Degrees & Classes

Degrees & Classes

Engineering Technology

Composites Specialization

Engineering Technology AAS-T – Composites

Enroll in BTC’s new Engineering Technology – Composites program to learn in-demand skills you can put to use to get jobs as an assembler, fabricator, machine operator, production worker, or supervisor in leading industries, such as aerospace and industrial manufacturing. Building on a core academic curriculum, you’ll learn to apply basic engineering principles and technical skills to engineering support functions in research, production and operations.

By specializing in composites and process engineering, you’ll be prepared to fill a growing need in the job market for skilled composites technicians. Plus, with transferable core classes in math, science, communications, and technical writing, you’ll be well positioned to transfer to a four-year college or university to complete your bachelor’s degree in engineering or advanced manufacturing.

Program Facts

The average annual wage for this field is $76,835, with an earning potential of $89,128 per year.*

Employment and wage data sources


Jobs & Employment

Employment in this field is expected to increase. Job openings for assemblers and fabricators, machine operators, and production workers and supervisors vary according to occupational specialty.

The average annual wage for this field is $76,835, with an earning potential of $89,128 per year.*

Potential Positions

Average Washington State hourly wages:**

• Assemblers and fabricators: $18.99

• First Line Supervisors of Production and Operating Workers: $27.35

• Forging Machine Setters, Operators, and Tenders – Plastic: $18.90

• Helpers Production Workers: $13.11

• Team Assemblers: $14.56

** Northwest WDA I: Whatcom county (March 2013)

Courses

Filter courses by quarter 
Use this tool to see this program's course offerings for upcoming quarters

Courses from the BTC Catalog

  • Academic Core
  • MATH& 141Precalculus I5 credits

    The focus of this course will be functions. Students manipulate and graph linear, polynomial, rational, exponential, logarithmic and quadratic functions. The course will also cover systems of equations, matrices and determinants, and their applications.

    Prerequisite:
    BTC College Level Math score of 75 or a C grade in MATH 099.

    Future Offerings
    1/4-3/22MWF 8:30a-9:50aSTAFFOpenings: 24
    1/4-3/22Online STAFFOpenings: 24
    1/4-3/22MWF10:10a-11:30aSTAFFOpenings: 28
    4/5-6/16MWF10:10a-11:30aSTAFFOpenings: 28
    4/4-6/16Online STAFFOpenings: 24
  • MATH& 142Precalculus II5 credits

    The majority of this course will cover trigonometry. Students will explore trigonometry functions, right and oblique triangle trigonometry, graphing, trigonometry identifies, laws of Sine and Cosine as well as trigonometric application problems. This course will also cover vectors in the plane and in space, along with parametric equations. Polar coordinates and graphs of polar equations will also be included.

    Prerequisite:
    MATH& 141 with a C grade.

    Future Offerings
    1/4-3/22MWF12:30p-1:50pSTAFFOpenings: 28
    4/5-6/16Online STAFFOpenings: 24
    4/5-6/16MWF 8:30a-9:50aSTAFFOpenings: 24
  • MATH& 151Calculus I5 credits

    Study of functions, limits, continuity,limits at infinity, differentiation of algebraic,exponential, logarithmic, and trigonometric functions and their inverses.

    Prerequisite:
    MATH& 142 with a C grade.

    Future Offerings
    1/4-3/22Online STAFFOpenings: 24
    1/4-3/22MWF10:10a-11:30aSTAFFOpenings: 24
    4/5-6/16MWF10:10a-11:30aSTAFFOpenings: 24
    4/5-6/16Online STAFFOpenings: 24
  • PHYS& 221Engineering Physics I w/Lab5 credits

    Kinematics and dynamics of particles; work and energy; gravitation; collisions and conservation of momentum.

    Prerequisite:
    ENGL& 101 with a grade of C or better, Prerequisite or Co-requisite: MATH& 151 with a C grade or better.
  • CHEM& 161General Chemistry w/ Lab I5 credits

    This is an introductory chemistry course which includes an introduction to the scientific method, the international system of measurements, the nature of atoms and molecules, ions, chemical bonding, the periodic table, chemical formulas and equations, stoichiometry of reactions and solutions, and the physical properties of real and ideal gasses. Also included are short courses on polymers and nuclear chemistry. Lab work included.

    Prerequisite:
    BTC College Level Math score of 75 or a C grade in MATH 099 or AMATH 111.

    Future Offerings
    1/5-3/23TTh 8:00a-10:45aSTAFFOpenings: 24
    1/5-3/23TTh 3:00p-5:45pSTAFFOpenings: 24
    4/4-6/16TTh 3:00p-5:45pSTAFFOpenings: 24
  • CHEM& 162General Chemistry w/Lab II5 credits

    Atomic periodicity, chemical bonding theories, solid and liquid states and solutions.

    Prerequisite:
    CHEM& 161 with C grade.
  • ENGL& 101English Composition I5 credits

    A composition course in which students read, analyze, and write essays using a variety of rhetorical strategies, as well as develop and verbally express ideas clearly and effectively. The critical reading of essays will provide a basis for the student's own critical writing, which will reflect a command of college-level literacy standards. Attention to writing fundamentals and stylistic techniques will also be included. Word processing, email and internet knowledge required.

    Prerequisite:
    Accuplacer Reading Comprehension score of 85 or B grade in RDG 085, and Accuplacer Sentence Skills score of 86 or B grade in ENGL 092 or C grade in AENGL 100.

    Future Offerings
    1/5-3/23TTh 8:00a-10:10aSTAFFOpenings: 26
    1/5-3/21Th 1:10p-3:20pSTAFFOpenings: 26
    1/4-3/22MW 8:30a-9:50aSTAFFOpenings: 26
    1/4-3/23Online STAFFOpenings: 24
    4/5-6/16MWF 8:30a-9:50aSTAFFOpenings: 26
    4/4-6/13T 8:00a-10:10aSTAFFOpenings: 26
    4/4-6/16Online STAFFOpenings: 24
  • ENGL& 235Technical Writing5 credits

    This course is designed to help students report technical information clearly, completely, and persuasively. Technical writing shares many of the same concerns of other kinds of writing, such as attention to Purpose, Readability, and most significantly, Audience. This course is designed to provide instruction and practice in creating practical and effective documents for students in medical, scientific, technical, and other professional fields.

    Prerequisite:
    ENGL& 101 with a C grade.

    Future Offerings
    1/4-3/23Online STAFFOpenings: 24
    4/4-6/16Online STAFFOpenings: 24
  • Engineering Core
  • ENGR 100Engineering Orientation2 credits

    This course explores engineering and technology through class discussion, hands-on activities, and presentations by guest speakers. Topics include engineering disciplines, degree and transfer options, career opportunities, academic success strategies, and planning your program of study.

    Prerequisite:

    Future Offerings
    1/4-3/22W11:35a-12:25pDAVISHAHL JOpenings: 24
    4/5-6/14W11:35a-12:25pDAVISHAHL JOpenings: 24
    4/4-6/13T11:35a-12:25pDAVISHAHL JOpenings: 24
    4/4-6/20Online DAVISHAHL JOpenings: 24
  • ENGR& 104Introduction To Engineering & Design5 credits

    Course explores the role of teamwork, creativity, and communication in innovative engineering design. Topics include engineering design process, collaborative problem solving techniques, and computer applications. Students will develop their knowledge and skills in these areas through a series of hands-on design projects.

    Prerequisite:
    (Accuplacer Algebra score of 75 or Math 098 with a "C" or better) and (Accuplacer Reading Comprehension score of 71 or RDG 085 with a "C" or better) and (Accuplacer Sentence Skills score of 71 or ENGL 092 with a "C" or better).

    Future Offerings
    1/4-3/22MWF12:30p-1:50pDAVISHAHL JOpenings: 24
    4/5-6/19MWF12:30p-1:50pDAVISHAHL JOpenings: 24
  • ENGR 115Graphics5 credits

    This course is an introduction to the use of graphical techniques and standard practices used to communicate engineering design information. Students will learn graphics techniques, visualization skills, standards for object views and drawing sizes, orthographic projection, section views, proper dimensioning techniques, and tolerances. Freehand sketching is used to develop visualization skills and as an instrument for design conceptualization and communication.

    Prerequisite:
    (Accuplacer Arithmetic score of 50 or a C grade or better in MATH 090 or ABE 050 with a "C" or better) and (Accuplacer Reading Comprehension score of 71 or RDG 085 with a "C" or better) and (Accuplacer Sentence Skills score of 71 or ENGL 092 with a "C" or

    Future Offerings
    1/4-3/22MWF 8:30a-9:50aSTETTLER TOpenings: 12
    1/4-3/22MWF 8:30a-9:50aSTETTLER TOpenings: 12
    1/5-3/23TTh 1:10p-3:20pREISS JOpenings: 12
    1/5-3/23TTh 1:10p-12:40pREISS JOpenings: 12
    4/4-6/20TTh 1:10p-3:20pMORGAN POpenings: 24
  • ENGR 180Parametric Modeling5 credits

    This course is an introduction to 3D CAD (computer aided design) with an emphasis on parametric solid modeling applications and usage. Topics include methods for creating solid model components, joining components to form assemblies, and generation of 2D manufacturing drawings from 3D solid models.

    Prerequisite:
    ENGR 115 with a "C" or better.

    Future Offerings
    1/5-3/23TTh10:30a-12:40pREISS JOpenings: 24
    4/5-6/19MWF10:10a-11:30aREISS JOpenings: 12
    4/5-6/19MWF10:10a-11:30aREISS JOpenings: 12
    4/4-6/20TTh10:30a-12:40pREISS JOpenings: 12
    4/4-6/20TTh10:30a-12:40pREISS JOpenings: 12
  • ENGR& 214Engineering Statics5 credits

    This course is an introduction to engineering mechanics, focusing on the analysis of “static” (non-moving) structures. Students will use statics concepts to determine the external reaction loads and internal member forces for trusses, frames, and machines.

    Prerequisite:
    MATH& 151 and PHYS& 221 with a "C" or better.

