C)y Ay (B C) x = Ax (BzC x BxCz ) Ay (ByCz BzCy )= ( A x Bz C x A x B x Cz ) ( Ay By Cz Ay Bz Cy ) + ( Az Bz Cz Az Bz Cz )rrrr= ( A x C x + Ay Cy + Az Cz ) Bz ( A
Georgia Tech - PHYS - 3122
Physics 3122, Fall 2010: Homework Set 2 Solutions.1.32rv = xyx + 2 yzy + 3zxz2220rr v = y + 2 z + 3x2020022200 ( y + 2z + 3x )dxdydz = [ yx + 2zx + 3x / 2] dydz = [2 y + 4 z + 6]dydz= [ y + 4 zy + 6 y ] dz = [4 + 8 z + 12] dz = [4 z +
Georgia Tech - PHYS - 3122
Physics 3122, Fall 2010: Homework Set 3 Solutions.2.2 (b replaces d )rrr221qi i1qi ( r ri ) = 4 r r 34 0 i =1 20 i =1 r rirrrrr rrr = zz r1 = (b / 2) x r2 = ( b / 2) x r r1 = r r2 = ( z 2 + b 2 / 4 )1 / 2r1 q( zz bx / 2)1 q( zz + bx /
Georgia Tech - PHYS - 3122
Physics 3122, Fall 2010: Homework Set 4 Solutions.2.20 (assume k 0)rrr(a) E = k[ xyx + 2 yzy + 3 xzz ] E = k (0 2 y ) x + k (0 3z) y + k (0 x ) z 0 No Vrrr(b) E = k[ y 2 x + (2 xy + z 2 ) y + 2 yzz ] E = k (2 z 2 z) x + k (0 0) y + k (2 y 2 y ) z =
Georgia Tech - PHYS - 3122
Physics 3122, Fall 2010: Homework Set 5 Solutions.2.39E 2sL = L / 0C = L /V = 2 0 L / ln(b / a)LW = 1 0 E 2 d = ( 2 / 8 2 0 ) 022b 20abs sdsddz = ( 2 / 8 2 0 ) L2 [ln( s)] aC = Q2 / 2W = 2 L2 / 2W = 2 0 L / ln(b / a)2.40P = 1 0 E 22F = PA
Georgia Tech - PHYS - 3122
Physics 3122, Fall 2010: Homework Set 6 Solutions.3.4rrrrrrrrr E1 = / 0 E 2 = / 0 E = E1 E 2 E = 0rrrrrrrrr SVE da = (VE )d = V Ed + E Vd = ( E )2 drrrV1 = V2 on S V = V1 V2 = 0 on S (E) 2 dt = SVE da = 0V1 /n = V2 /n on S V /n = 0 on S
Georgia Tech - PHYS - 3122
Physics 3122, Fall 2010: Homework Set 7 Solutions.3.7(b)V ( r, ) =Er =q1q122 1/ 2 24 0 [ r 2 ra cos + a ]4 0 [( ra / R) 2 ra cos + R 2 ]1 / 2q( r a cos )q( ra 2 / R 2 a cos )4 0 [ r 2 2 ra cos + a 2 ]3 / 2 4 0 [( ra / R) 2 2 ra cos + R 2
Georgia Tech - PHYS - 3122
Physics 3122, Fall 2010: Homework Set 8 Solutions.3.1631 d 21 d3 63423P3 ( x ) = 3 ( x 1) =3 ( x 3 x + 3 x 1) = (5 x 3 x ) / 22 3! dx 48 dx(1 x 2 ) d 2 P3 ( x ) / dx 2 2 xdP3 ( x ) / dx + 3( 3 + 1) P3 ( x )= (1 x 2 )15 x 2 x (15 x 2 3) / 2 +
Georgia Tech - PHYS - 3122
Physics 3122, Fall 2010: Homework Set 9 Solutions.3.27Q = 3q 2q 2q + q = 0P = 3q( az ) + ( 2q)( ay ) + ( 2q)( ay ) + q( az ) = 2qazQp r2qaz rqa cosV=++2 + = 0 +2 + =4 0 r 4 0 r4 0 r2 0 r 23.29V ( r ) = q / 4 0 r z / 2 q / 4 0 r + z / 22
Georgia Tech - PHYS - 3122
Physics 3122, Fall 2010: Homework Set 10 Solutions.4.9q at origin,p at r ,p r = pr cos F = ( p ) EE = qr / 4 0 r 3 qxpx q3 px qx 2 3 py qxy 3 pzqxzFx = px + py + pz =yz 4 0 ( x 2 + y 2 + z 2 ) 3 / 2 4 0 r 3 4 0 r 5 4 0 r 5 4 0 r 5 x = [
