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aerospace & mechanical(AE/ME) AE overview • programs available • courses • flowcharts
ME overview • programs available • courses • flowcharts
Aerospace EngineeringAerospace Engineers develop, test and produce high-performance systems for mis-sions into space, the atmosphere, the ocean, and on the ground. They are also in-volved in the development of technologies such as advanced composite sensors, air-breathing propulsion, computational science, and remote-sensor global monitoring.
The aerospace industry still remains the largest exporter of advanced equipment inAmerica. Aerospace Engineers will face a diverse and challenging future developingnew technologies, designing more efficient vehicles, and assisting in the conversionof defense technologies to the commercial sector.
Our Aerospace Engineering department is nationally known for several areas of re-search, including the space sciences, control of turbulence, computational fluid me-chanics, and nonlinear dynamics.
Undergraduate research projects have included the design and construction of a “GetAway Special” (a Space Shuttle payload) and a large radio-controlled model plane
designed to lift as much cargo as possible.
Programs Available• Aerospace Engineeering
Bachelor of Science128-129 units
• Aerospace Engr. (Astronautics)Bachelor of Science130 units
• Applied MechanicsBachelor of Science128 units
See pages 19-21 for the curricula of eachof the B.S. programs listed above.
See pages 78-79 for information on minorprograms offered by the School ofEngineering.
Courses of InstructionThe terms indicated are expected but arenot guaranteed. For the courses offeredduring any given term, consult theSchedule of Classes.
Aerospace and MechanicalEngineering (AME)
203 Mechanics I (5, Fa) An integratedintroduction to statics, strength ofmaterials and design. (Duplicates creditin former ME 203.) Recommendedpreparation: PHYS 151, MATH 126.
205 Mechanics II (5, Sp) An integratedintroduction to kinematics, dynamics anddesign. (Duplicates credit in former ME205.) Recommended preparation: AME 203.
308 Computer-Aided Analyses forAero-Mechanical Design (3, Sp)Introduction to the finite elementmethod; practical application of computeranalysis tools for structural analyses anddesign. (Duplicates credit in former ME308.) Recommended preparation: ME 205,MATH 245.
341abL Mechoptronics Laboratory Iand II (3-3, FaSp) A coordinatedlaboratory and lecture sequence onaeromechanical instrumentation anddevice control stressing the symbioticintegration of mechanical, optical andelectronic components. (Duplicatescredit in former AE 341abL.) Prerequisite:PHYS 152L, MATH 126.
400 Senior Seminar (1, Fa) Discussionof topics related to technology innovationand professional and industrial practice inaerospace and mechanical engineering.Technical communication experiencesare required. Senior standing. (Duplicatescredit in former ME 400.)
Aerospace Engineering (AE)
105 Introduction to AerospaceEngineering (4, Fa) Gateway to theAerospace Engineering major. Introduc-tion to flight vehicle performance andpropulsion. Elements of the physics ofgases. Laboratory: computers andgraphics; model rocket and glider testflights.
150L Introduction to AerospaceEngineering Analysis (4, Sp) Organiza-tion of problems for computationalsolution; flow charts, computer program-ming, simultaneous linear equations,numerical methods for factoring polyno-mials and evaluating integrals; computergraphics; related subjects. Corequisite:MATH 125.
261 Basic Flight Mechanics (4, Sp)Performance of flight vehicles; maximumspeed, rate-of-climb, range, and endur-ance; basic stability and control, weight,and balance; computer exercises.(Duplicates credit in former AE 205.)Recommended preparation: AME 150L andAME 203.
282 Astronautics and Space Environ-ment I (3, Fa) Solar system, two-bodyproblem, orbits, Hohmann transfer,rocket equation, space environment andits effects on space systems, sun, solarwind, geomagnetic field, atmosphere,ionosphere, magnetosphere. Prerequisite:MATH 226, PHYS 152L.