    Future Offerings
    1/4-3/22MWF10:10a-11:30aDAVISHAHL JOpenings: 24
  • ENGR& 225Mechanics Of Materials5 credits

    Introduction to the concepts of stress, deformation, and strain in solid materials. Includes relationships between loads on structural and machine elements and the stresses, deflection and load-carrying capacity of these elements under tension, compression, torsion, bending, and shear forces.

    Prerequisite:
    (ENGR& 214 and MATH& 152 with a "C" or better) or instructor permission.

    Future Offerings
    4/5-6/19MWF10:10a-11:30aDAVISHAHL JOpenings: 24
  • ENGR 270Introduction To Materials Science5 credits

    An introduction to Materials Science that includes the atomic, molecular, and crystalline structures of materials and their relationship to electrical, mechanical, thermal, and chemical properties, as well as an introduction to materials processing and fabrication techniques.

    Prerequisite:
    MATH& 151 and CHEM& 161 with a "C" or better.
  • Composites Core
  • COMP& 101Composites 15 credits

    This course provides an introduction to the field of Composites Technologies, and provides and overview of workplace readiness skills.

    Prerequisite:
  • COMP& 102Composites 25 credits

    Introduction to advanced composite manufacturing with emphasis on Vacuum Infusion, Closed Cavity, Light Resin Transfer and Prepreg technologies. Hands-on training in advanced manufacturing using vinyl ester, epoxy and prepreg, with common types of advanced fiber reinforcement processes.

    Prerequisite:
    C grade or better in COMP& 101
  • COMP& 105Basic Molding3 credits

    Survey course of the common methods used to shape, consolidate, and cure (mold) composite materials for use in the aerospace, marine, transportation, recreation, and medical device industries.

    Prerequisite:
    C grade or better in COMP& 101 or concurrent enrollment
  • COMP& 109Survey of Composites1 credits

    This course provides an introduction to the field of Composites Technologies, and provides and overview of workplace readiness skills.

    Prerequisite:
  • COMP& 110Health & Safety1 credits

    A culture of safe and healthy laboratory practices is developed in this course. Content is specific to working with composites materials.

    Prerequisite:
  • COMP& 210Inspection, Test, & Repair5 credits

    Composite materials manufacturing course providing knowledge and hands-on experience in the inspection and repair techniques of Advanced and Fiber Reinforced Polymer (FRP).

    Prerequisite:
    C grade or better in COMP& 101 or concurrent enrollment
  • COMP& 220Tool Design5 credits

    Theory, application, and fabrication of tooling for fabrication and assembly of composite products.

    Prerequisite:
    C grade or better in COMP& 101
  • MACH 191Machining for Engineers5 credits

    Proper setup of manual lathes and mills will be emphasized in this Introductory machining course for non-program students. Student will be able to identify all parts of an engine lathe and calculate settings to achieve desired speeds and feeds on a variety of different lathes. Work holding, the use of the 3 jaw chuck, facing, O.D. turning, grooving, parting-off and drilling will be covered. Students will hand grind their own tools from HSS lathe tool blanks. The proper use of a mill will be covered including: speed and feed adjustment, work holding and coordinate systems. The operations to be performed will be: tramming in a table, squaring a vise, tool setting, edge finding, facing, end mill use, drilling, and tapping.

    Prerequisite:
    ENGR 115 with a “C” or better.

    Future Offerings
    1/4-3/22MWF11:30a-1:50pDONNER DOpenings: 16
    4/5-6/19MWF11:30a-1:50pDONNER DOpenings: 16
  • MACH 192CNC Machining for Engineers5 credits

    This introductory course covers the principles of CNC machining. The advantages of the CNC machine in production and the process differences between manual and CNC operations will be discussed. Students will read, write, and trouble-shoot G-Code programs, setup CNC lathes and mills, and use CAM software to program a part to run on a CNC machine.

    Prerequisite:
    C grade or better in ENGR 180, C or better in MACH 191.
TOTAL PROGRAM CREDITS116 credits

Program Entry Information

For questions, please contact Admissions at 360-752-8345 or e-mail us at Admissions

Program Start

  • This program typically starts in Fall, Winter, Spring and Summer Quarters on a space available basis.

Testing Requirements

  • Students are required to take the Reading, Sentence and Arithmetic portions of the Accuplacer Placement Test prior to enrolling for classes.

Program Application/Forms

Program Outcomes

Jill Davishahl - Instructor image

Jill Davishahl

Area of Instruction


Engineering & Trades

Degrees and Certifications


M.S., Mechanical Engineering, University of Washington

B.S., Mechanical Engineering, Union College

Certificate, WA Professional Technical Certification

Contact Info


752-8575
jdavishahl@btc.edu
Campus Center (CC) - Room 211

 

Background


Profile

Jill Davishahl is an engineering instructor at Bellingham Technical College where she teaches a variety of engineering classes including Statics,...

    • Jill Davishahl is an engineering instructor at Bellingham Technical College where she teaches a variety of engineering classes including Statics, Mechanics of Materials, and Graphics. Before joining the team at BTC, Jill taught engineering at Western Washington University for the department of Engineering & Design. Prior to her term at WWU, Jill was a tenured faculty member at Edmonds Community College. While at Edmonds Community College, Jill designed and implemented the Associates of Applied Science in Materials Science Technology program, participated in a variety of NSF grants (Co-PI for CSEMS scholarship program, instructor for EMTECH workshops), taught and developed classes in both engineering and materials science, and held the position of department chair of engineering.

      Her experience in industry focused on prosthetic research and design in both a clinical and laboratory setting. Her prosthetics research focused primarily on developing a low cost composite prosthesis for use in underdeveloped countries. She also worked in the area of electronics packaging focusing on creating a thermally conductive interface material for use in computerized applications.

      Her teaching philosophy is to create an environment where students can learn and apply the fundamental concepts of engineering while developing and utilizing their intellectual curiosity, communication skills, and team skills. She strives to inspire student interest in learning and to foster their creative spirit.

Specialties
• Composite design and analysis including finite element analysis

    • • Composite design and analysis including finite element analysis
    • • Design & implementation of engineering and related degree programs
    • • Grant writing and resource development in the area of engineering
    • • Curriculum enhancement


Scott Reiss - Instructor image

Scott Reiss

Area of Instruction


Engineering

Degrees and Certifications


M.S., Mechanical Engineering, Rensselaer Polytechnic Institute

B.S., Mechanical Engineering, University of Vermont

E.I.T., Engineer in Training, State of Vermont

Certificate, WA Professional Technical Certification

Contact Info


752-8424
sreiss@btc.edu
J Building (J) - Room J5-A

 

Background


Profile

Scott Reiss is tenured faculty at BTC where he has been instructing the Mechanical Engineering Technology program since 2003.

Scot...

    • Scott Reiss is tenured faculty at BTC where he has been instructing the Mechanical Engineering Technology program since 2003.

      Scott has over 20 years of industry based mechanical engineering experience. Before Scott joined BTC he owned and operated J. Scott Reiss Consulting, where he performed 3D solid modeling, stress analysis, and patent work for various clients. For ten years prior to that, Scott worked for the PACCAR Technical Center in Mount Vernon as a stress analyst. In this capacity, Scott performed finite element analysis and developed testing strategies to support the development of new class 8 trucks and remedy issues with existing vehicles. Other work experience includes jobs on the east coast where Scott worked in R&D labs developing products and performing test and analysis work.

Specialties
Areas of Expertise: CAD, AutoCAD, Inventor, Plant 3D; Stress Analysis; Finite Element Analysis; Optimization; Composite Design

    • Areas of Expertise: CAD, AutoCAD, Inventor, Plant 3D; Stress Analysis; Finite Element Analysis; Optimization; Composite Design


Jason Kefover - Instructor image

Jason Kefover

Area of Instruction


Electro Mechanical Technology

Degrees and Certifications


M.S., Manufacturing Systems, East Carolina University

B.S., Mechanical Engineering, Penn State University

B.A., Physics, Mansfield University of Pennsylvania

Certificate, Industrial Electricity 1, The Association for Packaging and Processing Technologies

Certificate, Motors and Motor Controls, The Association for Packaging and Processing Technologies

Certificate, Programmable Logic Controllers 1, The Association for Packaging and Processing Technologies

Certificate, Programmable Logic Controllers 2, The Association for Packaging and Processing Technologies

Certificate, Fluid Power 1, The Association for Packaging and Processing Technologies

Certificate, Mechanical Components 2, The Association for Packaging and Processing Technologies

Certificate, WA Professional Technical Certification

Contact Info


752-8568
jkefover@btc.edu
B Building (B) - Room B11-A

 

Background


Profile

Jason has taught at BTC for 5 years. Prior to his tenure at Bellingham Technical College he worked as an Engineer and taught Industrial Maintena...

    • Jason has taught at BTC for 5 years. Prior to his tenure at Bellingham Technical College he worked as an Engineer and taught Industrial Maintenance in the Carolinas. His experience includes work for several major corporations in the Automotive, ¬¬Polymer, and Industrial Robotics industries.

Specialties
Industrial automation, lean manufacturing, and machine maintenance.

    • Industrial automation, lean manufacturing, and machine maintenance.


Mechanical Design

Engineering Technology AAS-T: Mechanical Design This Engineering Technology specialization will prepare students for a career as a CAD technician, mechanical drafter, computer-aided drafter, production planner, or engineering technician. You’ll learn a variety of in-demand skills to support aerospace and mechanical engineers in some of Washington State’s largest industries.

Through both classroom and hands-on instruction, you’ll apply basic engineering principles and utilize high-tech tools, such as solid modeling software, 2D computer-aided drafting, and 3-D models, to solve real-world engineering problems. In addition, this program’s core classes in math, science, communications, and technical writing will position you to continue on to pursue a bachelor’s degree in engineering at a four-year college or university.

Program Facts

The average annual wage for this field is $61,433, with an earning potential of $86,757 per year.*

Employment and wage data sources


Jobs & Employment

Employment in this field is expected to show very strong growth. Job openings for engineering and operations technicians, assemblers and fabricators, machine tool operators, electronics engineering, engineering and mechanical engineering technicians will vary according to occupational specialty.

