1
Information

Syllabus

Calendar

2
Assignments (2 sets)

Problem Set 1

Problem Set 2

Problem Set 3

Problem Set 4

Problem Set 5

Problem Set 6

Problem Set 7

Problem Set 8

Problem Set 9

Problem Set 10

Problem Set 11

Problem Set 12

Problem Set 13

Problem Set 14

Problem Set 15

Problem Set 1 Solutions

Problem Set 2 Solutions

Problem Set 3 Solutions

Problem Set 4 Solutions

Problem Set 5 solutions

Problem Set 6 Solutions

Problem Set 7 Solutions

Problem Set 8 Solutions

Problem Set 9 Solutions

Problem Set 10 Solutions

Problem Set 11 Solutions

Problem Set 12 Solutions

Problem Set 13 Solutions

Problem Set 14 Solutions

Problem Set 15 Solutions

Problem Set 1

Problem Set 2

Problem Set 3

Problem Set 4

Problem Set 5

Problem Set 6

Problem Set 7

Problem Set 8

Problem Set 9

Problem Set 10

Problem Set 11

Problem Set 12

Problem Set 13

Problem Set 14

Problem Set 1 Solutions

Problem Set 2 Solutions

Problem Set 3 Solutions

Problem Set 4 Solutions

Problem Set 5 solutions

Problem Set 6 Solutions

Problem Set 7 Solutions

Problem Set 8 Solutions

Problem Set 9 Solutions

Problem Set 10 Solutions

Problem Set 11 Solutions

Problem Set 12 Solutions

Problem Set 13 Solutions

Problem Set 14 Solutions

3
Exams

Quiz 5: Fluid Mechanics

Quiz 5: Fluid Mechanics Solutions

Quiz 6: Fluid Mechanics 2

Quiz 5: Fluid Mechanics 2 Solutions

Quiz 1: Materials and Structures

Quiz 1: Materials and Structures Solutions

Quiz 2: Fluid Mechanics

Quiz 2: Fluid Mechanics Solutions

Quiz 4: Fluid Mechanics

Quiz 4: Fluid Mechanics Solutions

Quiz 5: Signals and Systems

Quiz 5: Signals and Systems Solutions

4
Video Lecture

Thermodynamics and Propulsion

Materials/Structures

Unified Engineering I, II, III, & IV

About

Illustration of an aircraft wing showing connections between the disciplines of the course.

An abstracted aircraft wing, illustrating the connections between the disciplines of Unified Engineering. (Image by MIT OpenCourseWare.)

Instructor(s)

Prof. Mark Drela

Prof. Steven Hall

Prof. Paul A. Lagace

Prof. Ingrid Kristina Lundqvist

Prof. Gustaf Naeser

Prof. Heidi Perry

Prof. Raúl Radovitzky

Prof. Ian A. Waitz

Col. Peter Young

Prof. Jennifer L. Craig

MIT Course Number

16.01 / 16.02 / 16.03 / 16.04

As Taught In

Fall 2005 - Spring 2006

Level

Undergraduate

Cite This Course

 

 

Course Features

Course Highlights

This course features materials from Unified Engineering which comprise more than four times the volume of a typical one-semester MIT course. The seven disciplines covered in this site, along with the course's organization and pedagogy, are explained in the detailed syllabus.

Course Description

The basic objective of Unified Engineering is to give a solid understanding of the fundamental disciplines of aerospace engineering, as well as their interrelationships and applications. These disciplines are Materials and Structures (M); Computers and Programming (C); Fluid Mechanics (F); Thermodynamics (T); Propulsion (P); and Signals and Systems (S). In choosing to teach these subjects in a unified manner, the instructors seek to explain the common intellectual threads in these disciplines, as well as their combined application to solve engineering Systems Problems (SP). Throughout the year, the instructors emphasize the connections among the disciplines.

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