309 Dynamics of Fluids (4) Fluidstatics; conservation of mass, momentum,and energy in integral and differentialform; applications. Laminar and turbu-lent pipe flow; compressible flow;potential flow over bodies. Recommendedpreparation: AME 205 and ME 310.
311ab Thermal and StatisticalSystems (3-3, FaSp) Thermodynamicsand statistical mechanics; kinetics ofatoms, molecules, and photons; com-pressible fluid dynamics. Prerequisite:MATH 245, PHYS 153L.
17
353 Aerospace Structures I (3, Fa)Shear and bending in symmetrical andunsymmetrical sections; torsion, column,and thin sheet analysis and design,including plastic failures and opensection crippling. Prerequisite: AME 203.
380 Elements of Astronautics and SpaceScience (3, Sp) Sun and solar system.Spacecraft mission design; orbitalmaneuvers. Plasma; electromagneticradiation. Solar wind; magnetospheres;ionospheres; magnetic storms; auroras.Elements of geophysics. Planets. Spaceinstrumentation. Prerequisite: juniorstanding; recommended preparation:MATH 125, MATH 126, MATH 226;PHYS 151L, PHYS 152L, PHYS 153L.
382 Astronautics and Space Environment II(3, Sp) Basics of spacecraft dynamics,Euler’s equation, introduction to spaceplasma physics, spacecraft in plasma,radiation effects on space systems, spaceinstrumentation: detectors, analyzers,spectrometers. Prerequisite: AE 282, PHYS153L.
390 Special Problems (1-4) Supervised,individual studies. No more than oneregistration permitted. Enrollment bypetition only.
410 Molecular Theory of Gases (3)Molecular structure; intermolecularpotentials; molecular processes in gases;molecular interpretation of concepts ofclassical thermodynamics; radiativetransport phenomena in gases. Prerequi-site: ME 310.
428 Mechanics of Materials (3) (Enroll inCE 428)
429 Structural Concept Design Project (3)(Enroll in CE 429)
441abL Senior Projects Laboratory (3-3)Individual engineering projects designedand constructed to model and test aphysical principle or system. Recommendedpreparation: AE 341L.
453 Aerospace Structural Design Project(3) Synthesis of aerospace structuralsystems with prescribed strength andstiffness constraints; project proposals;concept generation and preliminaryanalysis; evaluation of alternate designapproaches; project management;technical presentations. Prerequisite: AE353.
457 Engineering Fluid Dynamics (3)(Enroll in ME 457)
458 Theory of Structures II (3) (Enrollin CE 458)
460 Aerodynamic Theory (3) Basicrelations describing the inviscid flowfield about bodies and wings moving atsubsonic and supersonic speeds. Prerequi-site: AE 309.
461 Flight Mechanics (3) Applications ofbasic aerodynamics to aircraft and missileperformance, power and thrust, stabilityand control, compressibility effects.Recommended preparation: AE 309.
465 High-Speed Aerodynamics (3)Transonic and supersonic aerodynamics;application to high-speed airplanes.Prerequisite: AE 460.
473 Spacecraft Propulsion (3) Introductionto rocket engineering. Space missionsand thrust requirements. Compressiblegas dynamics. Propellant chemistry andthermodynamics. Liquid- and solid-fueled rockets. Nuclear and electricpropulsion. Prerequisite: senior or graduatestanding.
477 Solar System Exploration (3, Fa)Overview of current knowledge of solarsystem heliosphere, with emphasis onatmospheric and magnetosphericstructure, including experimentalmethods of observation. Prerequisite:MATH 245.
481 Aircraft Design (3, Sp) Aircraft designand analysis, design requirements andspecifications; integration of structure,propulsion, control system, and aerody-namic configuration; performanceanalysis and prediction. Recommendedpreparation: AE 205, AE 309, AE 353.
482 Spacecraft Design (4, Sp) Space-craft mission design, space environment,attitude determination and control,telecommunications, propulsion,structures and mechanisms, thermalcontrol, power systems, launch systemsand facilities. Semester design project.Prerequisite: junior or senior standing inengineering or physics.
