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  1. Programs
  3. Bachelor of Applied Science - Engineering Technology

Bachelor of Applied Science - Engineering Technology

Wenatchee Valley College

Bachelor's DegreeCIP: 15.0805

Become a contributor for free to openly demonstrate student outcomes, industry alignment & eligibility criteria.

No description available.

Dates

Since Mar 2025

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Program Pathways

Credentials this program stacks toward

No program pathways.

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Program Details

Detailed information about this program

No detailed information available.

Requirements

What you need to earn this credential

No requirements listed.

Financial Aid

Eligible funding programs

No funding information available.

Scholarships

No scholarships listed.

Visit Program Website
Locations

Where this program is offered

  • Wenatchee, Washington

    1300 Fifth St, Wenatchee, Washington, 98801-1799

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Related Programs

Programs related to this one

No related programs.

Skills & Competencies

Skills developed through this program

Auto-populated·from O*NET via SOC 17-3027.01

Skills

Critical ThinkingReading ComprehensionOperations MonitoringComplex Problem SolvingActive ListeningSpeakingWritingQuality Control AnalysisJudgment and Decision MakingTroubleshootingRepairingEquipment MaintenanceMonitoringOperation and ControlActive LearningMathematics

Knowledge

Engineering and TechnologyMechanicalEnglish LanguageComputers and ElectronicsMathematicsDesignProduction and Processing

Abilities

Near VisionDeductive ReasoningProblem SensitivityInductive ReasoningOral ComprehensionOral ExpressionInformation OrderingWritten ComprehensionWritten ExpressionCategory FlexibilitySpeech RecognitionFinger DexterityVisualizationControl PrecisionArm-Hand SteadinessPerceptual SpeedManual DexterityMathematical ReasoningFluency of IdeasOriginalitySelective Attention

Tasks

  • Document test results, using cameras, spreadsheets, documents, or other tools.
  • Set up mechanical, hydraulic, or electric test equipment in accordance with engineering specificatio
  • Read and interpret blueprints, schematics, work specifications, drawings, or charts.
  • Assemble or disassemble complex mechanical systems.
  • Interpret engineering sketches, specifications, or drawings.
  • Calculate required capacities for equipment of proposed system to obtain specified performance and s
  • Make repairs to robots or peripheral equipment, such as replacement of defective circuit boards, sen
  • Troubleshoot robotic systems, using knowledge of microprocessors, programmable controllers, electron
  • Install, program, or repair programmable controllers, robot controllers, end-of-arm tools, or convey
  • Test performance of electromechanical assemblies, using test instruments such as oscilloscopes, elec
  • Install or program computer hardware or machine or instrumentation software in microprocessor-based
  • Read blueprints, schematics, diagrams, or technical orders to determine methods and sequences of ass
  • Program and calibrate drones for specific missions or tasks, ensuring proper functionality and performance.
  • Develop detailed design drawings and specifications for mechanical equipment, dies, tools, and contr
  • Produce three-dimensional models, using computer-aided design (CAD) software.
  • Lay out and draw schematic, orthographic, or angle views to depict functional relationships of compo
  • Create bills of materials.

Technology

Computer aided design CAD softwareAnalytical or scientific softwareComputer aided manufacturing CAM softwareObject or component oriented development softwareIndustrial control softwareElectronic mail softwareSpreadsheet softwareDevelopment environment softwareProject management softwareFacilities management softwareGraphics or photo imaging softwareMaterials requirements planning logistics and supply chain softwareDocument management software

Tools

CalipersChassis dynamometersCompression testersComputer numerical controlled CNC milling machinesComputerized numerical control CNC turning centersCrack detection equipmentElectronic engine analyzersEngine lathesEnvironmental chambersExhaust gas analyzersFlow benchesForce gaugesFrequency countersFunction generatorsHigh-vacuum tensile testing chambersAbsorption dynamometersAccelerometersAdjustable wrenchesAir compressorsAnalytical balancesAnemometersAngle grindersArc welding equipmentArc-joint pliersBand sawsBelt sandersBench grindersBend test fixturesBinocular compound microscopesBore gauges

Work Values

AchievementWorking ConditionsSupportIndependenceRecognitionRelationships
Career Pathways

Occupations this program prepares you for

  • Automotive Engineering Technicians17-3027.01
  • Mechanical Engineering Technologists and Technicians17-3027.00
  • Robotics Technicians17-3024.01
  • Electro-Mechanical and Mechatronics Technologists and Technicians17-3024.00
  • Mechanical Drafters17-3013.00
What You'll Learn

Key competencies developed through this program

Auto-populated·from NSX Competency Framework

Mastery: proficient (Level 3)(based on Bachelor's Degree)

  • Comprehensive test documentation packages — produce independently using cameras, CAD-linked files, and spreadsheet models that meet engineering release standards across multiple automotive programs.
  • Complex multi-channel test equipment configurations — design and validate for non-routine test scenarios, ensuring compliance with engineering specifications in a full-scale automotive validation lab.
  • Advanced schematics, multi-system wiring diagrams, and performance drawings — interpret autonomously to resolve integration conflicts and guide junior technicians during build and setup phases.
  • Root cause of intermittent or complex automotive defects — determine through systematic inspection, analytical software review, and cross-referencing subsystem data in a development test environment.
  • Automated test cell operations including computer-controlled environmental and load systems — oversee continuously, applying inductive reasoning to diagnose deviations and implement corrective actions.
  • Full automotive system and subsystem test datasets — analyze statistically, identify performance trends, and present actionable engineering recommendations to program teams.
  • Complete instrumentation suites and aftermarket integration assemblies — install and commission on prototype vehicles, verifying signal integrity and calibration against engineering targets.
  • End-to-end performance, efficiency, and durability test campaigns — plan and execute across automotive systems, adapting procedures when non-standard conditions arise in the test facility.
  • ERP and development environment software — use proficiently to manage test scheduling, track component status, and integrate test records into engineering change workflows.
  • Complex problem resolution strategies — apply independently when test failures challenge standard protocols, drawing on physics and mechanical knowledge to propose validated engineering solutions.

Some details on this page are auto-populated from public workforce data sources: O*NET (opens in new tab), BLS (opens in new tab), College Scorecard (opens in new tab), DOL Training Provider Results (opens in new tab), NSX (opens in new tab). Provided in partnership with LER.me Career Intelligence.

Student Outcomes

Performance metrics for this program

Auto-populated·from Scorecard + DOL
Completion Rate
20%
Placement Rate
83%