The average annual wage for this field is $60,341, with an earning potential of $74,797 per year.*

Potential Positions

• Aerospace Engineering and Operations Technicians: $32.46

• Assemblers and fabricators: $14.31

• Computer Numerically Controlled Machine Tool Operators: $19.52

• Electronics Engineering Technician: $29.90

• Engineering Technicians, Except Drafters: $34.93

• Mechanical Engineering Technician: $27.74

**http://www.careeronestop.org/

Courses

Filter courses by quarter 
Use this tool to see this program's course offerings for upcoming quarters

Courses from the BTC Catalog

  • Academic Core
  • MATH& 141Precalculus I5 credits

    The focus of this course will be functions. Students manipulate and graph linear, polynomial, rational, exponential, logarithmic and quadratic functions. The course will also cover systems of equations, matrices and determinants, and their applications.

    Prerequisite:
    BTC College Level Math score of 75 or a C grade in MATH 099.

    Future Offerings
    1/4-3/22MWF 8:30a-9:50aSTAFFOpenings: 24
    1/4-3/22Online STAFFOpenings: 24
    1/4-3/22MWF10:10a-11:30aSTAFFOpenings: 28
    4/5-6/16MWF10:10a-11:30aSTAFFOpenings: 28
    4/4-6/16Online STAFFOpenings: 24
  • MATH& 142Precalculus II5 credits

    The majority of this course will cover trigonometry. Students will explore trigonometry functions, right and oblique triangle trigonometry, graphing, trigonometry identifies, laws of Sine and Cosine as well as trigonometric application problems. This course will also cover vectors in the plane and in space, along with parametric equations. Polar coordinates and graphs of polar equations will also be included.

    Prerequisite:
    MATH& 141 with a C grade.

    Future Offerings
    1/4-3/22MWF12:30p-1:50pSTAFFOpenings: 28
    4/5-6/16Online STAFFOpenings: 24
    4/5-6/16MWF 8:30a-9:50aSTAFFOpenings: 24
  • MATH& 151Calculus I5 credits

    Study of functions, limits, continuity,limits at infinity, differentiation of algebraic,exponential, logarithmic, and trigonometric functions and their inverses.

    Prerequisite:
    MATH& 142 with a C grade.

    Future Offerings
    1/4-3/22Online STAFFOpenings: 24
    1/4-3/22MWF10:10a-11:30aSTAFFOpenings: 24
    4/5-6/16MWF10:10a-11:30aSTAFFOpenings: 24
    4/5-6/16Online STAFFOpenings: 24
  • PHYS& 221Engineering Physics I w/Lab5 credits

    Kinematics and dynamics of particles; work and energy; gravitation; collisions and conservation of momentum.

    Prerequisite:
    ENGL& 101 with a grade of C or better, Prerequisite or Co-requisite: MATH& 151 with a C grade or better.
  • CHEM& 161General Chemistry w/ Lab I5 credits

    This is an introductory chemistry course which includes an introduction to the scientific method, the international system of measurements, the nature of atoms and molecules, ions, chemical bonding, the periodic table, chemical formulas and equations, stoichiometry of reactions and solutions, and the physical properties of real and ideal gasses. Also included are short courses on polymers and nuclear chemistry. Lab work included.

    Prerequisite:
    BTC College Level Math score of 75 or a C grade in MATH 099 or AMATH 111.

    Future Offerings
    1/5-3/23TTh 8:00a-10:45aSTAFFOpenings: 24
    1/5-3/23TTh 3:00p-5:45pSTAFFOpenings: 24
    4/4-6/16TTh 3:00p-5:45pSTAFFOpenings: 24
  • ENGL& 101English Composition I5 credits

    A composition course in which students read, analyze, and write essays using a variety of rhetorical strategies, as well as develop and verbally express ideas clearly and effectively. The critical reading of essays will provide a basis for the student's own critical writing, which will reflect a command of college-level literacy standards. Attention to writing fundamentals and stylistic techniques will also be included. Word processing, email and internet knowledge required.

    Prerequisite:
    Accuplacer Reading Comprehension score of 85 or B grade in RDG 085, and Accuplacer Sentence Skills score of 86 or B grade in ENGL 092 or C grade in AENGL 100.

    Future Offerings
    1/5-3/23TTh 8:00a-10:10aSTAFFOpenings: 26
    1/5-3/21Th 1:10p-3:20pSTAFFOpenings: 26
    1/4-3/22MW 8:30a-9:50aSTAFFOpenings: 26
    1/4-3/23Online STAFFOpenings: 24
    4/5-6/16MWF 8:30a-9:50aSTAFFOpenings: 26
    4/4-6/13T 8:00a-10:10aSTAFFOpenings: 26
    4/4-6/16Online STAFFOpenings: 24
  • ENGL& 235Technical Writing5 credits

    This course is designed to help students report technical information clearly, completely, and persuasively. Technical writing shares many of the same concerns of other kinds of writing, such as attention to Purpose, Readability, and most significantly, Audience. This course is designed to provide instruction and practice in creating practical and effective documents for students in medical, scientific, technical, and other professional fields.

    Prerequisite:
    ENGL& 101 with a C grade.

    Future Offerings
    1/4-3/23Online STAFFOpenings: 24
    4/4-6/16Online STAFFOpenings: 24
  • Engineering Core
  • ENGR 100Engineering Orientation2 credits

    This course explores engineering and technology through class discussion, hands-on activities, and presentations by guest speakers. Topics include engineering disciplines, degree and transfer options, career opportunities, academic success strategies, and planning your program of study.

    Prerequisite:

    Future Offerings
    1/4-3/22W11:35a-12:25pDAVISHAHL JOpenings: 24
    4/5-6/14W11:35a-12:25pDAVISHAHL JOpenings: 24
    4/4-6/13T11:35a-12:25pDAVISHAHL JOpenings: 24
    4/4-6/20Online DAVISHAHL JOpenings: 24
  • ENGR& 104Introduction To Engineering & Design5 credits

    Course explores the role of teamwork, creativity, and communication in innovative engineering design. Topics include engineering design process, collaborative problem solving techniques, and computer applications. Students will develop their knowledge and skills in these areas through a series of hands-on design projects.

    Prerequisite:
    (Accuplacer Algebra score of 75 or Math 098 with a "C" or better) and (Accuplacer Reading Comprehension score of 71 or RDG 085 with a "C" or better) and (Accuplacer Sentence Skills score of 71 or ENGL 092 with a "C" or better).

    Future Offerings
    1/4-3/22MWF12:30p-1:50pDAVISHAHL JOpenings: 24
    4/5-6/19MWF12:30p-1:50pDAVISHAHL JOpenings: 24
  • ENGR 115Graphics5 credits

    This course is an introduction to the use of graphical techniques and standard practices used to communicate engineering design information. Students will learn graphics techniques, visualization skills, standards for object views and drawing sizes, orthographic projection, section views, proper dimensioning techniques, and tolerances. Freehand sketching is used to develop visualization skills and as an instrument for design conceptualization and communication.

    Prerequisite:
    (Accuplacer Arithmetic score of 50 or a C grade or better in MATH 090 or ABE 050 with a "C" or better) and (Accuplacer Reading Comprehension score of 71 or RDG 085 with a "C" or better) and (Accuplacer Sentence Skills score of 71 or ENGL 092 with a "C" or

    Future Offerings
    1/4-3/22MWF 8:30a-9:50aSTETTLER TOpenings: 12
    1/4-3/22MWF 8:30a-9:50aSTETTLER TOpenings: 12
    1/5-3/23TTh 1:10p-3:20pREISS JOpenings: 12
    1/5-3/23TTh 1:10p-12:40pREISS JOpenings: 12
    4/4-6/20TTh 1:10p-3:20pMORGAN POpenings: 24
  • ENGR 180Parametric Modeling5 credits

    This course is an introduction to 3D CAD (computer aided design) with an emphasis on parametric solid modeling applications and usage. Topics include methods for creating solid model components, joining components to form assemblies, and generation of 2D manufacturing drawings from 3D solid models.

    Prerequisite:
    ENGR 115 with a "C" or better.

    Future Offerings
    1/5-3/23TTh10:30a-12:40pREISS JOpenings: 24
    4/5-6/19MWF10:10a-11:30aREISS JOpenings: 12
    4/5-6/19MWF10:10a-11:30aREISS JOpenings: 12
    4/4-6/20TTh10:30a-12:40pREISS JOpenings: 12
    4/4-6/20TTh10:30a-12:40pREISS JOpenings: 12
  • ENGR& 214Engineering Statics5 credits

    This course is an introduction to engineering mechanics, focusing on the analysis of “static” (non-moving) structures. Students will use statics concepts to determine the external reaction loads and internal member forces for trusses, frames, and machines.

    Prerequisite:
    MATH& 151 and PHYS& 221 with a "C" or better.

    Future Offerings
    1/4-3/22MWF10:10a-11:30aDAVISHAHL JOpenings: 24
  • ENGR& 225Mechanics Of Materials5 credits

    Introduction to the concepts of stress, deformation, and strain in solid materials. Includes relationships between loads on structural and machine elements and the stresses, deflection and load-carrying capacity of these elements under tension, compression, torsion, bending, and shear forces.

    Prerequisite:
    (ENGR& 214 and MATH& 152 with a "C" or better) or instructor permission.

    Future Offerings
    4/5-6/19MWF10:10a-11:30aDAVISHAHL JOpenings: 24
  • Mechanical Core
  • ENGT 116Advanced Graphics5 credits

    This course is a continuation of the mechanical engineering graphic technology foundation. It utilizes CAD to develop advanced drawing techniques in accordance with industry standards. Instruction includes projection techniques for points, lines, and planes; the purpose and application of auxiliary views; methods for developing more advanced principal views; dimensioning and tolerancing of parts for manufacture according to ASME/ANSI standards; and methods for representing threads and fasteners.

    Prerequisite:
    ENGR 115 with a "C" or better and (completion of or concurrent enrollment in ENGT 135 with a "C" or better).