483 Spacecraft Dynamics (3, Sp) Two-body motion, rigid-body motion, attitudedynamics and maneuvers, spacecraftstabilization: gravity gradient, reaction
wheels, magnetic torques, thrusterattitude control. Prerequisite: seniorstanding.
485 Molecular Gas Dynamics (3)Physical description of kinetic nature ofgas flows; distribution function; introduc-tion to the Boltzmann equation; free-molecule flow; surface and molecularreflection properties; Monte-Carlo flowcalculations. Recommended preparation: AE309 or AE 311b.
486 Fundamental Processes in HighTemperature Gases (3) Fundamentalcollisional and radiative processes (ionic,atomic, and molecular); basic conceptsand principles of microscopic approach todescription of physical properties ofenergetic gas flow. Prerequisite: seniorstanding.
490x Directed Research (2-8, max 8)Individual research and readings. Notavailable for graduate credit. Prerequisite:departmental approval.
499 Special Topics (2-4, max 8) Coursecontent to be selected each semesterfrom recent developments in aerospaceengineering and related fields.
Graduate Courses
501 Spacecraft System Design (3)
502 Systems for Remote Sensing from Space(3)
503 Elements of Vehicle and Energy SystemsDesign (3, Irregular)
504 Elements of Composite Structure Design(3, Sp)
506 Design of Low Cost Space Missions (3,Sp)
507 Mechanics of Solids I (3)
508 Spacecraft Power Systems (3, Sp)
510ab Dynamics of Incompressible Fluids (3-3, FaSp)
511 Compressible Gas Dynamics (3, Sp)
512 Aerodynamics of Wings and Bodies (3,Fa)
516ab Flight Vehicle Stability and Control (3-3)
aerospace engineering
18
520ab Physical Gas Dynamics (3-3, FaSp)
525ab Engineering Analysis (3-3, FaSp)
529 Aircraft Structures Analysis (3, Sp)
535ab Introduction to Computational FluidMechanics (3-3, FaSp)
542 Theory of Plates (3)
543 Stability of Structures (3)
546 Basic Aeroelasticity (3, Irregular)
547 Advanced Aeroelasticity (3, Irregular)
549ab Systems Architecting (3-3)
550ab Seminar in Aerospace Engineering (1-1, FaSp)
556 Systems Architecture Design Experience(3, Sp)
557 Space Exploration Architectures ConceptSynthesis Studio (3, Sp)
560ab Current Topics in Aerodynamics (3-3)
564 Computational Techniques in RarefiedGas Dynamics (3, Irregular)
565 Theoretical and Computational Hyper-sonic Aerodynamics (3, Irregular)
572L Experimental Engineering Projects (3)
575 Advanced Engineering Analysis (3)
576 Advanced Engineering AnalyticalMethods (3)
580 Orbital Mechanics I (3)
581 Orbital Mechanics II (3, Fa)
582 Spacecraft Attitude Control (3,SpSm)
583 Spacecraft Attitude Dynamics (3)
585 Space Environments and SpacecraftInteractions (3)
586 Partially Ionized Plasmas (3)
587 Gas-Surface Processes (3, Sp)
590 Directed Research (1-12)
594abz Master’s Thesis (2-2-0)
599 Special Topics (2-4, max 9)
620 Aero and Hydrodynamic Wave Theory (3)
621 Stability of Fluids (3)
623 Dynamics of Stratified and RotatingFlows (3)
624 The Fluid Dynamics of Natural Phenom-ena (3)
626 Singular Perturbation Methods (3)
630 Transition to Chaos in DynamicalSystems (3)
640 Advanced Theory of Elasticity (3)
651 Statistical Theories of Turbulence (3)
652 Turbulent Shear Flows (3)
690 Directed Research (1-4, max 8)
694abz Thesis (2-2-0)
790 Research (1-12)
794abcdz Doctoral Dissertation (2-2-2-2-0)
aerospace engineering
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22
Programs Available• Mechanical Engineering
Bachelor of Science128 units
• Mechanical Engineering (Petroleum)Bachelor of Science131 units
• Music Recordingminor (through the Music School)
See pages 25-26 for the curricula of eachof the B.S. programs listed above.Information on the degree emphasis canbe found below.