Georgia Tech - PHYS - 3122
Physics 3122, Fall 2010: Homework Set 11 Solutions.5.1( R s) 2 + a 2 = R 2F = qvB = mv 2 / RR 2 2 Rs + s2 + a 2 = R 2R = (s2 + a 2 ) / 2smv = qBR = qB( s2 + a 2 ) / 2 s B = ( kz) /x = 0 OKa /22Bottom F1 = I a / 2 ydy k ( a / 2) x = 1 Ika 2 za /
Georgia Tech - PHYS - 3122
Physics 3122, Fall 2010: Homework Set 12 Solutions.5.13 B d = 0Ienc(a) s < aB = B( s)=0B =0Ienc Jda = (b) J = kss<aIenc =s>aI=as>aIenc = IB2s = 0 Iks2sds = 2ka 3 / 3B = 0 I / 2sk = 3I / 2a 3same as (a)0sks+2s+ds+ = 2ks3 / 3 = Is
Georgia Tech - PHYS - 3122
Physics 3122, Fall 2010: Homework Set 13 Solutions (not graded).6.1 ( x horizontal and y vertical)m1 = Ia 2 y m2 = Ib 2 xr = rxB = 0 [ 3( m1 r ) r m] / 4 r 3 = 0 [0 Ia 2 y ] / 4 r 3 = 0 Ia 2 y / 4 r 3N = m2 B = ( Ib 2 x ) ( 0 Ia 2 y / 4 r 3 ) = 0 I 2
Georgia Tech - PHYS - 3122
Average Electric Field due to Charges in a Sphere Ian R. Gatland, Georgia Institute of Technology Phys 3122 Notes, June 22, 2010 Consider a charge q on the zaxis at a distance z above the origin inside a sphere
Georgia Tech - PHYS - 3122
Legendre Generating Function.Ian R. Gatland, Georgia Institute of Technology.Physics 3122 Notes, June 17, 2010.The electrostatic potential isV (r ) =14 0 ( r+) d +| r r+ |(1)and| r r+ |1 = [ r 2 2 rr+ cos + r+2 ]1 / 2= r1[1 2( r+ / r) c
Georgia Tech - PHYS - 3122
Legendre Polynomials Rodrigues Formula.Ian R. Gatland, Georgia Institute of Technology.Physics 3122 Notes, June 17, 2010.The differential equation for the Legendre polynomials, P ( x ) , is(1 x 2 ) P++( x ) 2 xP+( x ) + ( + 1) P ( x ) = 0and a sol
Georgia Tech - PHYS - 3122
Line Integral. Ian R. Gatland, Georgia Institute of Technology Physics 3122 notes, September 2, 2010 Consider a line integral, v d , where the points on the line are specified in terms of some parameter, t, as x
Georgia Tech - PHYS - 3122
Magnetic Moment. Ian R. Gatland, Georgia Institute of Technology Physics 3122 Notes, July 22, 2010 Preliminaries. Consider a vector field, J ( r ) , that is localized (zero on and outside a surface S surrounding a
Georgia Tech - PHYS - 3123
Physics3123Homework8(due3/18/11)Griffithschapter9:9.19(6points)1) TransmissionthroughametalfoilAplaneE&Mwave(frequency)isincidentnormallyonaconductingfoilofconductivity(dielectricconstant,magneticpermeability)andthicknessd.Thefoilisthickenoughthatmu
Georgia Tech - PHYS - 3123
Physics3123Homework9(due4/1/11)Griffithschapter9:9.29(6points)HollowwaveguidesShowthattheTEwavesthatwefoundinclasssatisfytheboundaryconditionsimposedbyaperfectlyconductingshell(wecheckedsome,butnotallconditionsinclass).(6points)Griffithschapter10:
