Engineering Outreach UNIVERSITY OF IDAHO CATALOG | SPRING 2015
Professional Online Education
Engineering Spring 2015 September 1
Application priority deadline for spring 2015 graduate admission; see www.uidaho.edu/graduateadmissions
November 10
Spring 2015 registration opens; see www.uidaho.edu/registrar/registration/schedule
December 19
Last day to apply for spring graduation without a late fee; see www.uidaho.edu/registrar/graduation
January
Moscow campus
14
Spring 2015 classes begin Last day to register for spring 2015 EO courses (without a late fee) View online sessions and course materials at the EO Portal: eo.uidaho.edu/portal
15
Late payment fees begin
19
Martin Luther King/Human Rights Day — university closed
22
Last day to register or add a course on VandalWeb Last day to register or add without a petition
28
Last day to change to pass/fail grading option Last day to drop or change to audit without receiving a “W” Last day to receive 100 percent refund of course fees No refunds after January 28
29
Late payment fees increase; see eo.uidaho.edu/fees for details
Contact us! eo.uidaho.edu Local: (208) 885-6373 Toll-free: (800) 824-2889 Email: outreach@uidaho.edu
February 1
Application priority deadline for fall 2015 graduate admission; see www.uidaho.edu/graduateadmissions
16
Presidents’ Day — university closed
On the cover photo description: University of Idaho Life Sciences Building University of Idaho Catalog, Vol. 110, No. 5 — November 2014 The University of Idaho Catalog (USPS 651-360) is published five times per year. Published twice in April, once in June, October and November by the University of Idaho Office of the Registrar, Engineering Outreach and Independent Study in Idaho, 875 Perimeter Dr., MS 4260, Moscow, Idaho 83844-4260. Periodicals postage paid at Moscow Idaho 83843. Postmaster: Send address changes to: University of Idaho, Engineering Outreach, 875 Perimeter Dr MS 1014, Moscow, ID 83844-1014.
Outreach Calendar
SPRING 2015 CONTENTS Calendar..............................................................(inside front cover) Why Choose Our Program?.............................................................2 Engineering Outreach.......................................................................3
March
Master’s Degree Programs...............................................................3
16–20 Spring Recess — no classes all week; university remains open 30
Focus Areas.........................................................................................3 Academic Certificates.......................................................................3
Summer 2015 registration opens; see www.uidaho.edu/registrar/registration/schedule
Admission............................................................................................4 New EO Student Checklist..............................................................4
April
Registration and Fees........................................................................5
3
Last day to withdraw or change to audit
20
Fall 2015 registration opens; see www.uidaho.edu/registrar/registration
NetID Account...................................................................................6 What’s New: EO Goes HD...............................................................7 Exam Process......................................................................................8
May
Course Delivery..................................................................................9
11–15
Final Exam Week
15
Spring 2015 semester ends Course completion deadline for spring 2015 EO courses, 3 p.m. Pacific Standard Time Last day to apply for fall 2015 graduation without a late fee; see www.uidaho.edu/registrar/graduation
16
Spring Commencement
24
EO Portal closes — download any sessions, graded materials or exams by end of the day
25
Course Completion...........................................................................9 Finding the CRN...............................................................................10 Spring 2015 Courses........................................................................ 11 Accounting................................................................................ 11 Business..................................................................................... 11 Civil Engineering......................................................................12 Computer Science...................................................................12 Electrical and Computer Engineering..................................13 Engineering — General........................................................... 17
Memorial Day — university closed
Engineering Management...................................................... 17
June 15
Geological Engineering...........................................................18 Summer 2015 classes begin Last day to register for summer 2015 EO courses (without a late fee)
Materials Science and Engineering.......................................18 Mathematics.............................................................................18 Mechanical Engineering......................................................... 20
August 24
Nuclear Engineering................................................................21
Fall 2015 classes begin Last day to register for fall 2015 EO courses (without a late fee)
Statistics....................................................................................21 Technology Management..................................................... 22 Wildlife Resources.................................................................. 22 Academic Departments................................................................. 23 EO Contact Information................................................................ 24 List of Spring 2015 Courses.............................. (inside back cover) 1
Quality Programs. Innovative Delivery!
Why Choose Our Program? Our Mission
Our Innovative Delivery
The University of Idaho considers outreach an integral responsibility. Engineering Outreach’s mission is to serve off-campus students, business and industry by providing quality programs with innovative delivery.
• Course sessions are delivered in a high-resolution proprietary online digital format.
Our Quality Programs
• More than 70 continually updated courses are delivered each fall and spring semester.
• Graded coursework is accessible online through a secure portal.
• Engineering Outreach offers complete master’s degrees, academic certificates and coursework for transfer credit in engineering and related fields.
• Sessions are posted online within two hours of being encoded. • Secure online access is available for course-related communication.
• EO is an established distance education program with 40 years of experience delivering courses to off-campus students.
• EO has one of the university’s most popular websites; it is easily navigated and updated on a daily basis.
• The University of Idaho is a member of the Association of Public Land Grant Universities (APLU) and is regionally accredited by the Northwest Commission on Colleges and Universities (NWCCU).
Our Commitment to Student Success • EO offers consistent and personalized student support services with responsive staff committed to meeting the educational needs of students, accessible by telephone, email and live chat.
• More than 95 percent of EO students complete their courses, and reenrollment rates each semester for graduate students are high.
• University resources, student services and academic advising are available to all EO students.
• EO is approved by the U.S. Department of Veterans Affairs (VA) for U.S. military students. • Engineering graduate programs are supported by undergraduate degree programs that are accredited by the Engineering Accreditation Commission of ABET, http://www.abet.org. 2
Engineering Outreach
eo.uidaho.edu
About Us
Focus Areas
Engineering Outreach is a University of Idaho College of Engineering distance education program. It was established in 1975 to meet the educational needs of Idaho’s just-developing high-tech industry. EO’s first courses were delivered on videotape to regional corporations and libraries. Today, EO students worldwide are earning master’s degrees, academic certificates, and transfer credits completely online.
Select academic departments offer courses delivered by Engineering Outreach that may be applied toward degrees at the University of Idaho, used for transfer credit or taken for professional education. Specific courses are listed on the EO website. • Business • Nuclear Engineering
The University of Idaho, located in Moscow, Idaho, was established in 1889 and currently has more than 10,000 students. The university is an internationally recognized land-grant institution that combines research, graduate and professional education with a strong undergraduate base in the liberal arts and sciences. Visit www.uidaho. edu for more information.
Academic Certificates An academic certificate is a coherent body of coursework designed to reflect specialized expertise. Earning a certificate from the University of Idaho may provide professional advancement opportunities and build a strong foundation for future graduate study. College of Engineering certificate courses already exist in the graduate curricula, and all required courses are delivered online by Engineering Outreach.
Accreditation/Affiliations The University of Idaho is a member of the Association of Public Land Grant Universities (APLU) and is regionally accredited by the Northwest Commission on Colleges and Universities (NWCCU).
Certificates require between 12 and 15 credits of coursework, up to 12 of which may be applied toward a degree at the University of Idaho with academic departmental approval.
College of Engineering graduate programs are supported by its undergraduate programs, which are accredited by the Engineering Accreditation Commission of ABET, http://www.abet.org. These programs include Biological and Agricultural Engineering (B.S.B.A.E.), Chemical Engineering (B.S.Ch.E.), Civil Engineering (B.S.C.E.), Computer Engineering (B.S.Comp.E.), Electrical Engineering (B.S.E.E.), Materials Science Engineering (B.S.M.S.E.) and Mechanical Engineering (B.S.M.E.). The Computer Science degree (B.S.C.S.) program is accredited by the Computing Accreditation Commission of ABET.
Engineering Outreach delivers online courses for the following academic certificates. Also included are the courses scheduled for delivery this spring that apply to those certificates.
Spring 2015 Certificate Courses Analog Integrated Circuit Design Suat Ay, Ph.D. (suatay@uidaho.edu) • ECE 445
Master’s Degree Programs
Introduction to VLSI Design
Engineering Outreach delivers coursework for the master’s degrees listed below. All required coursework may be completed online, and most students will visit campus near the end of their programs to take a comprehensive exam or defend a thesis. These master’s degree programs require between 30 and 36 total credits.
Power System Protection and Relaying Brian Johnson, Ph.D., P.E. (bjohnson@uidaho.edu)
• Civil Engineering (M.Engr.)
Process & Performance Excellence Christopher Williams, Ph.D. (chrisw@uidaho.edu)
• ECE 422 • ECE 476 • ECE 526
• Computer Engineering (M.S., M.Engr.)
Power Systems Analysis Digital Filtering Protection of Power Systems II
• Bus 456 Quality Management • Stat 422 Sample Survey Methods • Stat 456 Quality Management
• Computer Science (M.S.) • Electrical Engineering (M.S., M.Engr.) • Engineering Management (M.Engr.)
Secure and Dependable Computing Systems James Alves-Foss, Ph.D. (jimaf@uidaho.edu)
• Geological Engineering (M.S.) • Mechanical Engineering (M.Engr.)
No certificate courses offered this spring
• Statistical Science (M.S.)
Statistics Chris Williams, Ph.D. (chrisw@uidaho.edu)
• Teaching Mathematics (M.A.T.) • Technology Management (M.S.)
• • • • • • 3
Stat 422 Stat 431 Stat 451 Stat 452 Stat 555 Stat 565
Sample Survey Methods Statistical Analysis Probability Theory Mathematical Statistics Statistical Ecology Computer Intensive Statistics
Admission Students taking courses delivered by Engineering Outreach must be admitted to the University of Idaho. They follow the same admission procedures as on-campus students, working with academic departments and the Office of Admissions. Students may apply online or download application forms from the admissions website. Admission status options include nondegree, undergraduate and graduate.
