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16.01-04 Unified Engineering I, II, III, & IV, Fall 2003-Spring 2004

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dc.contributor.author Hall, Steven Ray en_US
dc.contributor.author Coleman, Charles P en_US
dc.contributor.author Drela, Mark en_US
dc.contributor.author Lundqvist, Ingrid Kristina en_US
dc.contributor.author Spearing, S Mark en_US
dc.contributor.author Waitz, Ian A en_US
dc.contributor.author Young, Peter W en_US
dc.coverage.temporal Fall 2003-Spring 2004 en_US
dc.date.issued 2004-06
dc.identifier 16.01-04-Fall2003-Spring2004
dc.identifier local: 16.01-04
dc.identifier local: IMSCP-MD5-9ead49edc26b9362e52ca49ce9b7a091
dc.identifier.uri http://hdl.handle.net/1721.1/37146
dc.description.abstract The basic objective of Unified 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 and Propulsion (T); and Signals and Systems (S). In choosing to teach these subjects in a unified manner, we 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 we will endeavor to point out the connections among the disciplines. en_US
dc.language en-US en_US
dc.rights.uri Usage Restrictions: This site (c) Massachusetts Institute of Technology 2003. Content within individual courses is (c) by the individual authors unless otherwise noted. The Massachusetts Institute of Technology is providing this Work (as defined below) under the terms of this Creative Commons public license ("CCPL" or "license"). The Work is protected by copyright and/or other applicable law. Any use of the work other than as authorized under this license is prohibited. By exercising any of the rights to the Work provided here, You (as defined below) accept and agree to be bound by the terms of this license. The Licensor, the Massachusetts Institute of Technology, grants You the rights contained here in consideration of Your acceptance of such terms and conditions. en_US
dc.subject Unified en_US
dc.subject Unified Engineering en_US
dc.subject aerospace en_US
dc.subject CDIO en_US
dc.subject C-D-I-O en_US
dc.subject conceive en_US
dc.subject design en_US
dc.subject implement en_US
dc.subject operate en_US
dc.subject team en_US
dc.subject team-based en_US
dc.subject discipline en_US
dc.subject materials en_US
dc.subject structures en_US
dc.subject materials and structures en_US
dc.subject computers en_US
dc.subject programming en_US
dc.subject computers and programming en_US
dc.subject fluids en_US
dc.subject fluid mechanics en_US
dc.subject thermodynamics en_US
dc.subject propulsion en_US
dc.subject signals en_US
dc.subject systems en_US
dc.subject signals and systems en_US
dc.subject systems problems en_US
dc.subject fundamentals en_US
dc.subject technical communication en_US
dc.subject graphical communication en_US
dc.subject communication en_US
dc.subject reading en_US
dc.subject research en_US
dc.subject experimentation en_US
dc.subject personal response system en_US
dc.subject prs en_US
dc.subject active learning en_US
dc.subject First law en_US
dc.subject first law of thermodynamics en_US
dc.subject thermo-mechanical en_US
dc.subject energy en_US
dc.subject energy conversion en_US
dc.subject aerospace power systems en_US
dc.subject propulsion systems en_US
dc.subject aerospace propulsion systems en_US
dc.subject heat en_US
dc.subject work en_US
dc.subject thermal efficiency en_US
dc.subject forms of energy en_US
dc.subject energy exchange en_US
dc.subject processes en_US
dc.subject heat engines en_US
dc.subject engines en_US
dc.subject steady-flow energy equation en_US
dc.subject energy flow en_US
dc.subject flows en_US
dc.subject path-dependence en_US
dc.subject path-independence en_US
dc.subject reversibility en_US
dc.subject irreversibility en_US
dc.subject state en_US
dc.subject thermodynamic state en_US
dc.subject performance en_US
dc.subject ideal cycle en_US
dc.subject simple heat engine en_US
dc.subject cycles en_US
dc.subject thermal pressures en_US
dc.subject temperatures en_US
dc.subject linear static networks en_US
dc.subject loop method en_US
dc.subject node method en_US
dc.subject linear dynamic networks en_US
dc.subject classical methods en_US
dc.subject state methods en_US
dc.subject state concepts en_US
dc.subject dynamic systems en_US
dc.subject resistive circuits en_US
dc.subject sources en_US
dc.subject voltages en_US
dc.subject currents en_US
dc.subject Thevinin en_US
dc.subject Norton en_US
dc.subject initial value problems en_US
dc.subject RLC networks en_US
dc.subject characteristic values en_US
dc.subject characteristic vectors en_US
dc.subject transfer function en_US
dc.subject ada en_US