    Future Offerings
    1/4-3/22MWF12:30p-1:50pREISS JOpenings: 24
    1/4-3/22MWF12:30p-1:50pREISS JOpenings: 24
  • ENGT 134AutoCAD I5 credits

    This course is an introduction to CAD (Computer Aided Drafting), utilizing a "cookbook" approach to instruction. Students have immediate hands-on computer usage while applying basic command concepts and terminology. Basic drawing and editing techniques are reinforced with exercises designed to help the student reach an in-depth understanding.


    Future Offerings
    1/4-3/22MWF10:10a-11:30aSTETTLER TOpenings: 24
    1/5-3/23TTh 5:30p-7:40pSTAFFOpenings: 24
    4/5-6/19MWF10:10a-11:30aSTAFFOpenings: 24
    4/4-6/20TTh 8:00a-10:10aSTETTLER TOpenings: 24
    4/4-6/20TTh 5:30p-7:40pSTAFFOpenings: 24
  • ENGT 135AutoCAD II5 credits

    This course is a continuation of AutoCAD I and utilizes intermediate drawing and editing tools. Coursework includes generating and editing dimensions and tolerances in CAD, methods for creating isometric drawings, paperspace techniques for printing/plotting to scale, applications and procedures for creating attributed blocks, creation of table, and the applications and procedures for using external references.

    Prerequisite:
    ENGT 115 and ENGT 134 with a "C" or better.

    Future Offerings
    1/4-3/22MWF 2:10p-3:30pSTAFFOpenings: 24
    4/5-6/19MWF 2:10p-3:30pREISS JOpenings: 24
  • ENGT 222Advanced Parametric Modeling5 credits

    This course is a continuation of Parametric Modeling. Topics include more advanced methods for the creation of parts, assemblies, and 2D manufacturing drawings.

    Prerequisite:
    ENGR 180 with a "C" or better.
  • ENGT 233Intro To CATIA5 credits

    This course is an introduction to solid modeling using CATIA V5 CAD (computer aided design) software. Topics include methods for creating solid model components, joining components to form assemblies, and generating 2D manufacturing drawings from 3D solid models.

    Prerequisite:
    ENGR 115 with a “C” or better.

    Future Offerings
    1/4-3/22MW12:30p-1:50pMORGAN POpenings: 24
    4/5-6/19MW12:30p-1:50pMORGAN POpenings: 24
  • ENGT 250Capstone Project5 credits

    This is a project oriented design course in which students draw on skills developed throughout the program to complete an instructor selected project. Topics are chosen based on real world significance, relevance and breadth of the skill set required, and available on-campus project opportunities. Projects may be individual or group based and typically involve several or all of the following completion tasks; 2D CAD drafting, 3D solid modeling, statics analysis of structural loads, sizing of members based on strength of materials, geometric and trigonometric calculations, data exchange, etc.

    Prerequisite:
    ENGR 180 and ENGT 116 and ENGT 135 with a "C" or better.

    Future Offerings
    4/4-6/20TTh 1:10p-3:20pREISS JOpenings: 24
  • MACH 191Machining for Engineers5 credits

    Proper setup of manual lathes and mills will be emphasized in this Introductory machining course for non-program students. Student will be able to identify all parts of an engine lathe and calculate settings to achieve desired speeds and feeds on a variety of different lathes. Work holding, the use of the 3 jaw chuck, facing, O.D. turning, grooving, parting-off and drilling will be covered. Students will hand grind their own tools from HSS lathe tool blanks. The proper use of a mill will be covered including: speed and feed adjustment, work holding and coordinate systems. The operations to be performed will be: tramming in a table, squaring a vise, tool setting, edge finding, facing, end mill use, drilling, and tapping.

    Prerequisite:
    ENGR 115 with a “C” or better.

    Future Offerings
    1/4-3/22MWF11:30a-1:50pDONNER DOpenings: 16
    4/5-6/19MWF11:30a-1:50pDONNER DOpenings: 16
  • MACH 192CNC Machining for Engineers5 credits

    This introductory course covers the principles of CNC machining. The advantages of the CNC machine in production and the process differences between manual and CNC operations will be discussed. Students will read, write, and trouble-shoot G-Code programs, setup CNC lathes and mills, and use CAM software to program a part to run on a CNC machine.

    Prerequisite:
    C grade or better in ENGR 180, C or better in MACH 191.
TOTAL PROGRAM CREDITS112 credits

Program Entry Information

For questions, please contact Admissions at 360-752-8345 or e-mail us at Admissions

Program Start

  • This program typically starts in Fall, Winter, Spring and Summer Quarters on a space available basis.

Testing Requirements

  • Students are required to take the Reading, Sentence and Arithmetic portions of the Accuplacer Placement Test prior to enrolling for classes.

Program Application/Forms

Program Outcomes

Scott Reiss - Instructor image

Scott Reiss

Area of Instruction


Engineering

Degrees and Certifications


M.S., Mechanical Engineering, Rensselaer Polytechnic Institute

B.S., Mechanical Engineering, University of Vermont

E.I.T., Engineer in Training, State of Vermont

Certificate, WA Professional Technical Certification

Contact Info


752-8424
sreiss@btc.edu
J Building (J) - Room J5-A

 

Background


Profile

Scott Reiss is tenured faculty at BTC where he has been instructing the Mechanical Engineering Technology program since 2003.

Scot...

    • Scott Reiss is tenured faculty at BTC where he has been instructing the Mechanical Engineering Technology program since 2003.

      Scott has over 20 years of industry based mechanical engineering experience. Before Scott joined BTC he owned and operated J. Scott Reiss Consulting, where he performed 3D solid modeling, stress analysis, and patent work for various clients. For ten years prior to that, Scott worked for the PACCAR Technical Center in Mount Vernon as a stress analyst. In this capacity, Scott performed finite element analysis and developed testing strategies to support the development of new class 8 trucks and remedy issues with existing vehicles. Other work experience includes jobs on the east coast where Scott worked in R&D labs developing products and performing test and analysis work.

Specialties
Areas of Expertise: CAD, AutoCAD, Inventor, Plant 3D; Stress Analysis; Finite Element Analysis; Optimization; Composite Design

    • Areas of Expertise: CAD, AutoCAD, Inventor, Plant 3D; Stress Analysis; Finite Element Analysis; Optimization; Composite Design


Jill Davishahl - Instructor image

Jill Davishahl

Area of Instruction


Engineering & Trades

Degrees and Certifications


M.S., Mechanical Engineering, University of Washington

B.S., Mechanical Engineering, Union College

Certificate, WA Professional Technical Certification

Contact Info


752-8575
jdavishahl@btc.edu
Campus Center (CC) - Room 211

 

Background


Profile

Jill Davishahl is an engineering instructor at Bellingham Technical College where she teaches a variety of engineering classes including Statics,...

    • Jill Davishahl is an engineering instructor at Bellingham Technical College where she teaches a variety of engineering classes including Statics, Mechanics of Materials, and Graphics. Before joining the team at BTC, Jill taught engineering at Western Washington University for the department of Engineering & Design. Prior to her term at WWU, Jill was a tenured faculty member at Edmonds Community College. While at Edmonds Community College, Jill designed and implemented the Associates of Applied Science in Materials Science Technology program, participated in a variety of NSF grants (Co-PI for CSEMS scholarship program, instructor for EMTECH workshops), taught and developed classes in both engineering and materials science, and held the position of department chair of engineering.

      Her experience in industry focused on prosthetic research and design in both a clinical and laboratory setting. Her prosthetics research focused primarily on developing a low cost composite prosthesis for use in underdeveloped countries. She also worked in the area of electronics packaging focusing on creating a thermally conductive interface material for use in computerized applications.

      Her teaching philosophy is to create an environment where students can learn and apply the fundamental concepts of engineering while developing and utilizing their intellectual curiosity, communication skills, and team skills. She strives to inspire student interest in learning and to foster their creative spirit.

Specialties
• Composite design and analysis including finite element analysis

    • • Composite design and analysis including finite element analysis
    • • Design & implementation of engineering and related degree programs
    • • Grant writing and resource development in the area of engineering
    • • Curriculum enhancement


Jason Kefover - Instructor image

Jason Kefover

Area of Instruction


Electro Mechanical Technology

Degrees and Certifications


M.S., Manufacturing Systems, East Carolina University

B.S., Mechanical Engineering, Penn State University

B.A., Physics, Mansfield University of Pennsylvania

Certificate, Industrial Electricity 1, The Association for Packaging and Processing Technologies

Certificate, Motors and Motor Controls, The Association for Packaging and Processing Technologies

Certificate, Programmable Logic Controllers 1, The Association for Packaging and Processing Technologies

Certificate, Programmable Logic Controllers 2, The Association for Packaging and Processing Technologies

Certificate, Fluid Power 1, The Association for Packaging and Processing Technologies

Certificate, Mechanical Components 2, The Association for Packaging and Processing Technologies

Certificate, WA Professional Technical Certification

Contact Info


752-8568
jkefover@btc.edu
B Building (B) - Room B11-A

 

Background


Profile

Jason has taught at BTC for 5 years. Prior to his tenure at Bellingham Technical College he worked as an Engineer and taught Industrial Maintena...

    • Jason has taught at BTC for 5 years. Prior to his tenure at Bellingham Technical College he worked as an Engineer and taught Industrial Maintenance in the Carolinas. His experience includes work for several major corporations in the Automotive, ¬¬Polymer, and Industrial Robotics industries.

Specialties
Industrial automation, lean manufacturing, and machine maintenance.

    • Industrial automation, lean manufacturing, and machine maintenance.


Tim Stettler - Instructor image

Tim Stettler

Area of Instruction


Engineering

Degrees and Certifications


B.S., Civil Engineering, Washington State University

A.A.S., Civil Engineering, Spokane Community College

Certificate, Engineer-in-Training, State of Washington

Certificate, Radiation Safety and Use of Nuclear Gauges, CPN International

Certificate, WA Professional Technical Certification

Contact Info


752-8338
tstettler@btc.edu
J Building (J) - Room J1

 

Background


Profile

...


