1 / 60

WELCOME!

WELCOME!. Cedarville University Engineering & Computer Science Day 2013. Dr. Sam SanGregory Chair. Cedarville University Elmer W. Engstrom Department of Engineering and Computer Science. …equipping students for lifelong leadership and service through

octavius
Download Presentation

WELCOME!

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. WELCOME! Cedarville University Engineering & Computer Science Day 2013 Dr. Sam SanGregory Chair

  2. Cedarville University Elmer W. Engstrom Department of Engineering and Computer Science …equipping students for lifelong leadership and service through an education marked by excellence and grounded in biblical truth.

  3. Purpose of the Department of Engineering & Computer Science Produce graduates with exemplary character, conduct, and technical skill

  4. Department Faculty • Mechanical Engineering • Dr. Bob Chasnov—1991 • Dr. Hardy Hegna—1992 • Dr. Larry Zavodney—1992 • Dr. Tom Thompson—1995 • Dr. Tim Dewhurst—1996 • Mr. Jay Kinsinger—1999 • Dr. Tim Norman—2003 • Dr. George Qin—2012 • Electrical Engineering • Dr. Sam SanGregory—1993 • Dr. Jeff Shortt—1996 • Dr. Tim Tuinstra—2002 • Dr. Gerry Brown—2004 • Dr. Tim Yao—2009 • Computer Science • Dr. Dave Gallagher—2000 • Dr. Keith Shomper—2003 • Mr. Seth Hamman—2012 • Computer Engineering • Dr. Clint Kohl—1994 • Dr. Vicky Fang—2004

  5. Engineering at Cedarville • 1990 First students admitted • 1992 ENS opens, 3rd class admitted • 1993 Charter for BSEE and BSME degrees granted • 1994 1st class of 24 graduate, ABET site Visit • 1995 Accredited by ABET (retroactive) • 1998 CS program begins (in Science and Math Dept.) • 2001 TBP charters 228th national chapter • 2002 BSCpE program begins, 1st CS graduates • 2005 Engineering Projects Laboratory opens • 2005 Computer Science migrates to Engineering • 2006 First CpE Graduates • 2007 CpE and CS granted initial accreditation

  6. Cedarville University EnrollmentFall Term

  7. Engineering & CS EnrollmentFall Term 2004-2012

  8. Engineering & CS MajorsFall Terms

  9. Freshman by MajorFall Semesters 2007-2012

  10. Female Students % by MajorFall Term Cedarville

  11. Incoming Freshman

  12. Career Field ComparisonJob outlook Sources: BLS Occupational Outlook Handbook, 2012 Edition http://www.bls.gov/ooh/Architecture-and-Engineering/home.htm http://www.bls.gov/ooh/Computer-and-Information-Technology

  13. Career Field ComparisonAverage Starting Salaries (2012) Source: http://finance.yahoo.com/news/the-college-degrees-with-the-highest-starting-salaries-204949790.html

  14. What are Engineers? • Problem Solvers • Jobs: • Research • Design • Production • Manufacturing • Missions • Operations • Sales • Management • Marketing

  15. When Must I Declare My Major? • First semester is nearly common but, Watch out for Computer Engineering • Engineering Students should declare EE/ME by the spring semester of their first year • Faculty Advisors available for consultation

  16. How long does it take? • Most students graduate in 4 years • Many students choose a 4 ½ or 5 year plan to allow for: • Pre-Calculus (5 yr) • ROTC (4 ½ or 5 yr) • Co-op (5yr) • Extracurricular Activities • Math major or other minor • More relaxed pace

  17. What about an honors program? • Begins with University Honors program in Freshman year • Engineering honors courses in junior/senior years • Requires one extra technical elective • Offers a greater challenge

  18. Tau Beta Pi National Engineering Honor Society C.U. Chapter Chartered 2001

  19. Do you work with industry? • Significant technology and industrial activity in the Miami Valley – many internships each summer • Engineering Advisory Board provides guidance annually • Plant Tours and Senior Design projects offer “real world” experiences • Student chapters of ASME, IEEE, SAE, SWE, ACM • Co-op program option

  20. What is Cooperative Education?(Co-op Program) • Voluntary work-study program • Provides student with industrial experience before graduation • Supervised by a company engineer • Part of their education program • Students maintain full-time status • Adds one year to the BS program • Students receive a Co-op certificate

  21. How is Co-op scheduled?

  22. What is Professional Licensure? • All engineering students take our practice Fundamentals of Engineering (FE) exam • We encourage students to take the actual FE exam (fist step toward licensure) • We have a very high pass rate on the FE exam

  23. How do you compare?

  24. Can Engineers Serve in Missions? • Professionals (tent makers) have access to many countries • Many mission boards are seeking engineers to address third world problems • Cedarville engineering and computer science students and faculty have gone overseas during the summer • Cedarville engineering alumni have gone overseas after graduation • Employers recognize the importance of values and a good work ethic

  25. SEAM Student Organization • Society of Engineers Aiding Missions • Students & advisor recently went to HCJB headquarters • Engineering Outreach to Liberia established in 2006

  26. Recent Liberia Projects • 1. Cooling system for the ELWA campus diesel generators • 2. Medical waste incinerator • 3. Water pumping and distribution system for ELWA campus 4. Solar-powered reading lamps

  27. Computer Science in Romania

  28. Reserve Officer Training Corps (ROTC) • Army and Air Force ROTC Detachments on campus. • Affiliated with Central State University (Army) and Wright State University (Air Force). • Great scholarships available for engineering students (type vary by year with military needs) • Table set up on second floor of ENS during lab tours this afternoon.