Graduate Admission
www.uidaho.edu/graduateadmissions Application priority deadlines: • February 1 (summer and fall admission) • September 1 (spring admission)
New EO Student Checklist
Applications received after the deadline but before the official start of the semester for which the applicant is seeking entry will be accepted only if additional students can be accommodated. If graduate admission is not granted prior to the EO registration deadline, students may apply for nondegree admission. Credits for classes taken by students with nondegree status are not automatically transferable into a master’s program, so students should work closely with a faculty adviser during this process.
Access this list online at eo.uidaho.edu/get-started to use active links.
� Apply for admission. � Review the Internet and email policies. � Review information about registration and fees. � After you are admitted, set up your NetID account. Check VandalMail daily for emails from instructors, EO staff or other
Nondegree Admission
U-Idaho offices.
www.uidaho.edu/admissions
� Select a course, noting the course registration number (CRN).
Students apply for nondegree admission for some of the following reasons:
� Contact academic departments for academic advising, course prerequisites and instructor permissions before registering.
• Pursue studies for personal or professional advancement.
� Register by the registration deadline using VandalWeb.
• Meet the registration deadline while graduate admission application is in process.
� Look up or purchase your course textbooks on the VandalStore website.
• Take prerequisites prior to graduate admission. • Earn credits to transfer to another university.
� Review EO’s registration confirmation email, and contact EO if corrections are necessary.
• Earn an academic certificate.
� Find a proctor in your community willing to administer your
Nondegree students receive credit; with academic departmental approval, some or all of these credits may be applied toward a master’s degree at the University of Idaho if graduate admission is granted later.
exams; complete the EO Proctor Information form.
� Pay your course fees by the first day of the semester to avoid late fees.
Undergraduate Admission www.uidaho.edu/admissions
� Read the information about course delivery to enhance your
Engineering Outreach delivers a wide variety of undergraduate courses, but it is not possible to earn a bachelor’s degree completely online through the program.
viewing experience.
� Visit EO’s course schedules to determine when your course sessions are available.
Non-U.S. Citizen and International Admission
� Access online course sessions by logging in to the EO Portal with
www.uidaho.edu/admissions/other-audience-requirements
your NetID and password.
Non-U.S. citizens residing in the United States and other international students have additional admission requirements, which may include TOEFL scores or equivalent, and verification of current visa status or copy of passport.
� Review EO’s calendar for add/drop, refund, course change and course completion deadlines.
� Questions? Contact us! 4
Registration and Fees Register Early!
How to Register
University of Idaho courses have enrollment minimums, and registering early can help ensure that scheduled courses will not be cancelled. This is critical for graduate-level courses that are scheduled for production during the current semester. It is also important to register early because some courses have enrollment caps, which may be reached soon after registration opens. Refer to the EO Calendar on the inside front cover of this catalog to determine when registration opens.
EO students register using VandalWeb; refer to the VandalWeb registration instructions on the EO website. Also refer to the example on page 10 of this catalog, which discusses registering with CRNs (course registration numbers). Students are advised to resolve prerequisite and permission requirements prior to attempting to register on VandalWeb. If the course description lists a prerequisite or permission requirement, students must contact the instructor or the academic department to discuss their academic backgrounds and to request removal of holds. If students receive holds while registering, they are required to take action in order to successfully register.
Fees Students registering for EO courses pay a per-credit fee, and out-ofstate residents pay the same fees as residents. Fees include registration and online course access but do not include textbooks or software.
EO will send an email to each student’s VandalMail account confirming that the student’s registration information was received.
Payment in full is expected at the time of registration and must be received by the first day of class to avoid late fees. If payment is not received by this time, the charges will remain outstanding on the student’s account, and late fees will accrue. EO will not release access to online sessions until payment has been received in full. Students are not automatically dropped due to non-payment and must drop the course to avoid late fees. This can be done either on VandalWeb or by contacting EO; see the EO Calendar on the inside front cover of this catalog for deadlines.
Refunds Registering for a course creates a financial obligation to the University of Idaho. If there is any doubt about a course meeting your needs, contact the instructor with questions prior to registering. Students are responsible for dropping courses prior to the first day of the semester to avoid being billed and graded. To receive a 100 percent refund, the course(s) must be dropped within the first 10 days; there are no refunds after the 10th day. See the Spring 2015 EO Calendar on the inside front cover of this catalog for the refund deadline. Contact EO at eoreg@ uidaho.edu for assistance with dropping courses and refunds.
More information on the following payment options can be found on the EO website: • Visa, MasterCard or Discover credit or debit card
Textbooks
• Check or money order (payable to “University of Idaho Bursar”) sent to Engineering Outreach
Textbooks and software are not included in the course materials supplied by EO, and the cost is not included with registration fees. Required textbooks are listed on the VandalStore’s website at www. vandalstore.com and may be ordered online by selecting Vandal Books; the EO section is typically section 10.
• Tuition voucher from U.S. military or corporation • Electronic bank transfer (e-check) via VandalWeb • Payment plan at www.uidaho.edu/controller/studentaccounts/ paymentplans
Financial Aid
Military Benefits
Graduate and undergraduate students taking courses delivered by EO may be eligible for financial aid if they are enrolled at least half-time; nondegree students are not eligible. Visit Student Financial Aid Services at www.uidaho.edu/financialaid for more information.
University of Idaho programs are approved by the U.S. Department of Veterans Affairs (VA). Visit www.uidaho.edu/dos/veteransaffairs for more information. Tuition assistance for active duty military members may be used for a portion of the Engineering Outreach course fees. Visit eo.uidaho.edu/about-students for more information about how to submit tuition assistance vouchers.
Spring 2015 EO Course Fees* Course Level
UI Undergraduate/Nondegree Admission
UI Graduate Admission
Courses numbered 100–499
$602.00/credit
$701.00/credit
Courses numbered 500–599
$663.00/credit
$701.00/credit
*Fees are subject to change by the Board of Regents of the University of Idaho; refer to the EO website for the most current information. 5
NetID Account Every student receives a University of Idaho NetID account at the time of admission. This account gives a student access to a wide range of services and remains active as long as the student is enrolled. To initially set up the account, the student will be required to set up a security profile and NetID password; follow the directions at http://vandalsetup.uidaho.edu.
NetID and Password
VLab
The NetID is provided in the admission letter and consists of four letters and four numbers, e.g., Joe Vandal’s NetID would be “vand1234.” Students set up their NetID passwords when they first access their accounts.
http://vlab.uidaho.edu The university’s VLab (virtual computer lab) allows students to run university-licensed software on their own computers from anywhere with an Internet connection. After installing a software package called “Citrex Receiver,” students select the program they would like to run in their browsers, and it will open automatically.
EO Portal eo.uidaho.edu/portal Students who have registered for Engineering Outreach courses access their course sessions, handouts and graded materials by logging in to the EO Portal with their NetIDs and passwords.
Some of the software programs available through VLab: • • • • •
VandalWeb http://vandalweb.uidaho.edu VandalWeb allows students to access their personal universityrelated information through a secure website. It provides access to the following: • Payment records, including e-check instructions and setting up direct deposit for financial aid purposes • Personal contact information, such as mailing and email addresses • Student records, including course registrations and degree audits • Final grades and unofficial transcripts
BbLearn http://bblearn.uidaho.edu Some instructors use the BbLearn course management system in addition to the EO Portal to provide supplementary course materials or other features such as online discussion groups and access to grades for individual exams and assignments. To determine if the course instructor uses BbLearn to supplement the EO Portal, log in to the EO Portal and refer to the course syllabus or course website by selecting the Course Links icon.
MathCAD 15 Matlab 2012a Minitab 16 NIST Reference Fluid Properties Populus
VandalMail Students are required to activate and use their U-Idaho email addresses, ending with @vandals.uidaho.edu, to ensure receipt of important university communications in a timely and consistent manner. Students are responsible for all information sent to their VandalMail. EO sends all email communication to students’ VandalMail accounts, including messages about the following: • • • •
Registration status updates Exams that were sent or received Graded coursework being posted in the EO Portal Daily class cancellations for live courses
Per FERPA policies, students’ names and VandalMail email addresses will be disclosed to other students in a course at the request of the instructor. Email addresses are considered “directory information” and may also be disclosed to persons not associated with the course unless the student submits the Request to Restrict the Disclosure of Directory Information form to the Office of the Registrar before the beginning of the semester. Download the form at www.uidaho.edu/registrar/ forms, and select Confidentiality Request form. If a student submits this form after the semester begins, notify the EO enrollment services specialist at eoreg@uidaho.edu as soon as possible.
Resetting Passwords If students need to reset their current NetID passwords or re-establish expired or forgotten NetID passwords, they can find instructions at eo.uidaho.edu/reset, or they can call the U-Idaho Help Desk at 208885-4357.
Old Administration Building Steps 6
What’s New: EO Goes HD
HD camera setup in an EO studio classroom
Better image quality. Smaller file sizes. These are the latest technical innovations from Engineering Outreach.
Timeline
During the summer and early fall of 2014, Engineering
¾ inch Umatic videotapes to distribute to a handful of students
Outreach (EO) updated all of its classrooms with state of
in Idaho.
1975: Engineering Outreach begins by recording courses on
the art High Definition (HD) technology. The reason for this
Late 70s: EO adds the Betamax format after Sony releases the
upgrade was to improve the quality of the visual content
new industrial version of the ½ inch videotape recorder.
delivered to EO students, and to phase out and replace aging and outdated equipment.
1992: EO completely phases out the Betamax and ¾ inch
As we worked through the planning, development and
Umatic formats and offers all courses on VHS videotapes.
implementation of this project, we were extremely happy
1999: EO produces a few short courses on digital CD-Roms on
to see an image where fine details, such as small text and
an experimental basis and explores the possibility of using a DVD
complicated equations, became much more readable. We also
delivery format.
discovered a somewhat unanticipated “side effect” — smaller file sizes, which mean faster download speeds for students.