Carl Oekerman - Instructor image

Carl Oekerman

Area of Instruction


Social Sciences

Degrees and Certifications


M.S., Counseling and Mental Health, California State University, Hayward

B.A., Liberal Studies, University of California, Santa Barbara

Contact Info


752-8566
coekerman@btc.edu
Campus Center (CC) - Room 223

 

Background


Profile

Carl has twelve years of experience in a number of settings as a licensed mental health counselor. He has worked as a therapist in private pract...

    • Carl has twelve years of experience in a number of settings as a licensed mental health counselor. He has worked as a therapist in private practice, organizational development consultant, and County Designated Mental Health Professional. He also served as the Director of the Emergency Services Department at Whatcom Counseling and Psychiatric Clinic.

      Carl started teaching Interpersonal Communications courses at BTC in 2004 and was hired as a full time instructor in 2007.


Electronics Engineering Technology

Choose BTC’s Electronics Engineering program to prepare for an exciting career as an electronics engineering technician. Electronics engineering technicians are in high demand as engineering assistants, field service technicians, electronic equipment technicians, manufacturing support technicians, and electronic product development engineering assistants.

At BTC, you’ll learn the latest electronics processes and systems, including analog and digital circuits design and analysis, analog and digital electronics , embedded micro-controller systems , sensors and instrumentation, industrial electronics, programmable logic controller and manufacturing automation, robotics and controls, lasers , optoelectronics and fiber optics, wireless communications, NANO/Micro Systems, renewable energy and emerging electronics technology. You can put your valuable skills to work in manufacturing companies, processing plants, computer service firms, telephone and wireless communications companies, electronic instrument high tech industries, electronic product development labs, and in the solar and renewable energy areas and biomedical equipment field.

This program provides students a pathway to: • Obtain an Electronics Technician Certificate after they complete the first year of study and are certified by the Electronics Technicians Association – International (ETA-i) and receive an Associate Certified Electronics Technician (CETa) certificate. •Obtain an associate of applied science degree in the field of Electronics. • Transfer to a four-year college or university to earn a bachelors degree in Electronics Engineering Technology.

Program Facts

Average annual wage $61,925

Wage potential $72,342 annually

Employment and wage data sources


Jobs & Employment

The average annual wage in this field is $61,925, with an earning potential of about $72,342 per year.*

Criminal convictions may restrict or prevent student participation with internships and employment in this industry.

Potential Positions

Program graduates work primarily as electronics technicians. Opportunities exist in manufacturing, computer servicing, mobile two-way radio servicing, telephone and wireless communication servicing, and biomedical equipment servicing. Potential positions include electronic equipment technician, biomedical technician, manufacturing tech, general electronics technician, computer systems repair technician, cable or satellite TV technician, technical writer, technical sales, engineering or engineers assistant, field service technician, broadcast technician and microwave technician.

Courses

Filter courses by quarter 
Use this tool to see this program's course offerings for upcoming quarters

Courses from the BTC Catalog

  • Quarter 1
  • ELTR 100Direct Current 14 credits

    A thorough introduction for the new student to the fundamental properties and applications of electricity. This course opens the doors to a wide array of career opportunities in computer servicing, biomedical equipment servicing, manufacturing technology, telecommunications, and home entertainment equipment servicing. In addition, safety procedures are emphasized. Students learn how to make good solder connections and recognize and repair bad solder connections. Students learn how to select and clean soldering tools. This course continues with the basics of current, voltage and resistance. The application of Ohm’s Law and the construction of circuits to verify electronic theory provide the knowledge necessary to build the foundation for a thorough understanding of electronics.

    Prerequisite:
    Admission to Electronics program or Instructor permission.
  • ELTR 105Direct Current II4 credits

    The development of a working knowledge of the basic principles of DC electronics. The purpose and operation of such devices as resistors, capacitors, inductors and meters are covered in labs and theory.

    Prerequisite:
    ELTR 100
  • ELTR 110Alternating Current 14 credits

    An introduction and examination of the principles and applications of alternating current, including frequency, reactance, impedance, and resonance.

    Prerequisite:
    Admission and ELTR 105
  • ELTR 115Alternating Current II4 credits

    Students continue their exploration of AC with transformers and filter circuits (low-pass, high-pass, band-stop and band-pass), with theory and lab work.

    Prerequisite:
    ELTR 110
  • MATH& 142 *Precalculus II5 credits

    The majority of this course will cover trigonometry. Students will explore trigonometry functions, right and oblique triangle trigonometry, graphing, trigonometry identifies, laws of Sine and Cosine as well as trigonometric application problems. This course will also cover vectors in the plane and in space, along with parametric equations. Polar coordinates and graphs of polar equations will also be included.

    Prerequisite:
    MATH& 141 with a C grade.

    Future Offerings
    1/4-3/22MWF12:30p-1:50pSTAFFOpenings: 28
    4/5-6/16Online STAFFOpenings: 24
    4/5-6/16MWF 8:30a-9:50aSTAFFOpenings: 24
  • Quarter 2
  • ELTR 120Semiconductors 15 credits

    Students learn how discrete semiconductor devices are constructed, how to handle them, how diodes, bipolar transistors, FETS, and thrystors operate and how to use them in practical circuits. ACDC power supply circuits introduced as well.

    Prerequisite:
    ELTR 115
  • ELTR 125Semiconductors II5 credits

    This course introduces the student to various “building block” circuits including amplifiers, oscillators, and power supply circuits, through theory and lab work.

    Prerequisite:
    ELTR 120
  • ELTR 130OP-Amps 013 credits

    Explores the design and operation of basic operational amplifier circuits through theory and lab work to illustrate and confirm the design and operation of linear amplifiers, voltage and current converters, comparators and precision rectifiers.

    Prerequisite:
    ELTR 125
  • ELTR 135OP-Amps 23 credits

    Oscillators, active filters and single power-supply circuits and other applications of op-amps are covered in theory and practical labs.

    Prerequisite:
    ELTR 130
  • ENGL& 235Technical Writing5 credits

    This course is designed to help students report technical information clearly, completely, and persuasively. Technical writing shares many of the same concerns of other kinds of writing, such as attention to Purpose, Readability, and most significantly, Audience. This course is designed to provide instruction and practice in creating practical and effective documents for students in medical, scientific, technical, and other professional fields.

    Prerequisite:
    ENGL& 101 with a C grade.

    Future Offerings
    1/4-3/23Online STAFFOpenings: 24
    4/4-6/16Online STAFFOpenings: 24
  • Quarter 3
  • ELTR 140Digital 15 credits

    A comprehensive focus on the concepts, terminology, components and circuits that combine to form basic digital systems.

    Prerequisite:
    ELTR 135
  • ELTR 145Digital 25 credits

    Flip-flops, Sequential Logic, Combination Logic, Semiconductor Memory, Data Conversion and Digital Troubleshooting theory and practical labs help the student understand digital circuits and techniques.

    Prerequisite:
    ELTR 140
  • CS& 131Computer Science I C++5 credits

    This course equips students with fundamental programming skills such as effective use of data types, variables, assignment statements, control structures, modular design using procedures, pointers and array data structures in the construction of C++ programs. This course also introduces students to Object Oriented Programming concepts and prepares students for the C++ Institute Certified Associate Programmer exam.

    Prerequisite:
    MATH 099 or IT 121 with a C or better or Instructor Permission.
  • ETEC 150Electronic Communications6 credits

    This course provides a comprehensive introduction to electronic communication fundamentals and applications including modulation, transmitters, receivers, antennas, RF, digital communication, multiplexing, cellular and PC.

  • Quarter 4
  • CHEM& 141General Chemistry I

    This course is designed for programs requiring strong backgrounds in chemistry. Atomic theory, stoichiometry, periodic table, nomenclature, reactions in aqueous solutions, gases, thermochemistry, and basic principles of organic chemistry will be covered.

    Prerequisite:
    AMATH 111 with a C grade
  • ETEC 282Certified Electronics Technician Test Prep3 credits

    This course prepares students for the nationally recognized Certified Electronics Technician (CET) Test.

  • Certified Electronics Technician Test Exam (see program advisor)

  • Quarter 5
  • ETEC 212Micro-Controller System I6 credits

    This course introduces the students to the basic computer theory; Intel 808X microprocessor architecture, 68HC12 processor architecture and its instruction sets. Students will also be introduced to hardware design concepts for a stand-alone and an expanded system; the data address bus, control signals, microprocessor architecture, digital circuits and programming with emphasis in learning from a systems approach.

    Prerequisite:
    ELTR 145, MATH& 141
  • MATH& 151Calculus I5 credits

    Study of functions, limits, continuity,limits at infinity, differentiation of algebraic,exponential, logarithmic, and trigonometric functions and their inverses.

    Prerequisite:
    MATH& 142 with a C grade.

    Future Offerings
    1/4-3/22Online STAFFOpenings: 24
    1/4-3/22MWF10:10a-11:30aSTAFFOpenings: 24
    4/5-6/16MWF10:10a-11:30aSTAFFOpenings: 24
    4/5-6/16Online STAFFOpenings: 24
  • PHYS& 221Engineering Physics I w/Lab5 credits

    Kinematics and dynamics of particles; work and energy; gravitation; collisions and conservation of momentum.

    Prerequisite:
    ENGL& 101 with a grade of C or better, Prerequisite or Co-requisite: MATH& 151 with a C grade or better.
  • Quarter 6
  • MATH& 152Calculus II5 credits

    The study of Riemann Sums, methods of integration, numerical methods, polar and rectangular forms, fundamental theorem of Calculus, areas of regions, volumes of solids, centroids, length of curves, surface area, and an introduction to differential equations.

    Prerequisite:
    MATH& 151 with a C or better.

    Future Offerings
    1/4-3/22Online STAFFOpenings: 24
    1/4-3/22MWF12:30p-1:50pSTAFFOpenings: 24
  • PHYS& 222Engineering Physics II w/Lab5 credits

    Phys& 222 is a calculus-based introduction to electricity and magnetism that prepares students for coursework in engineering. The course introduces the fundamental principles of electricity and magnetism: electrostatics; magnetic fields of steady currents; time-varying electric and magnetic fields; DC and AC circuits; electromagnetic waves. Conceptual development and problem solving have equal emphasis. Laboratory work provides an introduction to design, experimental methods and elementary data analysis.