Georgia Tech - PHYS - 3123
Physics3123Homework10(due4/8/11)1)PleasederivetheLienardWiechertformulaforthevectorpotentialofamovingpointchargestartingfromtheretardedpotentials,Eq.10.19ofGriffiths.(9points)2)Considerapointchargeqthatismovingonacircularorbitofradiusbwithconstantangu
Georgia Tech - PHYS - 3123
Physics3123Homework11(due4/22/11)1)PleasecomputethetimederivativeoftheLinardWiechertvectorpotentialofamovingpointcharge.(9points)2)Considertheradiationcontributiontothemagneticfieldofapointchargeq,whichmovesnonrelativistically(v<c)onalocalizedorbitw(t
Georgia Tech - PHYS - 3123
Physics 3123 (Spring 2011), 1st Quiz3/4/111. A straight wire that coincides with the x-axis of a cartesian coordinatesystem carries current I. A conducting, rectangular loop with sides a (|x)and b (|y ) moves with velocity v = v y away from the wire.
Georgia Tech - PHYS - 3123
Q *it I-6p(*1,0,^5.Tt,3# =-tr.([t_?,r t-iT.Tprl-+tt1t: o lttJ- aE.\ri, \ - b.(*r?I1 .rotr=-Y'\aEcfw_it= ( [* v Lh /^F\Jtt1T:q:nl(lop\(Lnllrv^d4.tSk * v t$-=.rdr -*R\1u_utr T'rv o.p"I/tr 1 ;fu-'tl- -\tt
Georgia Tech - PHYS - 3123
Physics 3123 (Spring 2011), 2nd Quiz4/8/111. Calculate the reection coecient for light at an air-to-copper interface(air copper 0 , air 0 , copper = 6.0 107 1 m1 ) at opticalfrequencies ( = 4 1015 /s). Use that copper copper . The numericalresult is
Georgia Tech - PHYS - 3123
Georgia Tech - PHYS - 3123
Physics3123,Electro&Magnetostatics,Spring2011Instructor: Markus Kindermann, Rm. C203Email:markus.kindermann@physics.gatech.eduOffice hours: by appointmentClass TAs:Adam Kamor, Rm W503, akamor@gmail.comLaminack, William, wlaminack3@gatech.eduOffice
Georgia Tech - PHYS - 3141
PHYS 3141 Midterm ExamSpring 2010Problem 1: The box on the left has adiabatic walls. A partition separatesa region lled with gas from a region of vacuum. At a certain moment, thepartition disintegrates and the gas expands to ll the entire box. The nal
Georgia Tech - PHYS - 3143
Quantum Mechanics I, Physics 3143: Assignment 1, Fall 2010: due 9/7 inclassNotation: We use t to denote /t, etc.1. (a) The (angular) frequency, > 0, and wavenumber, k , of light propagating in thevacuum are related by = c|k |, where c is the speed of
Georgia Tech - PHYS - 3143
Quantum Mechanics I, Physics 3143: Assignment 8, Fall 20101. (a) The spin-1/2 operators act on a vector space C2 of state vectors. Find the normalizedeigenvectors and eigenvalues of the Pauli matrices,100 i01. and z = , y = x = 0 1i010Clearl