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Starfleet Engineering School/Material Engineering: Difference between revisions
Starfleet Engineering School/Material Engineering (view source)
Revision as of 04:26, 16 May 2014
, 16 May 2014→Material Engineering: added missing courses
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* '''ENG212: Mechanics''' | * '''ENG212: Mechanics''' | ||
** Introduction to static and particle dynamics and rigid body dynamics. Two-, three-, and four-dimensional force systems; the concept of static and dynamic equilibrium; rotational and translational kinetic energy of rigid bodies; friction momentum and impulse principles; analysis of structure; development of movement and shear diagrams; strength of materials; virtual work; work-energy relationships. Analysis of bending, torsion, axial load bearing; diagrams; stresses and strains; structural reinforcement through energy fields. Students perform experiments and hands-on work in simulation to provide direct experience. | ** Introduction to static and particle dynamics and rigid body dynamics. Two-, three-, and four-dimensional force systems; the concept of static and dynamic equilibrium; rotational and translational kinetic energy of rigid bodies; friction momentum and impulse principles; analysis of structure; development of movement and shear diagrams; strength of materials; virtual work; work-energy relationships. Analysis of bending, torsion, axial load bearing; diagrams; stresses and strains; structural reinforcement through energy fields. Students perform experiments and hands-on work in simulation to provide direct experience. | ||
* '''ENG213: Electromagnetics and Applications''' | |||
* '''ENG215: Introduction to Nanotechnology''' | |||
* '''ENG311: Starship Engineering''' | * '''ENG311: Starship Engineering''' | ||
** A study of the principles and theories of starship engineering, from the first manned space vessels to transwarp theories, with a focus on modern vessels. Students study a variety of different vessel designs and theories in simulation, and visit the San Francisco Fleet Yards to see the design and construction process in action. Students examine early Federation starship designs, from the Daedalus-class, through the Constitution-, Excelsior-, Ambassador-, and Galaxy-class vessels, and write papers describing the evolution of these vessels over the years. | ** A study of the principles and theories of starship engineering, from the first manned space vessels to transwarp theories, with a focus on modern vessels. Students study a variety of different vessel designs and theories in simulation, and visit the San Francisco Fleet Yards to see the design and construction process in action. Students examine early Federation starship designs, from the Daedalus-class, through the Constitution-, Excelsior-, Ambassador-, and Galaxy-class vessels, and write papers describing the evolution of these vessels over the years. | ||
* '''ENG312: Subspace Mechanics''' | |||
* '''ENG315: Nanotechnology 1''' | |||
* '''ENG316: Nanotechnology 2''' | |||
* '''ENG415: Nanotechnology - Advanced''' | |||
* '''ENG510: Regulation of Chemicals, Radiation, and Biotechnology''' | |||
* '''ENG511: Sustainable Energy''' | |||
{{Academydepts}} | {{Academydepts}} | ||
[[Category:StarFleet Academy Curriculum]] | [[Category:StarFleet Academy Curriculum]] | ||