# BSAE Outcome 1

Ability to identify, formulate, and solve complex aerospace engineering problems through application of mathematics, science, and engineering principles. [ University Learning Goals: Specialized Knowledge, Intellectual Skills, Applied Knowledge]

## Outcome Element 1.1

Ability to identify, formulate and solve complex aerospace engineering problems. ( Assessed in AE162)

### Outcome Performance Indicators:

1.1.2: Define open-ended, complex aerospace engineering problems in appropriate engineering terms.

1.1.3: Explore problems (i.e., examine various issues, make appropriate assumptions, etc.).

1.1.4: Develop a plan for the solution (i.e., select theories, principles, approaches from aerospace structures, aerospace dynamics, aerodynamics, flight mechanics, aerospace propulsion, stability, and control, as appropriate).

1.1.5: Implement the solution plan and check the accuracy of the calculations.

1.1.6: Evaluate the results (do they make sense?)

1.1.7: Reflect on personal strengths and weaknesses in applying the problem solving methodology.

## Outcome Element 1.2

Ability to apply principles of engineering, science, and mathematics.

### Outcome Performance Indicators:

1.2.1: Apply principles of mathematics, science and aerospace structures.
(Assessed in AE114)

1.2.2: Apply principles of mathematics, science and dynamics.
(Assessed in AE140)

1.2.3: Apply principles of mathematics, science and aerodynamics.
(Assessed in AE164)

1.2.4: Apply principles of mathematics, science and flight mechanics.
(Assessed in AE165)

1.2.5: Apply principles of mathematics, science and aerospace propulsion.
(Assessed in AE167)

1.2.6: Apply principles of mathematics, science, stability and control.
(Assessed in AE168)