dc.subject ada programming en_US
dc.subject programming language en_US
dc.subject software systems en_US
dc.subject programming style en_US
dc.subject computer architecture en_US
dc.subject program language evolution en_US
dc.subject classification en_US
dc.subject numerical computation en_US
dc.subject number representation systems en_US
dc.subject assembly en_US
dc.subject SimpleSIM en_US
dc.subject RISC en_US
dc.subject CISC en_US
dc.subject operating systems en_US
dc.subject single user en_US
dc.subject multitasking en_US
dc.subject multiprocessing en_US
dc.subject domain-specific classification en_US
dc.subject recursive en_US
dc.subject execution time en_US
dc.subject fluid dynamics en_US
dc.subject fluids en_US
dc.subject physical properties of a fluid en_US
dc.subject fluid flow en_US
dc.subject mach en_US
dc.subject reynolds en_US
dc.subject conservation en_US
dc.subject conservation principles en_US
dc.subject conservation of mass en_US
dc.subject conservation of momentum en_US
dc.subject conservation of energy en_US
dc.subject continuity en_US
dc.subject inviscid en_US
dc.subject steady flow en_US
dc.subject simple bodies en_US
dc.subject airfoils en_US
dc.subject wings en_US
dc.subject channels en_US
dc.subject aerodynamics en_US
dc.subject forces en_US
dc.subject moments en_US
dc.subject equilibrium en_US
dc.subject freebody diagram en_US
dc.subject free-body en_US
dc.subject free body en_US
dc.subject planar force systems en_US
dc.subject equipollent systems en_US
dc.subject equipollence en_US
dc.subject support reactions en_US
dc.subject reactions en_US
dc.subject static determinance en_US
dc.subject determinate systems en_US
dc.subject truss analysis en_US
dc.subject trusses en_US
dc.subject method of joints en_US
dc.subject method of sections en_US
dc.subject statically indeterminate en_US
dc.subject three great principles en_US
dc.subject 3 great principles en_US
dc.subject indicial notation en_US
dc.subject rotation of coordinates en_US
dc.subject coordinate rotation en_US
dc.subject stress en_US
dc.subject extensional stress en_US
dc.subject shear stress en_US
dc.subject notation en_US
dc.subject plane stress en_US
dc.subject stress equilbrium en_US
dc.subject stress transformation en_US
dc.subject mohr en_US
dc.subject mohr's circle en_US
dc.subject principal stress en_US
dc.subject principal stresses en_US
dc.subject extreme shear stress en_US
dc.subject strain en_US
dc.subject extensional strain en_US
dc.subject shear strain en_US
dc.subject strain-displacement en_US
dc.subject compatibility en_US
dc.subject strain transformation en_US
dc.subject transformation of strain en_US
dc.subject mohr's circle for strain en_US
dc.subject principal strain en_US
dc.subject extreme shear strain en_US
dc.subject uniaxial stress-strain en_US
dc.subject material properties en_US
dc.subject classes of materials en_US
dc.subject bulk material properties en_US
dc.subject origin of elastic properties en_US
dc.subject structures of materials en_US
dc.subject atomic bonding en_US
dc.subject packing of atoms en_US
dc.subject atomic packing en_US
dc.subject crystals en_US
dc.subject crystal structures en_US
dc.subject polymers en_US
dc.subject estimate of moduli en_US
dc.subject moduli en_US
dc.subject composites en_US
dc.subject composite materials en_US
dc.subject modulus limited design en_US
dc.subject material selection en_US
dc.subject materials selection en_US
dc.subject measurement of elastic properties en_US
dc.subject stress-strain en_US
dc.subject stress-strain relations en_US
dc.subject anisotropy en_US
dc.subject orthotropy en_US
dc.subject measurements en_US
dc.subject engineering notation en_US
dc.subject Hooke en_US
dc.subject Hooke's law en_US
dc.subject general hooke's law en_US
dc.subject equations of elasticity en_US
dc.subject boundary conditions en_US
dc.subject multi-disciplinary en_US
dc.subject models en_US
dc.subject engineering systems en_US
dc.subject experiments en_US
dc.subject investigations en_US
dc.subject experimental error en_US
dc.subject design evaluation en_US
dc.subject evaluation en_US
dc.subject trade studies en_US
dc.subject effects of engineering en_US
dc.subject social context en_US
dc.subject engineering drawings en_US
dc.subject 16.01 en_US
dc.subject 16.02 en_US
dc.subject 16.03 en_US
dc.subject 16.04 en_US
dc.subject 16.01 en_US
dc.subject 16.02 en_US
dc.subject 16.03 en_US
dc.subject 16.04 en_US
dc.title 16.01-04 Unified Engineering I, II, III, & IV, Fall 2003-Spring 2004 en_US
dc.title.alternative Unified Engineering I, II, III, & IV en_US


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