See pages 78-79 for information on minorprograms offered by the School ofEngineering.
Minor in Music RecordingSee the USC Thorton School of Musicsection of the USC Catalogue for informa-tion on the Minor in Music Recording.
Courses of InstructionThe terms indicated are expected but arenot guaranteed. For the courses offeredduring any given term, consult theSchedule of Classes.
Mechanical Engineering (ME)
101L Introduction to Mechanical Engineer-ing and Graphics (3, Fa) Gateway to thebachelor of science degree in mechanicalengineering. Introduction to mechanicalengineering disciplines and practice;graphical communication and layout ofmachine parts; introduction to computer-aided drafting and drawing.
150L Introduction to ComputationalMethods in Mechanical Engineering(4, Sp) Computer programming; organiza-tion of problems for computationalsolution; introduction to software forcomputation and graphics; applications tomechanical engineering problems.Corequisite: MATH 125.
201 Statics (3, Fa) Analysis of forcesacting on particles and rigid bodies instatic equilibrium; equivalent systems offorces, friction, centroids and moments ofinertia; introduction to energy methods.Prerequisite: PHYS 151L, MATH 125.
204 Strength of Materials (3, Sp) Stress,strain and deflection of torsion members,beams in shear and bending, column andcombined loads; energy methods,statically indeterminate structures; designof mechanical elements. Prerequisite: ME201.
301 Dynamics (3, Fa) Particle and rigidbody dynamics in two and three dimen-sions; concept of dynamic equilibriumand techniques of solution, includingenergy methods; introduction to vibra-tions. Prerequisite: ME 201.
302 Design of Dynamic Systems (3, Sp)Modeling of lumped parameter elementsand systems; free and forced response offirst and second order systems; designoriented approach to dynamic systems;microelectromechanical systems.Recommended preparation: MATH 245, AE309, AME 205.
303 Dynamics of Machinery (3, Sp)Kinematics, inertia effects, and balancingof rotating and reciprocating machineparts; gyroscopic effects; critical speeds;energy variation in machinery; design ofmechanisms. Prerequisite: AME 205.
305 Mechanical Design (3, Fa) Design andanalysis of mechanical elements includ-ing rotating shafts, bearings, welds,springs, screws and power transmissiondevices. Design of small machinesconsidering fatigue and deflection.Prerequisite: ME 204; recommendedpreparation: ME 232.
310 Engineering Thermodynamics I (3,FaSpSm) Fundamental laws of thermody-namics applied to actual and perfect gasesand vapors; energy concepts, processes, andapplications. Prerequisite: MATH 226,PHYS 151L; recommended preparation:FORTRAN or C programming.
312 Engineering Thermodynamics II(3, Sp) Application of thermodynamicprinciples to fluid flow, power cycles, andrefrigeration. Prerequisite: ME 310;recommended preparation: FORTRAN or Cprogramming.
331 Heat Transfer (3, Sp) General prin-ciples underlying heat transfer by conduc-tion, convection, and radiation; steady flowand transient flow. Prerequisite: ME 310;corequisite: AE 309 or CE 309.
390 Special Problems (1-4) Supervised,individual studies. No more than one reg-istration permitted. Enrollment by petitiononly.
403 Stress Analysis (3, Sp) Theories offailure, shear center, unsymmetrical bend-ing, curved beams, torsion of non-circularsections; cylinders, rotating discs, thermalstresses, inelastic strains, energy methods.Prerequisite: AME 203.