2002: After extensive research about DVD production, EO
How is it possible to have higher resolution images yet smaller
delivers four courses in DVD format.
download file sizes and the resultant faster download speeds?
2005: EO completes the transition from VHS to DVD delivery.
While our new digital cameras make images that are much more detailed, these images are also much cleaner and free of
2010: EO provides USB course delivery. An entire course
imperfections and unwanted artifacts than the images from
consisting of course materials and more than 30 hours of lectures
our old analog cameras. These exceptionally clean images
can fit on a single USB flash drive.
compress neatly into smaller file sizes. This results in less
2012: All courses are delivered completely online. Lectures can
Internet bandwidth required to download course sessions.
be streamed or downloaded from the EO Portal.
We are pleased with the results of the upgrade project and think EO students will be too. Engineering Outreach has come
2014: EO updates all studio classrooms with high-definition
a long way since the days of sending videocassettes in the mail
technology — improving viewing quality and increasing download
decades ago. And we will keep looking for innovations to make
speeds while requiring less bandwidth.
the Engineering Outreach experience the best it can be. 7
Exam Process Selecting an Exam Proctor
Options for qualified proctors:
Students are responsible for finding a qualified person to administer the exam process in compliance with Engineering Outreach policies. Visit the EO website for more information about the exam process and proctoring requirements, including contact information for the University of Idaho centers that provide proctoring services in Boise, Coeur d’Alene, Idaho Falls and on the Moscow campus.
• Faculty or staff at local educational institutions • Work supervisors, training coordinators or human resources personnel • U.S. military education officers • Public librarians Proctors must be impartial and cannot be students’ personal friends, family members, work subordinates or U-Idaho students. It is the student’s responsibility to pay for proctoring services if there is a charge. Proctors must be certified by EO before exams will be released. EO will notify the student if a new proctor is required.
Qualified proctors must be able to read and comprehend English. Students submit their proctor information to EO each semester by the first day of the semester using the EO Proctor Information form on the EO website.
Exam Process EO notifies both the student and the proctor by email when exams are made available to proctors. Students are responsible for scheduling appointments with their proctors to take exams; refer to the course syllabus or course website for more information about exam deadlines. Proctors will verify students’ picture IDs before releasing exams. Proctors are required to return completed exams by email or fax to EO within 24 hours of completion. EO notifies students by email when exams are received from their proctors and when graded exams are posted in the EO Portal. EO sends all email communication to the student’s VandalMail account.
Academic Integrity Engineering Outreach students and faculty are responsible for maintaining academic integrity as defined by the University of Idaho’s Student Code of Conduct. Students are expected to do the following: • Submit their own work on papers, reports, homework, and exams. • Cite all materials used from other sources, such as e-publications, journal articles, newspapers and books. • Refrain from sharing coursework with other students. • Know the instructor’s expectations for each course. Consequences for academic dishonesty may be imposed by the course instructor or the Dean of Students. Such consequences may include a grade of ‘F’ in the course or expulsion from the university.
Disability Support Services University of Idaho’s Disability Support Services Office (DSS) provides academic support services to students with temporary or permanent disabilities. Students requesting accommodation may send an email to DSS at dss@uidaho.edu. Appropriate disability documentation must be provided and exam accommodation requests must be made each semester. Visit www.uidaho.edu/studentaffairs/asap/dss for more information. 8
Course Delivery Course Delivery
Engineering Outreach Portal
Courses delivered by Engineering Outreach are recorded in University of Idaho studio classrooms and produced for online delivery by EO; they are semester-based and have the same course completion date as oncampus classes. Internet access is required for all EO students to view and/or download course sessions and materials, access and manage VandalMail, and facilitate university services and processes.
Students access online course sessions through the portal link on the EO home page. EO students receive online access on the first day of class, and course sessions are available approximately two hours after being encoded. Sessions may be viewed online or downloaded and saved. Students also access handouts and graded materials in the EO Portal.
Online Sessions
Library Services
In-class sessions are encoded in a high-resolution MP4 format. Broadband access (e.g., DSL, cable or wireless) and a PC or Mac are required for downloading sessions. Students may also view sessions using an Apple iOS or Android device, and may subscribe to their online course sessions using iTunes or via an RSS feed.
University of Idaho Library services are available to Engineering Outreach students at www.lib.uidaho.edu, and video tutorials are provided for off-campus students. Many journal articles are accessible online or by email through interlibrary loan. Select the Distance Education link for information about services and how to obtain a library ID number.
EO recommends using VLC media player to view the downloaded sessions. Visit the EO website for more information about viewing options.
Instructor Contact Instructors can be reached by mail, email, fax or by calling Engineering Outreach at 800-824-2889. Select the Instructor Directory link on the EO home page to view contact information.
If a student is viewing EO courses using a military computer or a restricted-access computer at a workplace and has security concerns about EO course delivery, contact Terri Gaffney, the EO associate director, to discuss delivery alternatives. She can be reached at 800824-2889 or terrig@uidaho.edu.
Course Completion Semester Deadline
Incompletes
The EO course completion deadline for spring 2015 is May 15, 2015, at 3 p.m. pacific time. Final exams for live courses will become available in the EO Portal for proctors to access during finals week on campus; all exams for pre-encoded courses will be available to proctors at the beginning of the semester. It is critical that the student coordinates closely with the proctor to ensure the final exam reaches EO by the deadline.
A grade of “incomplete” can only be assigned if a student has done passing work, but extenuating circumstances make it impossible to complete the course on time. The course instructor will assign the extended deadline. Prior to requesting a grade of incomplete, refer to the most current University of Idaho General Catalog at www.uidaho.edu/ registrar/classes/catalogs, select “General Requirements and Academic Procedures,” then select “Section F — Grades of Incomplete” for detailed information.
Final Course Grades and Transcripts
Students who receive a grade of incomplete must visit the EO Portal by May 24, 2015, to download any sessions necessary to complete the course. EO will notify proctors regarding the exam process for students who have a grade of incomplete.
Students may log in to VandalWeb to view final course grades and unofficial transcripts. Official transcripts may be ordered from the Office of the Registrar; visit www.uidaho.edu/registrar/transcripts for more information.
The University of Idaho has a policy of nondiscrimination on the basis of race, color, religion, national origin, sex, age, sexual orientation, gender identity/expression, disability or status as a Vietnam era veteran. This policy applies to all programs, services, and facilities, and includes, but is not limited to, applications, admissions, access to programs and services, and employment.
9
Finding the CRN Every semester each course is given a specific course registration number that corresponds with the section of the course. EO courses are typically section 10 and have different CRNs from the on-campus section of the same course. Below you will find where each CRN is located within the course description.
Course titles are listed with letter designations from their department and lists the number of credits. Specifies if the course is being recorded in the current semester or if it is a pre-encoded course.
If you have further questions about the course, contact the instructor directly by email.
ME 539 Advanced Mechanics of Materials (3 cr) Same as CE 510 and MSE 539. Limitations of results of elementary mechanics of materials, complex situations of loading and structural geometry, applications to design of machines and structure, introduction to elasticity. Prereq: ME 341 or CE 342. ME 539: CRN 66294 CE 510: CRN 66292 MSE 539: CRN 69954 Produced: Spring 2015 Instructor: Matthew Riley, Ph.D. riley@uidaho.edu
10
Course descriptions provide a short synopsis of the course. Note the required prerequisites and permissions prior to registering, and contact the instructor or department to remove the registration hold.
There are specific course registration numbers (CRN) for each course, as well as for each level and cross list. You are required to use CRNs when registering in VandalWeb.
Panorama view of the University of Idaho campus, Moscow, Idaho
Spring 2015 Courses ACCOUNTING
BUSINESS
Acct 582 Enterprise Accounting (3 cr)
Bus 456 Quality Management (3 cr)
Carries no credit toward master's degree in accounting. Both business and non-business students will learn the critical role played by financial statements as entrepreneurs try to launch a new business. The trade-offs of various funding sources and their impacts on financial statements are also explored. Content will be presented in an integrated manner, rather than concept by concept, to emphasize the interrelatedness of forecasts and assumptions regarding revenues, costs, and financing on financial statements and thus, the resulting business model.
Same as Stat 456. Principles of total quality management, with emphasis on problem solving techniques to continually improve processes; customer-driven quality, management and employee participation, statistical process control, product/process design, and process capability. Prereq: Stat 251 or Stat 301. Note: When this course was produced in fall 2011, there was an additional prereq of Stat 271. Bus 456: CRN 60119 Stat 456: CRN 63065 Produced: Fall 2011 Instructor: Scott Metlen, M.B.A., Ph.D. metlen@uidaho.edu
CRN: 46361 Produced: Spring 2013 Instructor: To be announced
Order textbooks online: www.vandalstore.com 11
CIVIL ENGINEERING
CE 543 Dynamics of Structures (3 cr) Equations of motion, free vibration, damping mechanisms, harmonic, impulse, and seismic loading; shock and seismic response spectra, time and frequency domain analysis, modal analysis, structural dynamics in building codes. Cooperative: open to WSU degree-seeking students.
CE 431 Design of Water and Wastewater Systems I (3 cr) Application of fundamental engineering science to the design of systems for the treatment of domestic and industrial water supplies; treatment and re-use of domestic sewage and industrial wastes. Three lec a wk. Prereq: CE 322, CE 330, or Permission. A minimum grade of 'C' or better is required for all pre/coreqs.
CRN: 63271 Produced: Spring 2015 Instructor: Richard Nielsen, Ph.D., P.E. rnielsen@uidaho.edu
CRN: 62208 Produced: Spring 2015 Instructor: Eric Coats, Ph.D., P.E. ecoats@uidaho.edu
CE 562 Advanced Foundation Engineering (3 cr) Interpretation of in-situ tests for foundation design parameters, bearing capacity and settlement of axially loaded piles, pile groups, and drilled shafts, pile dynamics, laterally loaded deep foundations, downdrag and uplift of deep foundations, foundation load and integrity testing methods and data interpretation, mat foundations. Cooperative: open to WSU degree-seeking students. Prereq: CE 360 or Permission. A minimum grade of 'C' or better is required for all pre/coreqs.