    Prerequisite:
    PHYS& 221 with a grade of C or better, Prerequisite or Co-requisite MATH& 152 with a C grade or better.

    Future Offerings
    1/10-3/21T10:30a-12:20pSTAFFOpenings: 12
  • Quarter 7
  • MATH 204Introduction to Linear Algebra ALGEBRA (5)5 credits

    Elementary study of the fundamentals of linear algebra. Course is intended for stronger math or science students. Course to include the study of systems of linear equations; matrices; n-dimensional vector space; linear independence, bases, subspaces and dimension. Introduction to determinants and the eigenvalue problem; applications. Graphing calculator required.

    Prerequisite:
    MATH& 151 with a C grade or better.
  • PHYS& 223Engineering Physics III w/Lab5 credits

    PHYS& 223 is a calculus-based introduction to rotations and oscillations, wave phenomena and optics that prepares students for coursework in engineering. Conceptual development and problem solving have equal emphasis. Laboratory work provides an introduction to design, experimental methods and elementary data analysis.

    Prerequisite:
    PHYS& 222 with a grade of C or better.
  • Quarter 6
  • ENGR& 204Electrical Circuits5 credits

    This course is a basic introduction to electrical engineering and circuit analysis. Topics covered include basic circuit and systems concepts, mathematical models of components, Kirchoff's laws, resistors, sources, capacitors, inductors, and operational amplifiers. The solution of first and second order linear differential equations associated with basic RC, RLC and active filter circuits is required.

    Prerequisite:
    (MATH& 151 and PHYS& 220 with a "C" or better) or Instructor Permission.

    Future Offerings
    4/4-5/30TTh 3:30p-5:30pCHEUNG SOpenings: 24
TOTAL PROGRAM CREDITS107 credits

* Minimum requirement. List of other AAS-T class options and alternatives

Program Entry Information

For questions, please contact Admissions at 360-752-8345 or e-mail us at Admissions

Program Start

  • This program accepts students twice a year in fall and spring quarters.

Testing Requirements

  • BTC College Level Math score of 32 or a C grade in MATH 099.
  • Accuplacer Reading Comprehension score of 71 or a C grade in RDG 085, and Accuplacer Sentence Skills score of 71 or a C grade in ENGL 092.

Pre-Program Course Requirements

  • Please note: ENGL& 101 (English Composition I), ENGR& 104 (Intro to Engineering & Design), and MATH& 141 (Precalculus I) need to be completed before starting the ELTR series of courses.

Program Outcomes

  • Practice safety procedures and use protective equipment to safeguard against injury and workplace accidents.
  • Assess and analyze a variety of active and passive electronic devices to determine operational efficiency and effectiveness.
  • Implement design for serviceability, packaging, wiring, and technical reports.
  • Utilize critical and logical thinking procedures/processes in troubleshooting and problem solving.
  • Analyze and troubleshoot components at the system level.
  • Calibrate, align, and adjust electronic devices.
  • National certification through Electronics Technicians Association International (ETA-i).

Samuel Cheung - Instructor image

Samuel Cheung

Area of Instruction


Electronics

Degrees and Certifications


M.Ed., Education, Western Washington University

M.S., Electrical Engineering, University of Vermont

B.S., Electrical Engineering, California State University

Certificate, E.I.T., State of California

Certificate, WA Professional Technical Certification

Contact Info


752-8455
scheung@btc.edu
McArdle Center (DMC) - Room 137

 

Background


Profile

Sam started his career as an electronics technician at Hughes Aircraft Company working in microwave communication systems. After receiving his B....

    • Sam started his career as an electronics technician at Hughes Aircraft Company working in microwave communication systems. After receiving his B.S.E.E., he worked at Rockwell International in the field of satellite communication. In 1977, Sam joined IBM and worked as a manufacturing engineer, development engineer, and engineering manager. His work experiences are in the areas of thin-film, laser and optical measurements, PC development, and server system performance. At IBM Sam received numerous achievement awards including: the First Patent Application Invention, the First Plateau Invention, and Authors’ Recognition. Sam also received a US patent and has one pending patent for his work at IBM.

      Prior to joining Bellingham Technical College as a faculty member in 2005, he was a full-time faculty member in the Mathematics department at Durham Technical Community College in North Carolina. He previously served as adjunct mathematics faculty at Palm Beach Community College in Florida, and Wake Technical Community College in North Carolina.

Specialties
NSF Grant Consultant: Dissemination of Microprocessor Course through classroom and Interactive Cyber-Enabled Technologies (current)

    • NSF Grant Consultant: Dissemination of Microprocessor Course through classroom and Interactive Cyber-Enabled Technologies (current)
    • Faculty Advisory Board Member: National Science Foundation Network National Resource Center (Current)
    • IBM Faculty Loan Program to the University of Washington to assist the Minority Engineering Program (1989 – 1990)
    • Areas of expertise: Electronics Hardware: discrete analog and digital components, embedded micro-controller systems, PC architecture and system design, PLC, Optics and electronics communication; Renewable Energy: Solar, and Fuel cells.; Programming languages: Basic/Visual Basic, C/C++ and assembler


Dave Starkovich - Instructor image

Dave Starkovich

Area of Instruction


Instrumentation & Control Technology

Degrees and Certifications


M.S., Technical Education, Western Washington University

B.S., B.S., Electronics Technology, Western Washington University

A.S., A.S., Electronics Technology, Everett Community College

Certificate, Instrumentation Certificate, Perry Technical Institute

Certificate, WA Professional Technical Certification

Contact Info


752-8416
dstarkovich@btc.edu
McArdle Center (DMC) - Room 136


Jill Davishahl - Instructor image

Jill Davishahl

Area of Instruction


Engineering & Trades

Degrees and Certifications


M.S., Mechanical Engineering, University of Washington

B.S., Mechanical Engineering, Union College

Certificate, WA Professional Technical Certification

Contact Info


752-8575
jdavishahl@btc.edu
Campus Center (CC) - Room 211

 

Background


Profile

Jill Davishahl is an engineering instructor at Bellingham Technical College where she teaches a variety of engineering classes including Statics,...

    • Jill Davishahl is an engineering instructor at Bellingham Technical College where she teaches a variety of engineering classes including Statics, Mechanics of Materials, and Graphics. Before joining the team at BTC, Jill taught engineering at Western Washington University for the department of Engineering & Design. Prior to her term at WWU, Jill was a tenured faculty member at Edmonds Community College. While at Edmonds Community College, Jill designed and implemented the Associates of Applied Science in Materials Science Technology program, participated in a variety of NSF grants (Co-PI for CSEMS scholarship program, instructor for EMTECH workshops), taught and developed classes in both engineering and materials science, and held the position of department chair of engineering.

      Her experience in industry focused on prosthetic research and design in both a clinical and laboratory setting. Her prosthetics research focused primarily on developing a low cost composite prosthesis for use in underdeveloped countries. She also worked in the area of electronics packaging focusing on creating a thermally conductive interface material for use in computerized applications.

      Her teaching philosophy is to create an environment where students can learn and apply the fundamental concepts of engineering while developing and utilizing their intellectual curiosity, communication skills, and team skills. She strives to inspire student interest in learning and to foster their creative spirit.

Specialties
• Composite design and analysis including finite element analysis

    • • Composite design and analysis including finite element analysis
    • • Design & implementation of engineering and related degree programs
    • • Grant writing and resource development in the area of engineering
    • • Curriculum enhancement


Carl Oekerman - Instructor image

Carl Oekerman

Area of Instruction


Social Sciences

Degrees and Certifications


M.S., Counseling and Mental Health, California State University, Hayward

B.A., Liberal Studies, University of California, Santa Barbara

Contact Info


752-8566
coekerman@btc.edu
Campus Center (CC) - Room 223

 

Background


Profile

Carl has twelve years of experience in a number of settings as a licensed mental health counselor. He has worked as a therapist in private pract...

    • Carl has twelve years of experience in a number of settings as a licensed mental health counselor. He has worked as a therapist in private practice, organizational development consultant, and County Designated Mental Health Professional. He also served as the Director of the Emergency Services Department at Whatcom Counseling and Psychiatric Clinic.

      Carl started teaching Interpersonal Communications courses at BTC in 2004 and was hired as a full time instructor in 2007.


Civil Engineering Technology

This program will prepare you for a career as a civil engineering technician, computer aided drafter, construction manager, transportation technician, or GIS technician. You’ll learn valuable skills like civil drawing, design, geographic information systems (GIS) and field engineering.

If you’re looking for a program that will put you on a solid career track with employers such as high-tech industries, civil engineering and surveying firms, the Department of Transportation, or civil construction companies, then look into Civil Engineering at BTC.

Program Facts

72% Average placement rate for program graduates

Average wage $53,258 annually

Wage potential $64,074 annually

Employment and wage data sources


Jobs & Employment

Employment of engineering technicians is expected to increase. As technology becomes more sophisticated, employers continue to look for technicians who are skilled in new technology and require a minimum of additional job training.

About 72% of BTC Civil Engineering Technology students are employed within nine months of graduation. The average annual income in this field is $53,258, with an earning potential of about $64,074 per year.*

Potential Positions

Most program graduates work as civil engineering technicians. Potential positions also include computer aided drafter, construction manager, transportation technician, and GIS technician.

Graduates may be employed by both public and private organizations including municipal, state and federal agencies, roadway and building construction firms, public utilities, engineering firms, manufacturing companies, and aircraft companies.

Courses

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Courses from the BTC Catalog

  • Academic Core
  • MATH& 141Precalculus I5 credits

    The focus of this course will be functions. Students manipulate and graph linear, polynomial, rational, exponential, logarithmic and quadratic functions. The course will also cover systems of equations, matrices and determinants, and their applications.

    Prerequisite:
    BTC College Level Math score of 75 or a C grade in MATH 099.