404 Mechanical Engineering Problems(3, Fa) Mathematical aspects of the solu-tions to typical advanced mechanical engi-neering problems. Modeling, simulation,computational aspects, computer solutions,and computational tools. Prerequisite: FOR-TRAN.
406 Automotive Engines (3, Irregular)Analysis of performance and operating char-acteristics of automotive engines; discus-sion of carburetion, ignition, fuels, lubrica-tion, and emissions. Prerequisite: ME 312.
Mechanical EngineeringMechanical Engineers apply scientific methodology to find solutions to mechanicalproblems and to create products and systems necessary for everyday life. These prod-ucts range from the most common such as cars and industrial machinery to the verycomplex, including advanced materials and structures that meet the demands of hy-personic space travel, electrical power plants, and instruments for advanced medicaltechnology.
Our Mechanical Engineering program provides the skills necessary to pursue a careerin industrial practice, research or teaching. ME’s will be prepared to address futuretechnological needs such as working with engineered materials, robotics for manufac-turing, materials handling, space applications, technology for emission control, andenvironmental safety.
The ME curriculum provides students with the analytical, laboratory and design skillsneeded to become a leader in any industry. Undergraduates also have the opportunityto participate in research with faculty as well as work with their fellow students onprojects such as designing and building a formula race car and competing in national
engineering contests.
mechanical engineering
23
407 Computer Graphics for Mechani-cal Engineers (3) Point plottingtechniques and line drawing displays;two-dimensional transformations;clipping and windowing; graphics andinteractive graphics; two- and three-dimensional geometric modeling.Recommended preparation: AME 205 andFORTRAN or C programming.
408 Computer-Aided Design of MechanicalSystems (3, Fa) Design of mechanicalsystems using advanced graphicstechniques; computer-aided drafting,design optimization, elements ofcomputer graphics, solids modeling;introduction to computer-aided manufac-turing. Recommended preparation: AME205.
409 Senior Design Project (4, Sp) Model-ing, analysis, integration, layout andperformance analysis of a mechanicalsystem to meet specified design require-ments. Prerequisite: senior standing.
410 Engineering Design Theory andMethodology (3, Fa) Product planning andtask clarification, voice of customers,quality function deployment, conceptualand embodiment design, axiomatictheory of design, product quality andmanufacturability, design decision-making. Junior standing. Recommendedpreparation: ME 305.
413 Fuels and Combustion Fundamentals(3, Irregular) Fuel properties related tocombustion processes; fundamentals ofcombustion processes, standard combus-tion tests, and calculation of flameproperties. Applications. Prerequisite: ME312.
420 Engineering Vibrations I (3, Fa)Theory of free and forced vibrations withand without damping; systems of singleand multiple degrees of freedom;iteration; methods; vibration isolation;instrumentation. Prerequisite: AME 205and MATH 245.
430 Thermal Systems Design (3, Fa)Design methodology for thermal systems;boilers, condensers, air conditioningsystems, power plants and other systemswith thermal energy interaction. Prerequi-site: ME 312 and ME 331.
431 Thermal Design and Analysis ofElectronic Equipment (3, Irregular)Cooling problems in electronic equip-
ment; convective cooling; extendedsurfaces; cold plates; phase-changemethods; thermoelectric cooling; Peltierrefrigeration. Application to spaceavionics and modern computers. Prerequi-site: ME 331.
436 Energy and Propulsion (3, FaSm)Performance and analysis of reciprocat-ing, jet, rocket engines, and hybridsystems. Characteristics of inlets,compressors, combustors, turbines,nozzles and engine systems. Energy andenvironmental problems. Prerequisite: ME310; AE 309 or CE 309.
441abL Experimental Engineering (3-3, a:Fa; b: Sp) Experiments in: a: fluid flow,heat transfer, buckling, torsion, vibration;b: control of dynamic systems, feedbackcontroller design and implementationusing analog/digital computers. Technicalreports: projects. Senior standing.Prerequisite: for a: AE 341L or ME 341L;for b: ME 451.