CE 484 Engineering Law and Contracts (3 cr) Project engineering techniques for planning, scheduling, and controlling typical engineering and construction projects. Contract law and application to engineering services agreements and construction contracts; preparing technical specifications, torts, professional liability, and alternate dispute resolution. Prereq: Senior standing in engineering.
CRN: 46203 Produced: Spring 2015 Instructor: Sunil Sharma, Ph.D., P.E. ssharma@uidaho.edu
Note: This course was produced in spring 2014 as CE 404-CL, a special topics course. CRN: 69847 Produced: Spring 2014 Instructor: Eric Coats, Ph.D., P.E. ecoats@uidaho.edu
CE 575 Advanced Pavement Design and Analysis (3 cr) Design of new and rehabilitated asphalt and Portland cement concrete pavements; mechanistic-empirical design procedures; performance models; deflection-based structural analysis, overlay design, environmental effects; long-term pavement performance (LTPP), and introduction to research topics in pavement engineering. Cooperative: open to WSU degree-seeking students. Prereq: CE 475 or Equivalent, or Permission. A minimum grade of 'C' or better is required for all pre/ coreqs.
CE 510 Advanced Mechanics of Materials (3 cr) See ME 539.
CE 512 Advanced Topics in Waste Management and Treatment (3 cr)
CRN: 46373 Produced: Spring 2015 Instructor: Fouad Bayomy, Ph.D., P.E. bayomy@uidaho.edu
Modeling, analysis, and design of advanced and emerging engineering technologies and processes for waste management/treatment and resource recovery. Prereq: Instructor Permission. CRN: 69849 Produced: Spring 2015 Instructor: Eric Coats, Ph.D., P.E. ecoats@uidaho.edu
COMPUTER SCIENCE
Also see Electrical and Computer Engineering
CE 519 Fluid Transients (3 cr)
CS 385 Theory of Computation (3 cr)
Same as ME 519. Development of concepts and modeling techniques for unsteady flow of liquid and gas in piping systems; extensive computer programming used to develop tools for analysis, design, and control of transients. Prereq: Math 310 and Engr 335. A minimum grade of 'C' or better is required for all pre/coreqs.
See Math 385.
CS 404/504-WC ST: Wireless Communication Protocols UAVs (3 cr) See the EO website for course description.
CE 519: CRN 69851 ME 519: CRN 69953 Produced: Spring 2015 Instructor: Jim Liou, Ph.D., P.E. liou@uidaho.edu
CS 404-WC: CRN 69929 CS 504-WC: CRN 69930 Produced: Spring 2015 Instructor: Robert Hiromoto, Ph.D. hiromoto@uidaho.edu
Register in VandalWeb: http://vandalweb.uidaho.edu 12
CS 415/515 Computational Biology: Sequence Analysis (3 cr)
CS 504-WC ST: Wireless Communication Protocols UAVs (3 cr)
Design and analyze algorithms that address the computational problems posed by biological sequence data, such as DNA or protein sequences. Topics may include: comparing sequences (from genes to genomes), database searching, multiple sequence alignment, phylogenetic inferencing, gene discovery and annotation, and genome assembly. Additional class presentation and/or paper required for graduate credit. Prereq: Knowledge of high level programming language, basic probability theory, basic molecular biology, or Permission.
See CS 404-WC.
CS 515 Computational Biology: Sequence Analysis (3 cr) See CS 415.
CS 520 Data Communication Systems (3 cr) See CS 420.
CS 552 Real-Time Operating Systems (3 cr)
CS 415: CRN 68237 CS 515: CRN 68238 Produced: Spring 2015 Instructor: Robert Heckendorn, Ph.D. heckendo@uidaho.edu
See CS 452.
CS 572 Evolutionary Computation (3 cr) See CS 472.
CS 420/520 Data Communication Systems (3 cr)
ELECTRICAL AND COMPUTER ENGINEERING
Concept and terminology of data communications, equipment, protocols (including ISO/OSI and TCP/IP), architectures; transmission alternatives, regulatory issues and network management. Additional projects/ assignments reqd for grad cr. Prereq: CS 150 and 240.
Also see Computer Science
CS 420: CRN 65446 CS 520: CRN 65447 Produced: Spring 2015 Instructor: Axel Krings, Ph.D. krings@uidaho.edu
ECE 210 Electrical Circuits I (3 cr)
CS 452/552 Real-Time Operating Systems (3 cr)
Department permission required, contact info@ece.uidaho.edu.
Topics of interest in the implementation of Real-Time Operating Systems, especially as applicable to embedded systems, including a relevant hardware review, interrupts and interrupt handling, real-time scheduling principles and implementation, latency, task management, shared data and synchronization, timers, message passing, tradeoffs between memory space and speed. Students will build a simple but relatively complete real-time operating system over the course of the semester. Additional projects and assignments are required for graduate credit. Prereq: CS 240.
CRN: 69095 Produced: Fall 2013 Instructor: Michael Santora, Ph.D. (lecturer) Feng Li, Ph.D. (grader, contact) fengli@uidaho.edu
CS 452: CRN 70028 CS 552: CRN 66233 Produced: Spring 2015 Instructor: Robert Rinker, Ph.D. rinker@uidaho.edu
Department permission required, contact info@ece.uidaho.edu.
Intro to d.c. and transient electrical circuits; mesh and nodal analysis; dependent sources; circuit theorems; transient analysis with differential equations. Three lec and one recitation a wk. Prereq: Math 175 with a grade of ‘C’ or better; Coreq: ECE 211, Math 310 and Phys 212/212L.
ECE 211 Electrical Circuits I Lab (1 cr) Lab to accompany ECE 210. Lab experiments and computer simulations. One 3-hr lab a wk. Coreq: ECE 210 and Phys 212/212L.
CRN: 69096 Produced: Fall 2013 Instructor: Michael Santora, Ph.D. (lecturer) Feng Li, Ph.D. (grader, contact) fengli@uidaho.edu
CS 472/572 Evolutionary Computation (3 cr) Solving computation problems by “growing” solutions; simulates natural evolution using analogues of mutation, crossover, and other generic transformations on representations of potential solutions; standard EC techniques such as genetic algorithms and evolutionary programming, mathematical explanations of why they work, and a survey of some applications; the focus is on solving real-world problems using projects. Graduate-level research and possible paper or presentation required for grad cr. Prereq: CS 210.
ECE 212 Electrical Circuits II (3 cr)
CS 472: CRN 69075 CS 572: CRN 69076 Produced: Spring 2015 Instructor: Robert Heckendorn, Ph.D. heckendo@uidaho.edu
CRN: 69097 Produced: Fall 2013 Instructor: Michael Santora, Ph.D. (lecturer) Feng Li, Ph.D. (grader, contact) fengli@uidaho.edu
Continuation of ECE 210. Intro to sinusoidal steady state circuits; time and frequency domain analysis; Laplace transforms; Fourier series; transfer functions; Bode plots, filters. Three lec and one recitation a wk. Prereq: ECE 210, Math 310, and Phys 212/212L; a grade of ‘C’ or better is required for all prerequisite courses; Coreq: ECE 213. Department permission required, contact info@ece.uidaho.edu.
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ECE 213 Electrical Circuits II Lab (1 cr)
ECE 311 Microelectronics I Lab (1 cr)
Lab to accompany ECE 212. Continuation of ECE 211. Lab experiments and computer simulations. One 3-hr lab a wk. Prereq: ECE 211 and Phys 212/212L; Coreq: ECE 212.
Lab to accompany ECE 310. Coreq: ECE 310. Department permission required, contact info@ece.uidaho.edu.
Department permission required, contact info@ece.uidaho.edu.
Note: When this course was produced in summer 2013, the title was ECE 311 Fundamentals of Electronics Lab.
CRN: 69098 Produced: Fall 2013 Instructor: Michael Santora, Ph.D. (lecturer) Feng Li, Ph.D. (grader, contact) fengli@uidaho.edu
CRN: 68656 Produced: Summer 2013 Instructor: Michael Santora, Ph.D. mjsantora@uidaho.edu
ECE 319 Background Study in Electronics (3 cr)
ECE 240 Digital Logic (3 cr)
Not applicable toward any UI undergrad degree; valid only for removal of electronics (ECE 310) deficiency for graduate students who do not have BSEE background. See ECE 310 description below. Graded P/F based on comprehensive exam at completion of course. Prereq: Permission.
Number systems, truth tables, logic gates, flip-flops, combinational and synchronous sequential circuits; intro to digital systems and basic microprocessor architecture; certification exam not reqd. Prereq: Phys 212/212L; Coreq: ECE 241.
ECE 310 Microelectronics I (3 cr). Operational amplifier fundamentals and applications, introduction to electronic devices such as diodes, bipolar junction transistor (BJT) and metal oxide semiconductor field effect transistors (MOSFET), large and small-signal modeling of non-linear electronic devices, DC and small-signal analysis of circuits with non-linear electronic devices, biasing of electronic circuits using passive and active elements such as current mirrors, frequency response of electronic circuits,, introduction to the analysis, design, and applications of electronic circuits such as rectifiers, power supplies, and low-frequency single-stage amplifiers. Practical limitations of amplifiers of electronic circuits. Prereq: ECE 212 and ECE 213; Coreq: ECE 311.