    Future Offerings
    1/4-3/22MWF 8:30a-9:50aSTAFFOpenings: 24
    1/4-3/22Online STAFFOpenings: 24
    1/4-3/22MWF10:10a-11:30aSTAFFOpenings: 28
    4/5-6/16MWF10:10a-11:30aSTAFFOpenings: 28
    4/4-6/16Online STAFFOpenings: 24
  • MATH& 142Precalculus II5 credits

    The majority of this course will cover trigonometry. Students will explore trigonometry functions, right and oblique triangle trigonometry, graphing, trigonometry identifies, laws of Sine and Cosine as well as trigonometric application problems. This course will also cover vectors in the plane and in space, along with parametric equations. Polar coordinates and graphs of polar equations will also be included.

    Prerequisite:
    MATH& 141 with a C grade.

    Future Offerings
    1/4-3/22MWF12:30p-1:50pSTAFFOpenings: 28
    4/5-6/16Online STAFFOpenings: 24
    4/5-6/16MWF 8:30a-9:50aSTAFFOpenings: 24
  • ENGL& 101English Composition I5 credits

    A composition course in which students read, analyze, and write essays using a variety of rhetorical strategies, as well as develop and verbally express ideas clearly and effectively. The critical reading of essays will provide a basis for the student's own critical writing, which will reflect a command of college-level literacy standards. Attention to writing fundamentals and stylistic techniques will also be included. Word processing, email and internet knowledge required.

    Prerequisite:
    Accuplacer Reading Comprehension score of 85 or B grade in RDG 085, and Accuplacer Sentence Skills score of 86 or B grade in ENGL 092 or C grade in AENGL 100.

    Future Offerings
    1/5-3/23TTh 8:00a-10:10aSTAFFOpenings: 26
    1/5-3/21Th 1:10p-3:20pSTAFFOpenings: 26
    1/4-3/22MW 8:30a-9:50aSTAFFOpenings: 26
    1/4-3/23Online STAFFOpenings: 24
    4/5-6/16MWF 8:30a-9:50aSTAFFOpenings: 26
    4/4-6/13T 8:00a-10:10aSTAFFOpenings: 26
    4/4-6/16Online STAFFOpenings: 24
  • ENGL& 235Technical Writing5 credits

    This course is designed to help students report technical information clearly, completely, and persuasively. Technical writing shares many of the same concerns of other kinds of writing, such as attention to Purpose, Readability, and most significantly, Audience. This course is designed to provide instruction and practice in creating practical and effective documents for students in medical, scientific, technical, and other professional fields.

    Prerequisite:
    ENGL& 101 with a C grade.

    Future Offerings
    1/4-3/23Online STAFFOpenings: 24
    4/4-6/16Online STAFFOpenings: 24
  • CHEM& 161General Chemistry w/ Lab I5 credits

    This is an introductory chemistry course which includes an introduction to the scientific method, the international system of measurements, the nature of atoms and molecules, ions, chemical bonding, the periodic table, chemical formulas and equations, stoichiometry of reactions and solutions, and the physical properties of real and ideal gasses. Also included are short courses on polymers and nuclear chemistry. Lab work included.

    Prerequisite:
    BTC College Level Math score of 75 or a C grade in MATH 099 or AMATH 111.

    Future Offerings
    1/5-3/23TTh 8:00a-10:45aSTAFFOpenings: 24
    1/5-3/23TTh 3:00p-5:45pSTAFFOpenings: 24
    4/4-6/16TTh 3:00p-5:45pSTAFFOpenings: 24
  • CTE 108Job Skills1 credits

    This course provides students with the foundation for job preparation and job searching. Students will identify their qualifications for their chosen career; identify what employers look for in strong candidates; build resumes and cover letters; gain tips on completing applications; job and informational interviewing; as well as job searching, professional networking, and tips for setting up a successful career. This is a hybrid course that includes a combination of face-to-face and online instruction. It is important that students should have skills in Microsoft Word before enrolling in this course.

    Prerequisite:
    Students should have skills in Microsoft Office before enrolling in this course.

    Future Offerings
    1/9-3/20M11:35a-12:25pSTAFFOpenings: 24
    1/5-2/9Th 3:00p-5:00pSTAFFOpenings: 24
    1/4-2/8W 3:00p-5:00pSTAFFOpenings: 25
    4/10-6/19M11:35a-12:25pSTAFFOpenings: 24
    4/6-5/11Th 3:00p-5:00pSTAFFOpenings: 24
  • Engineering Core
  • ENGR 100Engineering Orientation2 credits

    This course explores engineering and technology through class discussion, hands-on activities, and presentations by guest speakers. Topics include engineering disciplines, degree and transfer options, career opportunities, academic success strategies, and planning your program of study.

    Prerequisite:

    Future Offerings
    1/4-3/22W11:35a-12:25pDAVISHAHL JOpenings: 24
    4/5-6/14W11:35a-12:25pDAVISHAHL JOpenings: 24
    4/4-6/13T11:35a-12:25pDAVISHAHL JOpenings: 24
    4/4-6/20Online DAVISHAHL JOpenings: 24
  • ENGR& 104Introduction To Engineering & Design5 credits

    Course explores the role of teamwork, creativity, and communication in innovative engineering design. Topics include engineering design process, collaborative problem solving techniques, and computer applications. Students will develop their knowledge and skills in these areas through a series of hands-on design projects.

    Prerequisite:
    (Accuplacer Algebra score of 75 or Math 098 with a "C" or better) and (Accuplacer Reading Comprehension score of 71 or RDG 085 with a "C" or better) and (Accuplacer Sentence Skills score of 71 or ENGL 092 with a "C" or better).

    Future Offerings
    1/4-3/22MWF12:30p-1:50pDAVISHAHL JOpenings: 24
    4/5-6/19MWF12:30p-1:50pDAVISHAHL JOpenings: 24
  • ENGR 115Graphics5 credits

    This course is an introduction to the use of graphical techniques and standard practices used to communicate engineering design information. Students will learn graphics techniques, visualization skills, standards for object views and drawing sizes, orthographic projection, section views, proper dimensioning techniques, and tolerances. Freehand sketching is used to develop visualization skills and as an instrument for design conceptualization and communication.

    Prerequisite:
    (Accuplacer Arithmetic score of 50 or a C grade or better in MATH 090 or ABE 050 with a "C" or better) and (Accuplacer Reading Comprehension score of 71 or RDG 085 with a "C" or better) and (Accuplacer Sentence Skills score of 71 or ENGL 092 with a "C" or

    Future Offerings
    1/4-3/22MWF 8:30a-9:50aSTETTLER TOpenings: 12
    1/4-3/22MWF 8:30a-9:50aSTETTLER TOpenings: 12
    1/5-3/23TTh 1:10p-3:20pREISS JOpenings: 12
    1/5-3/23TTh 1:10p-12:40pREISS JOpenings: 12
    4/4-6/20TTh 1:10p-3:20pMORGAN POpenings: 24
  • ENGT 134AutoCAD I5 credits

    This course is an introduction to CAD (Computer Aided Drafting), utilizing a "cookbook" approach to instruction. Students have immediate hands-on computer usage while applying basic command concepts and terminology. Basic drawing and editing techniques are reinforced with exercises designed to help the student reach an in-depth understanding.


    Future Offerings
    1/4-3/22MWF10:10a-11:30aSTETTLER TOpenings: 24
    1/5-3/23TTh 5:30p-7:40pSTAFFOpenings: 24
    4/5-6/19MWF10:10a-11:30aSTAFFOpenings: 24
    4/4-6/20TTh 8:00a-10:10aSTETTLER TOpenings: 24
    4/4-6/20TTh 5:30p-7:40pSTAFFOpenings: 24
  • ENGT 135AutoCAD II5 credits

    This course is a continuation of AutoCAD I and utilizes intermediate drawing and editing tools. Coursework includes generating and editing dimensions and tolerances in CAD, methods for creating isometric drawings, paperspace techniques for printing/plotting to scale, applications and procedures for creating attributed blocks, creation of table, and the applications and procedures for using external references.

    Prerequisite:
    ENGT 115 and ENGT 134 with a "C" or better.

    Future Offerings
    1/4-3/22MWF 2:10p-3:30pSTAFFOpenings: 24
    4/5-6/19MWF 2:10p-3:30pREISS JOpenings: 24
  • ENGT 215Applied Statics5 credits

    This course is an introduction to engineering mechanics, focusing on the analysis of "static" (non-moving) structures. Students will use statics concepts to determine the external reaction loads and internal member forces for trusses, frames, and machines.

    Prerequisite:
    MATH& 142 with a "C" or better.

    Future Offerings
    1/4-3/22MWF10:10a-11:30aREISS JOpenings: 24
  • ENGT 216Applied Mechanics Of Materials5 credits

    This course explores the effect of forces on engineering structures and the resulting internal stresses and deformations that develop. Students will apply statics and strength of materials concepts to determine size, shape, and material requirements for engineering components. Topics include an introduction to stress and strain, physical characteristics of components (size and shape), mechanical properties of engineering materials (strength, stiffness, etc.), and materials testing and composition.

    Prerequisite:
    ENGT 215 with a "C" or better.

    Future Offerings
    4/5-6/19MWF12:30p-1:50pSTETTLER TOpenings: 24
  • Technology Course Work
  • CET 102Fundamentals Of Surveying I5 credits

    Emphasis is placed on familiarization with the different types of surveys and their purpose and teaches the student to be able to differentiate between "accuracy" and "precision." It teaches the student to measure distances in a vertical direction and relate these measurements to a datum plane or elevation from sea level. Course also teaches the student how to measure directions from known points to find or establish other points and will enable the student to gain necessary skills in operating surveying instruments.

    Prerequisite:
    MATH 098 with a "C" or better or instructor permission.
  • CET 102Fundamentals Of Surveying I5 credits

    Emphasis is placed on familiarization with the different types of surveys and their purpose and teaches the student to be able to differentiate between "accuracy" and "precision." It teaches the student to measure distances in a vertical direction and relate these measurements to a datum plane or elevation from sea level. Course also teaches the student how to measure directions from known points to find or establish other points and will enable the student to gain necessary skills in operating surveying instruments.

    Prerequisite:
    MATH 098 with a "C" or better or instructor permission.
  • CET 141Fundamentals Of GIS & GPS5 credits

    Students develop knowledge and designing skills in topology, features, attributes, relational operators, data capture, coverage editing, coordinate systems, and map projections.