451 Linear Control Systems I (3, FaSpSm)Transform methods, block diagrams;transfer functions; stability; root-locusand frequency domain analysis anddesign; state space and multiloopsystems. Prerequisite: MATH 245.
452 Intermediate Kinematics (3, Irregular)Analytical solutions to problems in rigidbody kinematics. Complex number andmatrix formulations; degrees of freedomand constraint; applications to mechanismsynthesis. Prerequisite: senior or graduatestanding.
453 Engineering Dynamics (3, Sp)Principles of dynamics applied tomechanical and aerospace problems.Introduction to gyroscopic motion andrigid body dynamics. Prerequisite: AME205 and MATH 245.
457 Engineering Fluid Dynamics (3, Fa)Laminar and turbulent boundary layerflow with and without heat transfer;boundary layer separation, stability,transition and control; introduction tocompressible fluid flow. Prerequisite: ME310, AE 309 or CE 309.
461 Formation Evaluation (3) (Enroll inPTE 461)
462 Economic, Risk and FormationProductivity Analysis (4) (Enroll inPTE 462)
463L Introduction to TransportProcessing in Porous Media (3) (Enrollin PTE 463L)
464L Petroleum Reservoir Engineering (3)(Enroll in PTE 464L)
465L Drilling Technology and SubsurfaceMethods (3) (Enroll in PTE 465L)
481 Environmental Design and Control (3)Detailed analysis of psychometric, heat-transfer, and thermodynamic parametersaffecting domestic, commercial and spaceenvironmental control; selection ofequipment and instrumentation. Casestudies. Prerequisite: ME 312, ME 331,and either AE 309 or CE 309.
489 Numerical Methods in Engineering (3,Sp) Numerical techniques suitable forcomputer solution of roots of equations,integration, simultaneous algebraicequations, ordinary and partial differen-tial equations, polynomial approxima-tions, eigenvalue problems. Prerequisite:MATH 245; recommended preparation:FORTRAN or C programming.
490x Directed Research (2-8, max 8)Individual research and readings. Notavailable for graduate credit. Prerequisite:departmental approval.
499 Special Topics (2-4, max 8) Coursecontent to be selected each semesterfrom recent developments in mechanicalengineering and related fields.
Graduate Courses
502 Lubrication, Friction, and Wear (3,Irregular)
503 Advanced Mechanical Design (3, Fa)
504 Metallurgical Design (3, Sp)
505 Engineering Information Modeling (3,Sp)
509 Applied Elasticity (3, Irregular)
510 Introduction to Continuum Mechanics (3,Fa)
512 Advanced Thermodynamics (3, Sp)
513 Principles of Combustion (3, Sp)
514 Applications of Combustion (3, Fa)
mechanical engineering
24
515 Advanced Problems in HeatConduction (3, 2 years, Sp)
516 Convection Processes (3, Fa)
517 Radiation Heat Transfer (3, Fa)
518 Engineering Gasdynamics (3, Sp)
519 Advanced Fluid Dynamics (3, Fa)
520 Multi-Phase Flows (3, Sp)
521 Engineering Vibrations II (3, Sp)
522 Nonlinear Vibration (3, Fa)
523 Random Vibrations (3, Irregular)
524 Advanced Engineering Dynamics (3, Fa)
525 Engineering Analysis (3, Sp)
526 Engineering Analytical Methods (3, Fa)
536 Rotating Fluid Machinery (3, Irregular)
540 Engineering Statistics (3, Fa)
541 Linear Control Systems II (3, Fa)
542 Nonlinear Control Systems (3, Sp)
543abL Digital Control Systems (3-1)
544 Computer Control of MechanicalSystems (3, Sp)
545 Modeling and Control of DistributedDynamic Systems (3, Sp)
548 Analytical Methods in Robotics (3,SpSm)
559 Creep (3, Sp)
560 Fatigue and Fracture (3, Irregular)
561 Dislocation Theory and Applications (3)
563 Dislocation Mechanics (3)
575 Advanced Engineering Analysis (3, Fa)
576 Advanced Engineering AnalyticalMethods (3, 2 years, Sp)
583 Materials Selection (3, Sp)
584 Fracture Mechanics and Mechanisms
586x Management for Engineers (4,Irregular)
590 Directed Research (1-12)
594abz Master’s Thesis (2-2-0)
599 Special Topics (2-4, max 9)
690 Directed Research (1-4, max 8)
790 Research (1-12)
794abcdz Doctoral Dissertation (2-2-2-2-0)
mechanical engineering
Dr. Mike GruntmanAerospace & Mechanical
Engineering
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aLE
xper
imen
tal E
ngin
eeri
ngM
E 4
41bL
Exp
erim
enta
l Eng
inee
ring
ME
451
Lin
ear C
ontr
ol S
yste
ms
ME
Cor
e E
lec.