CRN: 69891 Produced: Spring 2015 Instructor: Michael Santora, Ph.D. mjsantora@uidaho.edu
ECE 241 Logic Circuit Lab (1 cr) Open lab to accompany ECE 240. Design and construction of combinational and synchronous sequential logic circuits; certification exam not reqd. Prereq: Phys 212/212L; Coreq: ECE 240. CRN: 69892 Produced: Spring 2015 Instructor: Michael Santora, Ph.D. mjsantora@uidaho.edu
CRN: 56436 Produced: Summer 2013 Instructor: Michael Santora, Ph.D. mjsantora@uidaho.edu
ECE 310 Microelectronics I (3 cr) Operational amplifier fundamentals and applications, introduction to electronic devices such as diodes, bipolar junction transistor (BJT) and metal oxide semiconductor field effect transistors (MOSFET), large and small-signal modeling of non-linear electronic devices, DC and smallsignal analysis of circuits with non-linear electronic devices, biasing of electronic circuits using passive and active elements such as current mirrors, frequency response of electronic circuits,, introduction to the analysis, design, and applications of electronic circuits such as rectifiers, power supplies, and low-frequency single-stage amplifiers. Practical limitations of amplifiers of electronic circuits. Prereq: ECE 212 and ECE 213; Coreq: ECE 311.
ECE 330 Electromagnetic Theory (3 cr) Vector mathematics; charge and current; fields as forces; work, potential and electro-motive force; Faraday's law of induction; Gauss's and Ampere's laws; material modeling; waves in isotropic media. Prereq: Math 275, Math 310, and Phys 212/212L; Coreq: ECE 331. CRN: 63160 Produced: Fall 2014 Instructor: David Atkinson, Ph.D. atkinson@uidaho.edu
Department permission required, contact info@ece.uidaho.edu. Note: When this course was produced in summer 2013, the title was ECE 310 Fundamentals of Electronics, and the description was “Operational amplifier fundamentals and applications, introduction to electronic devices such as diodes, bipolar junction and field effect transistors, large and small-signal modeling of non-linear electronic devices, DC and small-signal analysis of circuits with non-linear electronic devices, biasing of electronic circuits, introduction to the analysis, design, and applications of electronic circuits such as rectifiers, power supplies, and low-frequency single-stage amplifiers. Practical limitations of amplifiers of electronic circuits.� CRN: 66367 Produced: Summer 2013 Instructor: Michael Santora, Ph.D. mjsantora@uidaho.edu
Visit the EO website: eo.uidaho.edu 14
ECE 339 Background Study in Electromagnetic Theory (3 cr)
ECE 410 Microelectronics II (3 cr) Introduction to analog integrated circuit (IC) implementation and design, differential and common-mode signal concepts, differential amplifiers, multistage amplifiers, operational amplifier design, frequency response of electronic circuits, feedback in electronic circuits, large-signal/power amplifiers, advanced current sources and mirrors, and fundamentals of analog filters. Prereq: ECE 310 and ECE 311; or Permission.
Not applicable toward any UI undergrad degree; valid only for removal of electromagnetic theory (ECE 330) deficiency for grad students who do not have BSEE background. See ECE 330 description below. Graded P/F based on comprehensive exam at completion of course. Prereq: Permission.
CRN: 60237 Produced: Spring 2015 Instructor: Saied Hemati, Ph.D. shemati@uidaho.edu
ECE 330 Electromagnetic Theory (3 cr). Vector mathematics; charge and current; fields as forces; work, potential and electromotive force; Faraday's law of induction; Gauss's and Ampere's laws; material modeling; waves in isotropic media. Prereq: Math 275, Math 310, and Phys 212/212L; Coreq: ECE 331.
ECE 415/515 Analog Integrated Circuit Design (3 cr)
CRN: 56438 Produced: Fall 2014 Instructor: David Atkinson, Ph.D. atkinson@uidaho.edu
Analog integrated circuit (IC) analysis, design, simulation, and layout, advanced biasing techniques, voltage references and regulators, operational amplifiers, frequency compensation techniques, noise analysis in analog circuits, and continuous-time integrated circuit filter design. Additional projects/assignments required for graduate credit. Prereq: ECE 410 or Permission.
ECE 349 Background Study in Digital Logic (3 cr) Not applicable toward any UI undergrad degree; valid only for removal of digital computer fundamentals (ECE 240) deficiency for grad students. See current ECE 240 description below. Graded P/F.
ECE 415: CRN 69894 ECE 515: CRN 69896 Produced: Spring 2015 Instructor: Suat Ay, Ph.D. suatay@uidaho.edu
ECE 240 Digital Logic (3 cr). Number systems, truth tables, logic gates, flip-flops, combinational and synchronous sequential circuits; intro to digital systems and basic microprocessor architecture; certification exam not reqd. Prereq: Phys 212/212L; Coreq: ECE 241.
ECE 417/517 Mixed Signal IC Design (3 cr) Sample and hold (S/H) circuits, comparators, data-converter fundamentals, Nyquist-rate digital-to-analog converters (DAC) and analog-to-digital converters (ADC), over-sampling data converters, and phase-locked loops. Additional projects/assignments are required for graduate credit. Prereq: ECE 410 or Permission.
Note: When this course was produced, it was titled EE341 Background Study in Digital Computer Fundamentals; ECE 240 was titled EE 340 Digital Logic, and there were no prereqs. CRN: 61385 Produced: Spring 1997 Instructor: Eugene Saghi, Ph.D. (lecturer) James Frenzel, Ph.D., P.E. (grader, contact) jfrenzel@uidaho.edu
ECE 417: CRN 66371 ECE 517: CRN 66372 Produced: Spring 2015 Instructor: Saied Hemati, Ph.D. shemati@uidaho.edu
ECE 404/504-CE ST: Computational Electromagnetics (3 cr)
ECE 419/516 Image Sensors and Systems (3 cr)
This course provides the foundation in computational techniques for numerical analysis of electromagnetics (EM) problems, including the finite difference time domain (FDTD) method, the finite element method (FEM), and the method of moments (MoM). Its emphasis is on the formulation of physical problems in terms of mathematical boundaryvalue problems, numerical discretization of continuous problems, and development of basic computer codes for simulation of electromagnetic fields in practical engineering applications, using each of the above techniques. Prereq: ECE 330 and Math 330.
This course introduces various concepts and fundamentals related to semiconductor image sensors. Topics cover light production and detection, video image formats, image sensor characteristics and performance metrics, basic and advanced operation principals and types of semiconductor image sensors (CCD and CMOS), noise in imagers, image and color processing, and issues related to camera system design, integration and signal processing. Additional projects/assignments are required for graduate credit. Prereq: ECE 310. ECE 419: CRN 69099 ECE 516: CRN 69107 Produced: Spring 2015 Instructor: Suat Ay, Ph.D. suatay@uidaho.edu
ECE 404-CE: CRN 66555 ECE 504-CE: CRN 68424 Produced: Spring 2015 Instructor: Ata Zadehgol, Ph.D. azadehgol@uidaho.edu
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ECE 420 Energy Systems II (3 cr)
ECE 440 Digital Systems Engineering (3 cr)
Three-phases, three-phase transformers, winding theory, rotating waves, steady state operation of three-phase synchronous and steady state operation of single and three-phase induction machines, and AC drives. Labs: three-phase measurements, three-phase transformers, synchronous machines, induction machines. ECE 420 cannot be counted as a graduate depth area course. Prereq: ECE 320 and ECE 321.
Design of digital systems using a hardware description language and field-programmable gate arrays; projects emphasize a top-down design process using software tools; topics include datapath optimization, pipelining, static and dynamic memory, technology issues, intra-system communication, and design for testability. Prereq: ECE 240, 241, or Permission.
CRN: 56928 Produced: Spring 2015 Instructor: Herb Hess, Ph.D., P.E. hhess@uidaho.edu
Note: Students will need to purchase a Zybo Zynq board (www. digilentinc.com) and be able to run the Xilinx Vivado Design Suite — Design Edition software (www.xilinx.com). CRN: 66373 Produced: Spring 2015 Instructor: James Frenzel, Ph.D., P.E. jfrenzel@uidaho.edu
ECE 422 Power Systems Analysis (3 cr) Balanced and unbalanced faults, Zbus methods, transient generator models, stability analysis, fault analysis using commercial software, and introduction to power system protection. Prereq: ECE 421.
ECE 445 Introduction to VLSI Design (3 cr)
CRN: 62748 Produced: Spring 2015 Instructor: Sara Eftekharnejad senejad@uidaho.edu
Principles of design of very large scale integrated circuits; CMOS logic design; transistor sizing and layout methodologies; intro to IC CAD tools. Prereq: ECE 310, 240 or Permission. CRN: 69897 Produced: Fall 2014 Instructor: James Frenzel, Ph.D., P.E. jfrenzel@uidaho.edu
ECE 427 Power Electronics (3 cr) Characteristics, limitations, and application of solid state power devices; practical aspects of power electronic converters, including rectifiers and inverters; choppers, AC phase control, and device gating techniques. Cooperative: open to WSU degree-seeking students. Prereq: ECE 420.
ECE 462/562 Semiconductor Theory (3 cr) Fundamental theory and behavior of modern semiconductor devices. Additional projects/assignments reqd for grad cr. Prereq for ECE 462: ECE 460; Prereq for ECE 562: Permission.
CRN: 56542 Produced: Spring 2015 Instructor: Herbert Hess, Ph.D., P.E. hhess@uidaho.edu
ECE 462: CRN 65272 ECE 562: CRN 58934 Produced: Spring 2015 Instructor: Dennis Sullivan, Ph.D., P.E. dsulliva@uidaho.edu
ECE 432 Propagation of Wireless Signals (3 cr) Maxwell’s Equations, including Poynting’s vector and Poynting’s theorem; Wave equation with solutions, Helmholz equation, plane waves; Reflection and refraction; Theory of guided waves, ray theory and mode theory; Atmospheric and ionospheric effects on wave propagation; Multipath effects and fading; Ground waves and surface waves. Prereq: ECE 330 or Permission.