    Prerequisite:
    MATH 098 with a "C" or better.
  • CET 142Intermediate GIS5 credits

    An introduction to desktop mapping, focusing on the use of ArcView software in Geographic Information Systems applications.

    Prerequisite:
    ENGT 134 and CET 141 with a "C" or better.

    Future Offerings
    4/5-6/19MWF 2:10p-3:00pBROD ROpenings: 24
     MW 8:00a-10:00a
  • CET 230Estimating And Scheduling5 credits

    An introduction to the construction process, project scheduling, and estimation of concrete, rebar, and earthwork quantities.

    Prerequisite:
    CET 251 with a "C" or better.

    Future Offerings
    4/4-6/20TTh 1:10p-3:20pSTETTLER TOpenings: 24
  • CET 235Construction Materials5 credits

    An introduction to the practices and procedures for the testing and placement of construction materials. This course covers basic steel stress, strain and thermal expansion. In depth coverage for testing and placing: soil, aggregate, asphalt and concrete. Also, included are standard inspection practices and construction documentation during and after the construction of sewer, water, storm, and roadway civil improvements.

    Prerequisite:

    Future Offerings
    1/5-3/23TTh10:30a-12:40pSTETTLER TOpenings: 24
  • CET 240Earthmoving Fundamentals5 credits

    An introduction to earthmoving production fundamentals of construction equipment. The production of heavy equipment, including excavators, scrapers, trucks, bulldozers, and front end loaders is examined from a production prospective. In addition, earthwork conversions to and from loose cubic yards, bank cubic yards, and compacted cubic yards is introduced.

    Prerequisite:
    CET 251 with a "C" or better.
  • CET 251AutoCAD Civil 3D I5 credits

    Study and use of the Civil Engineering and Survey industry-specific CAD software for computer aided drafting. Focuses on land development and survey applications with AutoCAD on Civil/Survey specific software applications.

    Prerequisite:
    ENGT 134 with a "C" or better or instructor permission.
  • CET 252AutoCAD Civil 3D II5 credits

    Study and use of the Civil Engineering and Survey Industry specific CAD software for computer aided drafting. Focuses on roadway and infrastructure design with AutoCAD on Civil/Survey specific software applications.

    Prerequisite:
    CET 251 with a "C" or better.

    Future Offerings
    1/5-3/23TTh 1:10p-3:20pSTETTLER TOpenings: 24
TOTAL PROGRAM CREDITS108 credits

Program Entry Information

For questions, please contact Admissions at 360-752-8345 or e-mail us at Admissions

Program Start

  • This program typically starts in Fall, Winter, Spring and Summer Quarters on a space available basis.

Testing Requirements

  • Students are required to take the Reading, Sentence and Arithmetic portions of the Accuplacer Placement Test prior to enrolling for classes.

Program Outcomes

  • Produce a wide variety of design quality plan sets using computer aided drafting methods.
  • Inspect and track project revisions to produce As-Built record drawings using appropriate design standards.
  • Import, export, and create several types of GIS data for the production of specialized planning and demonstration maps.
  • Calculate quantities and assign costs for the production of detailed cost estimates and schedules for a variety of construction projects.
  • Assess and approve specifications for construction materials.
  • Communicate, solve, and present engineering problems using Microsoft Office programs.
  • Solve engineering problems using a variety of mathematical processes and quantitative reasoning.

Tim Stettler - Instructor image

Tim Stettler

Area of Instruction


Engineering

Degrees and Certifications


B.S., Civil Engineering, Washington State University

A.A.S., Civil Engineering, Spokane Community College

Certificate, Engineer-in-Training, State of Washington

Certificate, Radiation Safety and Use of Nuclear Gauges, CPN International

Certificate, WA Professional Technical Certification

Contact Info


752-8338
tstettler@btc.edu
J Building (J) - Room J1

 

Background


Profile

...


Chris Brod - Instructor image

Chris Brod

Area of Instruction


Geomatics

Degrees and Certifications


B.S., Geography, Northern Arizona University

Certificate, WA Professional Technical Certification

Contact Info


752-8414
cbrod@btc.edu
J Building (J) - Room J1

 

Background


Profile

Chris began his career in surveying in the mountains of Colorado in 1978, working in the oilfield. He travelled extensively in the western Unit...
    • Chris began his career in surveying in the mountains of Colorado in 1978, working in the oilfield. He travelled extensively in the western United States, working from south Texas to several miles south of the Canadian border, and from eastern Oklahoma to western Nevada. Wishing to settle down, he attended a technical school in Arizona, learning more about the math, drafting, and fieldwork involved in engineering related surveying.

      Chris eventually ended up in Flagstaff, AZ, working for the Environmental Impact Statement on Glen Canyon Dam, where he was responsible for establishing a survey control network through the Grand Canyon for the Bureau of Reclamation’s GIS project. He started Spatial Science Solutions, a GIS firm shortly before receiving his degree, and has continued this business in a limited way since then. He returned for a third stint with Arizona Engineering to start a GIS department in 2004.

      Chris came to Bellingham Technical College in 2010 be the Surveying and Mapping program instructor.

Specialties
Areas of Expertise:

    • Areas of Expertise:
    • • Global Navigation Satellite System (GNSS)
    • • Field procedures for mapping, property surveys, and construction surveys.
    • • Survey calculations


Jill Davishahl - Instructor image

Jill Davishahl

Area of Instruction


Engineering & Trades

Degrees and Certifications


M.S., Mechanical Engineering, University of Washington

B.S., Mechanical Engineering, Union College

Certificate, WA Professional Technical Certification

Contact Info


752-8575
jdavishahl@btc.edu
Campus Center (CC) - Room 211

 

Background


Profile

Jill Davishahl is an engineering instructor at Bellingham Technical College where she teaches a variety of engineering classes including Statics,...

    • Jill Davishahl is an engineering instructor at Bellingham Technical College where she teaches a variety of engineering classes including Statics, Mechanics of Materials, and Graphics. Before joining the team at BTC, Jill taught engineering at Western Washington University for the department of Engineering & Design. Prior to her term at WWU, Jill was a tenured faculty member at Edmonds Community College. While at Edmonds Community College, Jill designed and implemented the Associates of Applied Science in Materials Science Technology program, participated in a variety of NSF grants (Co-PI for CSEMS scholarship program, instructor for EMTECH workshops), taught and developed classes in both engineering and materials science, and held the position of department chair of engineering.

      Her experience in industry focused on prosthetic research and design in both a clinical and laboratory setting. Her prosthetics research focused primarily on developing a low cost composite prosthesis for use in underdeveloped countries. She also worked in the area of electronics packaging focusing on creating a thermally conductive interface material for use in computerized applications.

      Her teaching philosophy is to create an environment where students can learn and apply the fundamental concepts of engineering while developing and utilizing their intellectual curiosity, communication skills, and team skills. She strives to inspire student interest in learning and to foster their creative spirit.

Specialties
• Composite design and analysis including finite element analysis

    • • Composite design and analysis including finite element analysis
    • • Design & implementation of engineering and related degree programs
    • • Grant writing and resource development in the area of engineering
    • • Curriculum enhancement


Engineering Tech: Clean Energy - AAS-T

According to the US Energy Information Administration, global energy consumption has significantly increased and is expected to continue rising through 2035 (Energy Outlook, 2012). The energy industry is working to increase energy efficiency and looking toward innovative technologies to meet the growing demand. Prominent energy companies like BP and Phillips 66 are starting new departments focused on alternative energy and investing in technology development and production.

New energy technology career categories are emerging at an unprecedented pace, and skill sets associated with energy technology cut across both traditional and emerging industries. The number of green jobs in Washington rose 32% in the last few years, and these trends are expected to continue as the demand for energy increases and resources decrease. In Whatcom County alone, there are over 3,600 green jobs (Source: WA Employment Security Department, 2010). Many emerging green energy jobs will be technical jobs that require more than a high school diploma but less than a bachelor’s degree.

This two-year degree prepares graduates to enter into the industry for wide variety of job titles including, but not limited to, the following:

Engineering Technician* Electronics Technician Electronics Engineering Technician* Solar Installer Wind Energy Technician Wind Turbine Service Technician

Entry level wages range from $19 to $36 per hour with annual median wages averaging between $39,431 and $58,486 per year (Source: WA Employment Security Department, 2016).

*Indicates careers that are currently considered “in demand” by the Washington State Employment Security Department.

Graduates of this program can also choose to transfer into the Western Washington University Institute for Energy Studies program.

Jobs & Employment

New energy technology career categories are emerging at an unprecedented pace, and skill sets associated with energy technology cut across both traditional and emerging industries. The number of green jobs in Washington rose 32% in the last few years, and these trends are expected to continue as the demand for energy increases and resources decrease. In Whatcom County alone, there are over 3,600 green jobs (Source: WA Employment Security Department, 2010). Many emerging green energy jobs will be technical jobs that require more than a high school diploma but less than a bachelor’s degree.

This two-year degree prepares graduates to enter into the industry for wide variety of job titles including, but not limited to, the following:

• Engineering Technician*

• Electronics Technician

• Electronics Engineering Technician*

• Solar Installer

• Wind Energy Technician

• Wind Turbine Service Technician

Entry level wages range from $19 to $36 per hour with average annual wages averaging between $39,431 and $79,359 per year (Source: WA Employment Security Department, 2016).

*Indicates careers that are currently considered “in demand” by the Washington State Employment Security Department. Graduates of this program can also choose to transfer into the Western Washington University Institute for Energy Studies program.

Graduates of this program can also choose to transfer into the Western Washington University Institute for Energy Studies program.

Courses

Filter courses by quarter 
Use this tool to see this program's course offerings for upcoming quarters

Courses from the BTC Catalog

TOTAL PROGRAM CREDITS105 credits

Program Entry Information

Students may begin working toward this degree quarterly.

Entry Requirements

Admissions application and assessment testing in Reading, Math and Sentence Skills is required. Your score on the test and/or your previous transcripts will determine where you begin your course sequence. Contact Admissions at 360-752-8345 or at admissions@btc.ctc.edu for assistance with academic planning.

Program Outcomes