(see
***
bel
ow)
PT
E 4
61F
orm
atio
n E
valu
atio
nP
TE
463
LIn
tro.
to T
rans
port
Pro
cess
esP
TE
464
LP
etro
leum
Res
ervo
ir E
ngin
eeri
ngP
TE
465
LD
rilli
ng T
echn
olog
yT
echn
ical
Ele
ctiv
e(s
ee *
***
belo
w)
* A
dvan
ced
stud
ents
wit
h de
part
men
tal a
ppro
val h
ave
the
opti
on o
f com
plet
ing
CH
EM
115
aL in
pla
ce o
f CH
EM
105
aL.
** M
ay ta
ke C
ateg
ory
I, I
I, I
V o
r VI
GE
cla
ss.
***
Any
upp
er-d
ivis
ion
ME
cou
rse
that
is n
ot a
lrea
dy r
equi
red.
****
See
depa
rtm
ent
for
a lis
t of
app
rove
d te
chni
cal e
lect
ives
.
ME 10
1L (3
)MA
TH 12
5 (4)
CHEM
105a
L or
MASC
110L
(4)
GE C
at. V
I (4)
GE C
at. V
(4)
ME 15
0L (4
)[m
ath
125]
MATH
125 (
4)ma
th 1
25PH
YS 15
1L (4
)ma
th12
5
MATH
226 (
4)ma
th 1
26PH
YS 15
2L (4
)ph
ys 1
51L,
[mat
h 22
6]
GE C
at. I
(4)
MATH
245 (
4)ma
th 2
26PH
YS 15
3L (4
)ph
ys 1
52L
GE C
at. II
(4)
ME 31
0 (3)
math
226
, phy
s 151
LAM
E 341
aL (3
)ma
th 1
26, p
hys 1
52L
AE 30
9 (4)
ME C
ORE E
LEC.
(3)
AME 3
08 (3
)PT
E 464
L (3)
pte
463L
ME 45
1 (3)
math
245
AME 3
41bL
(3)
ame
341a
L
AME 4
00 (1
)ME
404 (
3)me
150
LPT
E 465
L (3)
pte
464L
WRI
T 340
(3)
writ
130
GE C
at. IV
(4)
TECH
. ELE
C. (4
)ME
441b
L (3)
me 4
51
freshm
an
sophom
ore
junior
senior
(15 un
its)
(16 un
its)
(17 un
its)
(17 un
its)
(17 un
its)
(15 un
its)
(16 un
its)
(18 un
its)
KEY:
prer
equi
site
[co-
requ
isite
]<<
conc
urre
nt e
nrol
lmen
t>>
WRI
T 130
(4)
AME 2
03 (5
)
AME 2
05 (5
)
PTE 4
63L (
3)ch
em 1
05aL
, mat
h 24
5 PTE 4
61 (3
)pt
e 46
4LME
408 (
3)
ME 40
9 (4)
ME 44
1aL (
3)am
e 34
1bL
27
collaborative high-altitudeflow facility