ECE 465/565 Introduction to Microelectronics Fabrication (3 cr) This course serves as an introduction to the fabrication of microelectronic devices. Topics include the basics of IC structures, clean room protocol, photolithography, film growth and deposition, as well as IC interconnect technologies. Additional projects/assignments required for graduate credit. Prereq: ECE 310.
CRN: 56431 Produced: Fall 2014 Instructor: David Atkinson, Ph.D. atkinson@uidaho.edu
ECE 465: CRN 69106 ECE 565: CRN 65276 Produced: Spring 2015 Instructor: Aicha Elshabini, Ph.D. elshabini@uidaho.edu
ECE 434 Antenna Principles and Design (3 cr) Maxwell’s equations, vector potential theory, radiation patterns, antenna efficiency and bandwidth, polarization, dipole and loop antennas, line sources, patch antennas, lineal arrays, antenna systems, radar equation. Prereq: ECE 330 or Permission. CRN: 63184 Produced: Spring 2015 Instructor: Jeff Young, Ph.D., P.E. jyoung@uidaho.edu
Free software accessible in VLab: http://vlab.uidaho.edu 16
ECE 476 Digital Filtering (3 cr)
ECE 570 Random Signals (3 cr)
Design methods for recursive and non-recursive filters; frequency domain characteristics; computer-aided design; applications. Prereq: ECE 450.
Probability, random variables, and random signals in engineering systems; stochastic calculus, stationarity, ergodicity, correlation, and power spectra; propagation of random signals through linear systems; Kalman filter theory and applications. Cooperative: open to WSU degree-seeking students. Prereq: ECE 350, and Stat 301 or Stat 451, or Permission.
Note from instructor: Prereq is ECE 350 or permission. CRN: 56934 Produced: Spring 2015 Instructor: Richard Wall, Ph.D., P.E. rwall@uidaho.edu
CRN: 69108 Produced: Spring 2015 Instructor: Touraj Assefi, Ph.D. tassefi@uidaho.edu
ECE 504-CE ST: Computational Electromagnetics (3 cr) See ECE 404-CE.
ECE 515 Analog Integrated Circuit Design (3 cr) See ECE 415.
ENGINEERING — GENERAL
ECE 516 Image Sensors and Systems (3 cr)
Engr 210 Engineering Statics (3 cr)
See ECE 419.
Principles of statics with engineering applications; addition and resolution of forces, vector algebra, moments and couples, resultants and static equilibrium, equivalent force systems, centroids, center of gravity, free body method of analysis, two and three dimensional equilibrium, trusses, frames, and friction. Cooperative: open to WSU degree-seeking students. Prereq: Math 170.
ECE 517 Mixed Signal IC Design (3 cr) See ECE 417.
ECE 526 Protection of Power Systems II (3 cr) Protection of electrical equipment as related to electric power systems with emphasis on digital algorithms. Cooperative: open to WSU degreeseeking students. Prereq: ECE 525 or Permission.
Instructor permission required, contact Dr. Bauer at dbauer@uidaho.edu. CRN: 55194 Produced: Spring 2013 Instructor: Denise Bauer, Ph.D. dbauer@uidaho.edu
CRN: 66382 Produced: Spring 2015 Instructor: Brian Johnson, Ph.D., P.E. bjohnson@uidaho.edu
ECE 529 Utility Applications of Power Electronics (3 cr)
ENGINEERING MANAGEMENT
HVdc transmission, static VAr compensators, FACTS devices, Custom Power devices, electrical energy storage systems, power quality, harmonic compensation, and alternative energy supply interfacing. Prereq: ECE 422.
EM 510 Engineering and Technology Management Fundamentals (3 cr)
Also see Accounting, Business and Statistics
Same as TM 510. Fundamental principles of engineering management addressing management theory applied to the engineering environment; management processes and techniques; attitudes that facilitate the leadership role of the engineering manager in an engineering organization; team-taught by business and engineering faculty. Prereq: Permission.
CRN: 68618 Produced: Spring 2015 Instructor: Brian Johnson, Ph.D., P.E. bjohnson@uidaho.edu
ECE 562 Semiconductor Theory (3 cr) See ECE 462.
EM 510: TM 510: Produced: Instructor:
ECE 565 Introduction to Microelectronics Fabrication (3 cr) See ECE 465.
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CRN 61703 CRN 68140 Fall 2014 Dennis Keiser, Ph.D. (dennisk@uidaho.edu) Larry Stauffer, Ph.D., P.E. (stauffer@uidaho.edu) Sandy Lieske, M.S.-ECE, M.S.-MOT (lieske@uidaho.edu)
Math 160 Survey of Calculus (4 cr)
GEOLOGICAL ENGINEERING
Carries no credit after Math 170. Functions, graphing, derivative, integral, exponential and logarithmic functions, functions of several variables. Primarily for students in business, life sciences or architecture who need only one semester of calculus. Prereq: Sufficient score on SAT, ACT, or COMPASS Math Test, or Math 137 with a ‘C’ or better, or Math 143 with a C or better. Required test scores can be found here:www.uidaho.edu/ registrar/registration/placement/math.
GeoE 517 Tunnel Design and Construction (3 cr) Geotechnical considerations for tunneling, drilling and blasting, TBM, ground support, haulage, ventilation, water handling, and trenchless technology. Application of analytical techniques such as the finite element method to design stable underground structures and support systems. Prereq: GeoE 407 or Permission.
Department permission required, contact math@uidaho.edu.
CRN: 60276 Produced: Spring 2012 Instructor: SJ Jung, Ph.D. sjung@uidaho.edu
CRN: 61583 Produced: Summer 2014 Instructor: Cynthia Piez, M.S. cpiez@uidaho.edu
MATERIALS SCIENCE AND ENGINEERING
Math 170 Analytic Geometry and Calculus I (4 cr) Carries 2 credits after Math 160. Functions, limits, continuity, differentiation, integration, applications, differentiation and integration of transcendental functions. Primarily for students in engineering, mathematics, science or computer science. Prereq: Math 143 (with a grade of ‘C’ or better) and Math 144 (concurrent enrollment in Math 144 is allowed although it is recommended that students complete Math 144 before enrolling in Math 170); or demonstrated proficiency through a sufficiently high score on the ACT, SAT, or COMPASS tests.
Also see Nuclear Engineering
MSE 438/538 Fundamentals of Nuclear Materials (3 cr) Same as NE J438/J538. This course is designed for students who wish to learn about nuclear materials and fuels from a materials science viewpoint. Topics to be covered include crystal structure, diffusion, radiation damage processes etc. Students who wish to receive credit for the 500-level course are required to do term-projects and advanced problems. Prereq: MSE 201 or NE 450; or Permission.
Department permission required, contact math@uidaho.edu. CRN: 51928 Produced: Summer 2012 Instructor: Cynthia Piez, M.S. cpiez@uidaho.edu
MSE 438: CRN 69879 MSE 538: CRN 69880 NE 438: CRN 69881 NE 538: CRN 69882 Produced: Spring 2015 Instructor: Indrajit Charit, Ph.D. icharit@uidaho.edu
Math 175 Analytic Geometry and Calculus II (4 cr) Differentiation and integration of transcendental functions, integration techniques, general mean value theorem, numerical techniques, and series. Prereq: Math 170 with a grade of ‘C’ or better. Department permission required, contact math@uidaho.edu.
MSE 539 Advanced Mechanics of Materials (3 cr)
CRN: 53279 Produced: Summer 2012 Instructor: Cynthia Piez, M.S. cpiez@uidaho.edu
See ME 539.
MATHEMATICS Also see Statistics
Math 215 Introduction to Higher Mathematics (3 cr) Carries no credit after Math 461 or Math 471. The primary goal of this course is to teach students how to read and write mathematical proofs. Topics include logic and proof techniques, as well as fundamental mathematical structures such as sets, relations, functions, and number systems. Prereq: Math 175 and permission.
Math 123 Mathematics Applied To The Modern World (3 cr) Discussion of some aspects of mathematical thought through the study of problems taken from areas such as logic, political science, management science, geometry, probability, and combinatorics; discussion of historical development and topics discovered in the past 100 years.
Department permission required, contact math@uidaho.edu. CRN: 63060 Produced: Spring 2013 Instructor: Jennifer Johnson-Leung, Ph.D. jenfns@uidaho.edu
Department permission required, contact math@uidaho.edu. CRN: Produced: Instructor:
65255 Summer 2006 Gary Peterson, M.S., J.D. (lecturer) Cynthia Piez, M.S. (grader, contact)
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Math 275 Analytic Geometry and Calculus III (3 cr)
Math 390 Axiomatic Geometry (3 cr)
Vectors, functions of several variables, and multiple integration. Prereq: Math 175.
Development of Euclidean and hyperbolic geometry using the axiomatic approach. Recommended Preparation: Math 215. Prereq: High school geometry and Math 330, or Permission.
Department permission required, contact math@uidaho.edu.
Department permission required, contact math@uidaho.edu.
CRN: 55190 Produced: Spring 2015 Instructor: Mark Nielsen, Ph.D. markn@uidaho.edu
Note: When this course was produced, Math 215 was not listed as recommended preparation, and the prereqs were high school geometry and Math 215, or Permission. CRN: 49771 Produced: Spring 2008 Instructor: Mark Nielsen, Ph.D. markn@uidaho.edu
Math 310 Ordinary Differential Equations (3 cr) Classification, initial and boundary value problems of one variable, exact equations, methods of solving higher-order linear equations, second-order equations with constant coefficient, series solutions, systems of linear equations, Laplace transforms, and existence theorems. Recommended preparation: Math 275. Prereq: Math 175.
Math 420 Complex Variables (3 cr) Complex numbers, elementary functions, derivatives, the residue theorem, conformal mappings, contour integration, infinite series, applications. Prereq: Math 275.