  29. What does Cedarville Expect of me?

  30. Computer Literacy? • No, incoming students cover the spectrum • The Freshmen year introduces computers and a number of computing tools • Students learn new computer applications very quickly • It is helpful if you know a word processor, spreadsheet, & programming language

  31. Should I Bring My Own Computer? • Not a bad idea, most students now bring a laptop for use in the dorm. • Most engineering software is not licensed to run on student-provided computers so type (PC v.s. Apple) not an issue. • We provide up-to-date equipment in labs. • Useful for e-mail, Internet, report writing. • Wireless internet available campus wide.

  32. What calculatordo I need? • A basic scientific calculator is fine • Exponentials & logarithms • Trig functions & their inverses, with degree and radian modes • Rectangular to polar conversion • Binary/octal/hexadecimal modes nice if EE, CpE, or CS major • Hyperbolic functions & their inverses • Graphing and symbolic manipulations not necessary

  33. What Courses Should I TakeIn High School? • Math, algebra, more math, geometry • Trig, more math, Pre Calculus • CU Offers Pre Calculus online in summer • Physics & Chemistry • Two or more years of the sameforeign language • English composition (AP not accepted by CU) • AP calculus & physics are helpful but not required

  34. What Can I do to get ahead? • While in High School • Consider Dual Enrollment • See www.cedarville.edu/dualenrollment • Pre-Calculus Fall/Spring • Engineering Graphics Summer • Bible, History, Composition, Literature… • Summer before coming • Pre-Calculus on-line • Engineering Graphics

  35. What’s in the ______ major?

  36. Liberal Arts Foundation • Bible Curriculum (5 courses) • Composition, Speech, Literature • Physical Education (1 course) • Social Sciences (4 courses) • Biology

  37. Distinctives of Cedarville • Emphasis on fundamentals • Solid theoretical foundation • Extensive laboratory experiences • Professors who love their students • Opportunities to work on team projects • Opportunities to interact with professionals • Program couched in a Liberal Arts education • Opportunities to develop communication skills

  38. Mechanical Engineering

  39. ME at a glance

  40. Heat Transfer Refrigeration Materials Testing Engine Test Cell Dynamics of Machines Engineering Graphics Digital Logic Design Circuits & Instrumentation Fluids Senior Design Manufacturing Vibrations Mechanics Electrical Machines Controls Shop Laboratory Experiences

  41. Current ME Senior Design Aero Design Competition Novel Engine Design Human Powered Hydrofoil Macrofluidics Design Partial Hip Replacement Formula SAE Race Car Solar Boat Propeller and Hydrofoils • Proposal • Weekly meetings • Deadlines • Oral Presentation • Written Reports • Design Reviews • Product Fabrication

  42. Electrical, Computer Engineering, and Computer Science

  43. Say What? • Electrical Engineering… • Computer Engineering… • Computer Science… • What should I do Mom? or • What’s the difference Dad?

  44. Programs • Electrical Engineering since 1990 • First graduates in 1994 • Computer Science since 1998 • First graduates in 2002 • Joined the Engineering Dept. in Fall 2005 • Computer Engineering since 2002 • First graduates in 2006

  45. What’s the difference? EE CS CpE

  46. Data Bases Compiler Theory Software Engineering Language Survey Web Applications Compiler Theory Computer Science Controls Electronics II Electromagnetics Comm. Theory EE Sr. Design Dynamics Microcontrollers C++ Programming Professional Ethics Digital Logic Design Electrical Engineering Algorithms OOP w/ Java Data Structures Discrete Math Prob. & Stat Statics Circuits Electronics I Thermal Systems Cp. Senior Design Computer Architectures Adv. Digital Logic Design Adv. Computer Architectures Computer Engineering

  47. Program Differences CS • CpE Prog. Language Survey Compiler Theory Database Organization Computer Science Elective Web Applications Engineering Profession CAD (Engineering Graphics) Mechanics (Statics) Circuits Electronics I Linear Systems Thermal Systems

  48. Program Differences • EE • Dynamics • Electronics II • Electromagnetics • Communications Theory • Digital Signal Processing • Feedback Controls CpE • Computer Programming (2) • Operating Systems • Algorithms • Advanced Digital Logic • Computer Architecture (2)

  49. Career Potentials Computer Software Development Embedded Computers Hardware/Software Integration • Electrical • Communications • Controls • Power Systems • Electronic Instruments Image Processing Robotics Digital/Computer Hardware Design

  50. EE/CpE Sr. Design Projects Software Defined Radio High Altitude Balloon Data and Tracking Autonomous Boat (Roboboat) Solar Powered Light Pole and Phone Charger

More Related