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  1. Programs
  3. AEROSPACE ENGINEERING

AEROSPACE ENGINEERING

Wichita State University

Bachelor's Degree

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

No description available.

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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.

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Locations

Where this program is offered

  • Wichita, Kansas

    1845 N. Fairmount, Wichita, Kansas, 67260-0124

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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 17-2011.00

Skills

Critical ThinkingScienceReading ComprehensionActive ListeningComplex Problem SolvingOperations AnalysisWritingSpeaking

Knowledge

Engineering and TechnologyMathematicsDesignPhysicsComputers and Electronics

Abilities

Written ComprehensionProblem SensitivityDeductive ReasoningInductive ReasoningInformation OrderingOral ComprehensionOral ExpressionWritten ExpressionMathematical ReasoningNear Vision

Tasks

  • Formulate mathematical models or other methods of computer analysis to develop, evaluate, or modify
  • Plan or conduct experimental, environmental, operational, or stress tests on models or prototypes of
  • Formulate conceptual design of aeronautical or aerospace products or systems to meet customer requir
  • Develop and test autonomous systems for uncrewed aerospace vehicles.
  • Develop software for aerospace systems.

Technology

Computer aided manufacturing CAM softwareDevelopment environment softwareAnalytical or scientific softwareComputer aided design CAD softwareObject or component oriented development software

Tools

Acoustic emissions systemsAnechoic chambersArgon-ion lasersAtomic force microscopesAxial flow compressor facilitiesAxial flow research fansAxial flow turbinesCenterless grindersCluster computersComputer numerical controlled CNC milling machinesDigital oscilloscopesDigital pressure gaugesDigital voltmeters DVMElectronic flight instrument systems EFISElectronic pressure scanners

Work Values

Working ConditionsRecognitionIndependenceAchievementSupportRelationships
Career Pathways

Occupations this program prepares you for

Auto-populated·from O*NET + BLS
Occupations matched to this program, with median wage, top wage, growth, and openings
SOCOccupationMethodWageGrowthOpenings
Match confidence: high17-2011.00Aerospace Engineerstitle_inference$134,830 median$205,850 top+6.01%440
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)

  • Complex mathematical models and multi-physics simulation frameworks — independently formulate and validate to drive design decisions on advanced aerospace systems under demanding customer requirements.
  • Full-scope experimental, environmental, and stress test campaigns — plan, oversee, and interpret results for aircraft or aerospace systems, resolving non-routine anomalies encountered during testing.
  • Conceptual and preliminary design of complete aeronautical systems — lead across all phases, ensuring compliance with customer requirements, safety standards, and environmental regulations.
  • Root-cause investigations for critical technical problems — direct end-to-end resolution processes for customer-reported failures on operational aerospace vehicles, communicating findings to stakeholders.
  • Comprehensive technical documentation packages including specifications, reports, and regulatory submissions — produce to the standard required for certification and program approval.
  • Design criteria encompassing testing methodology, quality standards, environmental compliance, and production cost targets — develop authoritatively for new aerospace product lines.
  • Multidisciplinary design reviews — evaluate engineering data, inspection results, and analysis outputs to render independent conformance judgments across the full product lifecycle.
  • Requirements analysis and system architecture software — apply to decompose complex customer needs into traceable, verifiable aerospace system specifications.
  • Emerging analytical technologies and learning strategies — assess and integrate selectively into engineering workflows to improve design fidelity and development efficiency.
  • Systems analysis across interconnected aerospace subsystems — perform autonomously to identify performance drivers, failure modes, and design trade-space boundaries on novel vehicle architectures.

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
32%
Placement Rate
18%