Department permission required, contact math@uidaho.edu. CRN: 46380 Produced: Spring 2015 Instructor: Lyudmyla Barannyk, Ph.D. barannyk@uidaho.edu
CRN: 46381 Produced: Spring 2012 Instructor: Somantika Datta, Ph.D. sdatta@uidaho.edu
Math 330 Linear Algebra (3 cr) Linear equations, matrices, linear transformations, eigenvalues, diagonalization; applications. Recommended Preparation: Math 175. Prereq: Math 160 or 170.
Math 426 Discrete Optimization (3 cr)
Department permission required, contact math@uidaho.edu.
CRN: 48089 Produced: Fall 2004 Instructor: Mark Nielsen, Ph.D. markn@uidaho.edu
Optimization on graphs, networks and flows, and related topics. Recommended Preparation: Math 175.
CRN: 44402 Produced: Spring 2012 Instructor: Mark Nielsen, Ph.D. markn@uidaho.edu
Math 430 Advanced Linear Algebra (3 cr) Vector spaces, linear transformations, characteristic polynomial, eigenvectors, Hermitian and unitary operators, inner products, quadratic forms, Jordan canonical form, applications. Recommended Preparation: Math 215. Prereq: Math 330 or Permission.
Math 385 Theory of Computation (3 cr) Same as CS 385. Mathematical models of computation, including finite automata and Turing machines. Prereq: Permission Math 385: CRN 70063 CS 385: CRN 70064 Produced: Fall 2014 Instructor: Terence Soule, Ph.D. tsoule@uidaho.edu
CRN: 68090 Produced: Fall 2012 Instructor: Somantika Datta, Ph.D. sdatta@uidaho.edu
Math 451 Probability Theory (3 cr)
Math 388 History of Mathematics (3 cr)
Same as Stat 451. Random variables, expectation, special distributions (normal, binomial, exponential, etc.), moment generating functions, law of large numbers, central limit theorem. Cooperative: open to WSU degree-seeking students. Prereq or Coreq: Math 275 or Permission.
Same as Hist 388. History of the development of mathematical ideas from ancient cultures to the present, including the relationship of those ideas to the cultures that produced them as well as an understanding of the mathematics involved. Cooperative: open to WSU degree-seeking students. Prereq: Math 175 and 330; or Permission.
Math 451: CRN 46502 Stat 451: CRN 48093 Produced: Fall 2008 Instructor: Paul Joyce, Ph.D. joyce@uidaho.edu
Department permission required, contact math@uidaho.edu. CRN: 68089 Produced: Fall 2012 Instructor: Robert Ely, Ph.D. ely@uidaho.edu
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Math 452 Mathematical Statistics (3 cr)
Math 516 Groups and Symmetry (3 cr)
Same as Stat 452. Estimation of parameters, confidence intervals, hypothesis testing, likelihood ratio test, sufficient statistics. Cooperative: open to WSU degree-seeking students. Prereq: Math 451 or Permission.
Exploration of groups, symmetry, and permutations. This course is specifically designed for the MAT program, and will not satisfy the requirements of other mathematics degree programs.
Math 452: CRN 50177 Stat 452: CRN 50422 Produced: Spring 2012 Instructor: Paul Joyce, Ph.D. joyce@uidaho.edu
CRN: 51076 Produced: Summer 2008 Instructor: Mark Nielsen, Ph.D. markn@uidaho.edu
MECHANICAL ENGINEERING
Math 461 Abstract Algebra I (3 cr) Groups, rings, and fields. Prereq: Math 215 and Math 330; or Permission. CRN: 50243 Produced: Fall 2009 Instructor: Hirotachi Abo, Ph.D. abo@uidaho.edu
ME 412 Gas Dynamics (3 cr)
Math 462 Abstract Algebra II (3 cr)
CRN: 48163 Produced: Spring 2015 Instructor: John Crepeau, Ph.D., P.E. crepeau@uidaho.edu
Compressible flow in ducts and nozzles, shock waves and expansion waves, and adiabatic two-dimensional compressible flow. Prereq: Math 310, Engr 320, and Engr 335.
Groups, rings, and fields. Prereq: Math 461. CRN: 46389 Produced: Spring 2010 Instructor: Hirotachi Abo, Ph.D. abo@uidaho.edu
ME 414/514 HVAC Systems (3 cr) Application of thermodynamics, heat transfer, and fluid flow to understanding the psychrometric performance of systems and equipment; evaluating the performance characteristics, advantages, and disadvantages of the various types of HVAC systems including large tonnage refrigeration/chiller equipment, cooling coils, cooling towers, ducts, fans, and heat pump systems; economics of system and equipment selection. Recommended Preparation: ME 345, ME 444.
Math 471 Introduction to Analysis I (3 cr) Topology of Euclidean n-space, limit and continuity, differentiation, integration. Prereq: Math 275, and Math 215; or Permission. CRN: 50087 Produced: Fall 2013 Instructor: Somantika Datta, Ph.D. sdatta@uidaho.edu
Note: The instructor has indicated that ME 444 is no longer recommended as preparation for this course. ME 414: CRN 69141 ME 514: CRN 60317 Produced: Spring 2015 Instructor: Ralph Budwig, Ph.D., P.E. rbudwig@uidaho.edu
Math 472 Introduction to Analysis II (3 cr) Topology of Euclidean n-space, limit and continuity, differentiation, integration. Prereq: Math 471 or Permission. CRN: 46391 Produced: Spring 2014 Instructor: Somantika Datta, Ph.D. sdatta@uidaho.edu
ME 450/550 Computational Fluid Dynamics (3 cr) Governing equations of fluid flow; fundamentals of turbulence modeling; accuracy and stability of discretization schemes; verification and validation; boundary and initial conditions; grid generation; CFD postprocessing. Application of CFD software (ANSYS FLUENT) through five hands-on CFD Labs including internal viscous pipe flows, external flows over a 2D airfoil and a circular cylinder, and flows in a 2D driven cavity. Additional projects/assignments required for graduate credits. Prereq: Engr 335 and Math 330.
Math 513 Problem Solving Through History (3 cr) Historical study of approaches to solving problems in geometry, number theory, and set theory. This course is specifically designed for the MAT program, and will not satisfy the requirements of other mathematics degree programs. CRN: 51074 Produced: Fall 2002 Instructor: William Voxman, Ph.D. (lecturer) Cynthia Piez, M.S. (grader, contact) cpiez@uidaho.edu
ME 450: CRN 69134 ME 550: CRN 69133 Produced: Spring 2015 Instructor: Tao Xing, Ph.D. xing@uidaho.edu
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ME 514 HVAC Systems (3 cr)
Stat 422 Sample Survey Methods (3 cr)
See ME 414.
Simple random, systematic, stratified random, one and two stage cluster sampling; introduction to variable probability sampling and estimation of population size. Two lec and one 1-hr lab a wk. Cooperative: open to WSU degree-seeking students. Prereq: Stat 251 or Stat 301.
ME 519 Fluid Transients (3 cr) See CE 519.
Note: When this course was produced, Stat 271 was one of its prereqs, but it is no longer required before taking Stat 422.
ME 539 Advanced Mechanics of Materials (3 cr) Same as CE 510 and MSE 539. Limitations of results of elementary mechanics of materials, complex situations of loading and structural geometry, applications to design of machines and structure, introduction to elasticity. Prereq: ME 341 or CE 342.
CRN: 63063 Produced: Spring 2009 Instructor: Christopher Williams, Ph.D. chrisw@uidaho.edu
ME 539: CRN 66294 CE 510: CRN 66292 MSE 539: CRN 69954 Produced: Spring 2015 Instructor: Matthew Riley, Ph.D. riley@uidaho.edu
Stat 431 Statistical Analysis (3 cr) Concepts and methods of statistical research including multiple regression, contingency tables and chi-square, experimental design, analysis of variance, multiple comparisons, and analysis of covariance. Cooperative: open to WSU degree-seeking students. Prereq: Stat 251, Stat 301, or Stat 416.
ME 540 Continuum Mechanics (3 cr)
Note: When this course was produced, the title was Stat 401 and had prerequisites of Stat 251 and Stat 301.
Stress and deformation of continua using tensor analysis; relationship between stress, strain, and strain rates in fluids and solids; applications. Prereq: Permission.
CRN: 68091 Produced: Summer 2009 Instructor: Christopher Williams, Ph.D. chrisw@uidaho.edu
CRN: 46371 Produced: Spring 2015 Instructor: Gabriel Potirniche, Ph.D. gabrielp@uidaho.edu
Stat 451 Probability Theory (3 cr) See Math 451.
ME 550 Computational Fluid Dynamics (3 cr) See ME 450.
Stat 452 Mathematical Statistics (3 cr) See Math 452.
NUCLEAR ENGINEERING
Also see Materials Science and Engineering
Stat 456 Quality Management (3 cr)
NE 438/538 Fundamentals of Nuclear Materials (3 cr)
Stat 550 Regression (3 cr)
See Bus 456.
See MSE 438.
Theory and application of regression models including linear, nonlinear, and generalized linear models. Topics include model specification, point and interval estimators, exact and asymptotic sampling distributions, tests of general linear hypotheses, prediction, influence, multicollinearity, assessment of model fit, and model selection. Cooperative: open to WSU degree-seeking students. Prereq: Math 330 and Stat 451; Coreq: Stat 452.
STATISTICS
Also see Mathematics Stat 301 Probability & Statistics (3 cr)
CRN: 66305 Produced: Spring 2011 Instructor: Christopher Williams, Ph.D. chrisw@uidaho.edu
Credit awarded for only one of Stat 251, Stat 301, and Stat 416. Intended for engineers, mathematicians, and physical scientists. Intro to sample spaces, random variables, statistical distributions, hypothesis testing, basic experimental design, regression, and correlation. Prereq: Math 175.
Stat 555 Statistical Ecology (3 cr)
CRN: 48689 Produced: Summer 2005 Instructor: Stephen Lee, Ph.D. stevel@uidaho.edu
See WLF 555.
