Mechanical Engineering Design MAE 162 D/E - UCLA
Mechanical Engineering DesignMAE 162 D/E00MAE 162 D/E – Mechanical Engineering Design I / IIInstructor – Jacob Rosen PhD. All Rights Reserved
MAE 162 D Mechanical Engineering DesignCourse Description Units: 4 Lecture: two hours; Laboratory: four hours; Outside study: six hours. Enforced requisites: courses 94, 156A (or 183A or M183B), 162A (or 171A). Limited toseniors. Description: First of two mechanical engineering capstone design courses. Lectures onengineering project management, design of thermal systems, mechatronics, mechanicalsystems, and mechanical components. Students work in teams to begin their two-term designproject. Laboratory modules include CAD design, CAD analysis, mechatronics, andconceptual design for team project. Letter grading.MAE 162 D/E – Mechanical Engineering Design I / IIInstructor – Jacob Rosen PhD. All Rights Reserved
MAE 162 E Mechanical Engineering DesignCourse Description Units: 4 Lecture: two hours; Laboratory: four hours; Outside study: six hours. Enforced requisite: course 162D. Limited to seniors. Description: Second of two mechanical engineering capstone design courses. Studentgroups continue design projects started in course 162D, making use of CAD designlaboratory, CAD analysis laboratory, and mechatronics laboratory. Design theory, design tools,economics, marketing, manufacturability, quality, intellectual property, design for manufactureand assembly, design for safety and reliability, and engineering ethics. Students conducthands-on design, fabrication, and testing. Culminating project demonstrations or competition.Preparation of design project presentations in both oral and written formats. Letter grading.MAE 162 D/E – Mechanical Engineering Design I / IIInstructor – Jacob Rosen PhD. All Rights Reserved
InstructorsJacob Rosen (MAE)Ankur Mehta (ECE)Email: jacobrosen@ucla.eduEmail: 7769Zoom:https://ucla.zoom.us/j/6818072756MAE 162 D/E – Mechanical Engineering Design I / IIInstructor – Jacob Rosen PhD. All Rights Reserved
Expect the UnexpectedTune Our ExpectationsMAE 162 D/E – Mechanical Engineering Design I / IIInstructor – Jacob Rosen PhD. All Rights Reserved
Course Expectations Ultimate Goal - Develop an innovative fully functional engineering system (group project) Me: Teach (Class, Sections, Office Hours) Mentor Design Projects of Groups / Customer – User Advocate Provide constructive feedback and pointers for additional resources You: Learn Design Perform R&D Proactive team member Expect to apply the information gained from engineering, English writing, economics, statistics, accounting,management, marketing, law, ethics, and computer engineering to the task-at-hand. Modes of Interactions (You & Me) Mode 1 - Classroom (You & Me – TA Guest Lectures) Mode 2 - Lab Sections (You & TA ? Me ) Mode 3 - Office Hours (You & Me, You & TA) Mode 4 - Group Meeting – You & Your Group Members (Peers) Mode 5 - Lab / Home – You –individual workMAE 162 D/E – Mechanical Engineering Design I / IIInstructor – Jacob Rosen PhD. All Rights Reserved
Course Expectations Mode 1 - Classes (Led by Me, TA, Guest Lectures) Me: Present high level and low level topics related to design Teach complimentary engineering skills (applied knowledge) Initiate verbal interaction dialogue/discussion You Learn high level and low level topics related to design Learn complimentary engineering skills (applied knowledge) Participate in the verbal interaction dialogue/discussion Mode 2 - Sections (Led by the TA / Me ) TA Mentor home assignments Mentor Project Facilitates dialogue and discussion You Discuss challenges and ProblemsMAE 162 D/E – Mechanical Engineering Design I / IIInstructor – Jacob Rosen PhD. All Rights Reserved
Course Expectations Mode 3 – Of
Description: First of two mechanical engineering capstone design courses. Lectures on engineering project management, design of thermal systems, mechatronics, mechanical systems, and mechanical components. Students work in teams to begin their two-term design project. Laboratory modules include CAD design, CAD analysis, mechatronics, and
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