o10 Boeing List of"Desired Attributes of an Engineer" a good understanding of Good communication skills engIneering sclence Oral fundamentals Graphic Mathematics(including statistics Listening Physical and life sciences Information technology(far more than High ethical standards computer literacy An ability to think both critically a good understanding of design and creatively-independently and manufacturing processes(i.e and cooperatively understands engineering) Flexibility. The ability and self- a Amulti-disciplinary, systems confidence to adapt to rapid or perspective major change a basic understanding of the Curiosity and a desire to learn for context in which engineering is life practiced A profound understanding of the Economics(including business importance of teamwork. History This is a list, begun in 1994, of basic durable attributes The environment into which can be mapped specific skills reflecting the diversity of the overall engineering environment in which Customer and societal needs we in professional practice operate. This current version of the list can be viewed on the Boeing web site as a basic message to those seeking advice from the company on the topic. Its contents are also included for the most part in ABET EC 2000 16.810(16.682) Massachusetts Institute of Technology I
Boeing List of “Desired Attributes of an Engineer” Boeing List of “Desired Attributes of an Engineer” A good understanding of Good communication skills engineering science Written fundamentals Oral Graphic Mathematics (including statistics) Listening Physical and life sciences Information technology (far more than High ethical standards “computer literacy”) An ability to think both critically A good understanding of design and creatively - independently and manufacturing processes (i.e. and cooperatively understands engineering) Flexibility. The ability and self- A multi-disciplinary, systems confidence to adapt to rapid or perspective major change A basic understanding of the Curiosity and a desire to learn for context in which engineering is life practiced A profound understanding of the Economics (including business importance of teamwork. practice) History The environment Customer and societal needs 16.810 (16.682) • This is a list, begun in 1994, of basic durable attributes into which can be mapped specific skills reflecting the diversity of the overall engineering environment in which we in professional practice operate. • This current version of the list can be viewed on the Boeing web site as a basic message to those seeking advice from the company on the topic. Its contents are also included for the most part in ABET EC 2000. 11
:l0 Leads to)Course Objective Develop a holistic view and initial competency in engineering design by applying a combination of human creativity and modern computational tools to the synthesis of a single structural component 16.810(16.682) Massachusetts Institute of Technology
Leads to Course Objective Develop a holistic view and initial competency in engineering design by applying a combination of human creativity and modern computational tools to the synthesis of a single structural component 16.810 (16.682) 12
IG a10 Mind Map Holistic view-of the Competency"-can not Whole, Think about only talk about it or requrements, do calculations but design manufacturing actually carry out the testing,cost… process end-to-end Engineering Design 16.810 Rapid prototyping”- what you will likely a hot concept in do after mit industry today Human Creativity and Computational Tools Structural Components". part of all aerospace systems design is a constant inter- easy"'to implement in a play of synthesis and analysis short time 16.810(16.682) Massachusetts Institute of Technology
Mind Map “ 16.810 design, manufacturing, Holistic View” - of the “Competency” - can not whole. Think about: only talk about it or - requirements, do calculations, but actually carry out the testing, cost ... process end-to-end “Engineering Design” - what you will likely do after MIT “Rapid Prototyping” - a hot concept in industry today. “Human Creativity and “Structural Components”: Computational Tools”: part of all aerospace systems, design is a constant inter- “easy” to implement in a play of synthesis and analysis short time 16.810 (16.682) 13
IG. A10 Course Concept Phase 1 Problem Sketch by hand CAD CAE apid Prototyping/ statement Validation Manufacturing Test Phase 2 Design Optimization Optimum solution Rapid Prototyping/ Manufacturing Test 16.810(16.682) Massachusetts Institute of Technology
Course Concept 16.810 (16.682) 14
IG.810 Course Flow Diagram Learning/Review Problem statement Deliverables Design Intro Hand sketching Design Sketch v1 CAD/CAM/CAE Intro CAd design Drawing v1 FEM/Solid Mechanics FEM analysis Overview Analysis output v1 Manufacturing Produce Part 1 Part v1 Training Structural Test Test Experiment data v1 Training Design Optimization Optimization Design/Analysis output v2 Produce part 2 Part v2 Test Experiment data v2 Final review 16.810(16.682) Massachusetts Institute of Technology 15
Course Flow Diagram / / “Training” Produce Part 1 Produce Part 2 Optimization CAD CAM CAE Intro FEM/Solid Mechanics Overview Manufacturing Training Structural Test Design Optimization Hand sketching CAD design FEM analysis Test Problem statement Test Learning/Review Deliverables Design Sketch v1 Analysis output v1 Part v1 Experiment data v1 Design/Analysis output v2 Part v2 Experiment data v2 Drawing v1 Design Intro 16.810 (16.682) Final Review 15