Order textbooks online: www.vandalstore.com 21
WILDLIFE RESOURCES
Stat 565 Computer Intensive Statistics (3 cr) Numerical stability, matrix decompositions for linear models, methods for generating pseudo-random variates, interactive estimation procedures (Fisher scoring and EM algorithm), bootstrapping, scatterplot smoothers, Monte Carlo techniques including Monte Carlo integration and Markov chain Monte Carlo. Cooperative: open to WSU degreeseeking students. Prereq: Stat 451, Stat 452, Math 330, and computer programming experience or Permission.
Also see Statistics
WLF 555 Statistical Ecology (3 cr) Same as Stat 555. Stochastic models in ecological work; discrete and continuous statistical distributions, birth-death processes, diffusion processes; applications in population dynamics, population genetics, ecological sampling, spatial analysis, and conservation biology. Cooperative: open to WSU degree-seeking students. Prereq: Math 451 or Permission.
CRN: 68092 Produced: Fall 2012 Instructor: Stephen Lee, Ph.D. stevel@uidaho.edu
WLF 555: CRN 69827 Stat 555: CRN 69826 Produced: Spring 2015 Instructor: Brian Dennis, Ph.D. brian@uidaho.edu
TECHNOLOGY MANAGEMENT Also see Engineering Management
TM 510 Engineering and Technology Management Fundamentals (3 cr) See EM 510.
Phinney Hall
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Academic Departments Business and Economics
Mathematics
875 Perimeter Dr MS 3161 Moscow ID 83844-3161 www.uidaho.edu/cbe Contact: cbe@uidaho.edu Phone: (800) 824-2889, ext. 6478
875 Perimeter Dr MS 1103 Moscow ID 83844-1103 www.uidaho.edu/sci/math Chair: Monte Boisen Contact: math@uidaho.edu Phone: (800) 824-2889, ext. 6742
Civil Engineering 875 Perimeter Dr MS 1022 Moscow ID 83844-1022 www.uidaho.edu/engr/ce Chair: Richard Nielsen Contact: civilengr@uidaho.edu Phone: (800) 824-2889, ext. 6783
Computer Science 875 Perimeter Dr MS 1010 Moscow ID 83844-1010 www.uidaho.edu/engr/cs Chair: Greg Donohoe Contact: csinfo@uidaho.edu Phone: (800) 824-2889, ext. 6592
Electrical and Computer Engineering 875 Perimeter Dr MS 1023 Moscow ID 83844-1023 www.uidaho.edu/engr/ece Chair: Fred Barlow Contact: info@ece.uidaho.edu Phone: (800) 824-2889, ext. 6554
Engineering Management UI Boise Engineering 322 E Front St, Ste 242 Boise, ID 83702 www.uidaho.edu/engr/ engineeringmanagment Program Director: Sandy Lieske Adviser: Denise Engebrecht denisee@uidaho.edu Phone: (208) 364-6123
Geological Engineering
Mechanical Engineering 875 Perimeter Dr MS 0902 Moscow ID 83844-0902 www.uidaho.edu/engr/me Chair: John Crepeau Contact: medept@uidaho.edu Phone: (800) 824-2889, ext. 6579
Nuclear Engineering 875 Perimeter Dr MS 0902 Moscow ID 83844-0902 www.uidaho.edu/engr/me Chair: John Crepeau Adviser: Akira Tokuhiro tokuhiro@uidaho.edu Phone: (208) 282-7714
Statistical Science 875 Perimeter Dr MS 1104 Moscow ID 83844-1104 www.uidaho.edu/sci/stat Chair: Christopher Williams Contact: stat@uidaho.edu Phone: (800) 824-2889, ext. 2929
Technology Management UI Boise Engineering 322 E Front St, Ste 242 Boise ID 83702 www.uidaho.edu/engr/ technologymanagement Program Director: Sandy Lieske Adviser: Denise Engebrecht denisee@uidaho.edu Phone: (208) 364-6123
875 Perimeter Dr MS 1022 Moscow ID 83844-1022 www.uidaho.edu/engr/ce Chair: Richard Nielsen Contact: civilengr@uidaho.edu Phone: (800) 824-2889, ext. 6782
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McClure Hall
Engineering Outreach eo.uidaho.edu
Registration
University of Idaho College of Engineering Engineering Physics Building, Room 312 875 Perimeter Drive MS 1014 Moscow ID 83844-1014
Phone: (800) 824-2889, press 2 Local: (208) 885-4642 Fax: (208) 885-9249 eoreg@uidaho.edu
General Information
Course Materials and Exams
Phone: (800) 824-2889, press 0 Local: (208) 885-6373 Fax: (208) 885-9249 outreach@uidaho.edu
Phone: (800) 824-2889, press 4 Local: (208) 885-4644 Fax: (208) 885-6165 eoship@uidaho.edu eo.uidaho.edu/portal
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Spring 2015 Engineering Outreach Courses Registration deadline is January 14, 2015. View updates at eo.uidaho.edu.
ACCOUNTING
GEOLOGICAL ENGINEERING
Acct 582
GeoE 517
Enterprise Accounting
BUSINESS Bus 456
Quality Management
CIVIL ENGINEERING CE 431 CE 484 CE 510 CE 512 CE 519 CE 543 CE 562 CE 575
Design of Water and Wastewater Systems I Engineering Law and Contracts Advanced Mechanics of Materials Advanced Topics in Waste Management and Treatment Fluid Transients Dynamics of Structures Advanced Foundation Engineering Advanced Pavement Design and Analysis
COMPUTER SCIENCE CS 385 CS 4/504-WC CS 4/515 CS 4/520 CS 4/552 CS 4/572
Theory of Computation ST: Wireless Communication Protocols UAVs Computational Biology: Sequence Analysis Data Communication Systems Real-Time Operating Systems Evolutionary Computation
ELECTRICAL & COMPUTER ENGINEERING ECE 210 ECE 211 ECE 212 ECE 213 ECE 240 ECE 241 ECE 310 ECE 311 ECE 319 ECE 330 ECE 339 ECE 349 ECE 4/504-CE ECE 410 ECE 4/515 ECE 4/517 ECE 419/516 ECE 420 ECE 422 ECE 427 ECE 432 ECE 434 ECE 440 ECE 445 ECE 4/562 ECE 4/565 ECE 476 ECE 526 ECE 529 ECE 570
Electrical Circuits I Electrical Circuits I Lab Electrical Circuits II Electrical Circuits II Lab Digital Logic Logic Circuit Lab Microelectronics I Microelectronics I Lab Background Study in Electronics Electromagnetic Theory Background Study in Electromagnetic Theory Background Study in Digital Logic ST: Computational Electromagnetics Microelectronics II Analog Integrated Circuit Design Mixed Signal IC Design Image Sensors and Systems Energy Systems II Power Systems Analysis Power Electronics Propagation of Wireless Signals Antenna Principles and Design Digital Systems Engineering Introduction to VLSI Design Semiconductor Theory Introduction to Microelectronics Fabrication Digital Filtering Protection of Power Systems II Utility Applications of Power Electronics Random Signals
ENGINEERING — GENERAL Engr 210
Engineering Statics
ENGINEERING MANAGEMENT
EM 510 Engineering and Technology Management Fundamentals
Tunnel Design and Construction
MATERIALS SCIENCE AND ENGINEERING MSE 4/538 MSE 539
Fundamentals of Nuclear Materials Advanced Mechanics of Materials
MATHEMATICS Math 123 Math 160 Math 170 Math 175 Math 215 Math 275 Math 310 Math 330 Math 385 Math 388 Math 390 Math 420 Math 426 Math 430 Math 451 Math 452 Math 461 Math 462 Math 471 Math 472 Math 513 Math 516
Mathematics Applied To The Modern World Survey of Calculus Analytic Geometry and Calculus I Analytic Geometry and Calculus II Introduction to Higher Mathematics Analytic Geometry and Calculus III Ordinary Differential Equations Linear Algebra Theory of Computation History of Mathematics Axiomatic Geometry Complex Variables Discrete Optimization Advanced Linear Algebra Probability Theory Mathematical Statistics Abstract Algebra I Abstract Algebra II Introduction to Analysis I Introduction to Analysis II Problem Solving Through History Groups and Symmetry
MECHANICAL ENGINEERING ME 412 ME 4/514 ME 4/550 ME 519 ME 539 ME 540
Gas Dynamics HVAC Systems Computational Fluid Dynamics Fluid Transients Advanced Mechanics of Materials Continuum Mechanics
NUCLEAR ENGINEERING NE 4/538
STATISTICS Stat 301 Stat 422 Stat 431 Stat 451 Stat 452 Stat 456 Stat 550 Stat 555 Stat 565
Fundamentals of Nuclear Materials Probability & Statistics Sample Survey Methods Statistical Analysis Probability Theory Mathematical Statistics Quality Management Regression Statistical Ecology Computer Intensive Statistics
TECHNOLOGY MANAGEMENT TM 510
Engineering and Technology Management Fundamentals
WILDLIFE RESOURCES WLF 555
Statistical Ecology
Periodicals POSTAGE PAID at Moscow ID 83843
Engineering Outreach College of Engineering 875 Perimeter Dr MS 1014 Moscow, ID 83844-1014
Engineering Outreach Gives You Options Master’s Degree Programs
Academic Certificates
Electrical Engineering
Power System Protection and Relaying
Mechanical Engineering
Analog Integrated Circuit Design
Civil Engineering
Secure and Dependable Computing Systems
Computer Science
Statistics
Computer Engineering
Process & Performance Excellence
Engineering Management Technology Management
Nondegree Coursework
Geological Engineering
Background Study
Statistical Science
Professional Education
Teaching Mathematics
Transfer Credit
Focus Areas Business Nuclear Engineering
eo.uidaho.edu