UCLA: Mechanical and Aerospace Engineering
Para inscribirse en unas Summer Sessions en UCLA, debes seleccionar 2 cursos de Summer Sessions. A continuación puedes ver todos los cursos del área Mechanical and Aerospace Engineering, contenido y horario.
1.- Ver en qué sesión (fechas y duración) se imparte cada uno de los cursos de esta área.
2.- Cuando sepas los cursos que más te interesan comprueba el horario para que no se solapen entre ellos.
DURACIÓN FECHAS SESSION
6 semanas Junio 25 – Agosto 3 Session A
6 semanas Agosto 6 – Septiembre 14 Session C
8 semanas Junio 25 – Agosto 17 Session A
10 semanas Junio 25 – Agosto 31 Session A
REQUISITOS: Nivel Avanzado, TOEFL 79iBT, CAE, IELTS 6.5
Cursos de Mechanical and Aerospace Engineering:
|Mechanical and Aerospace Engineering||nº de creditos||duración en semanas||Sesión|
|Introduction to Computer-Aided Design and Drafting||4||8||A|
|Statics and Strength of Materials||4||8||A|
|Dynamics of Particles and Rigid Bodies||4||8||A|
|Elementary Fluid Mechanics||4||8||A|
|Introduction to Engineering Thermodynamics||4||8||A|
|Introduction to Feedback and Control Systems: Dynamic Systems Control I||4||8||A|
|Mathematics of Engineering||4||8||A|
|Special Courses in Mechanical and Aerospace Engineering||Variable||6||A|
INTERNATIONAL REGISTRATION FEE: 700 €
|TIPO DE ALOJAMIENTO||DURACIÓN||FECHAS||PRECIO|
|Campus Media P.||6 semanas.||Jun 24 - Ago 3// Ago 5 - Sep 14||2.385,00 €|
|Apartamento S.C.||8 semanas.||Jun 24 - Ago 17||3.130,00 €|
|Apartamento S.C.||10 semanas||Jun 24 - Ago 31||3.880,00 €|
MECHANICAL AND AEROSPACE ENGINEERING
Introduction to Computer-Aided Design and Drafting
Vi 11:30A 1:50P Lu y Mie 2:30P 4:50P
Lecture, two hours; laboratory, four hours. Fundamentals of computer graphics and two- and three-dimensional modeling on computer-aided design and drafting systems. Students use one or more online computer systems to design and display various objects. Letter grading.
Statics and Strength of Materials
Lu y Mie 11:30A 2:00P Ma 2:30P 5:00P
Lecture, four hours; discussion, two hours; outside study, six hours. Requisites: Mathematics 31A, 31B, Physics 1A. Review of vector representation of forces, resultant force and moment, equilibrium of concurrent and nonconcurrent forces. Determinate and indeterminate force systems. Area moments and products of inertia. Support reactions and free-body diagrams for simple models of mechanical and aerospace structures. Internal forces in beams, shear and moment diagrams. Cauchy's stress and linear strain components in solids, equilibrium equations, Hooke's law for isotropic solids. Saint Venant's problems of extension, bending, flexure, and torsion. Deflection of symmetric beams. Axial and hoop stresses in thin-walled pressure vessels. Letter grading.
Dynamics of Particles and Rigid Bodies
Lu y Mie 11:30A 2:00P Ma 2:30P 5:00P
Lecture, four hours; discussion, two hours; outside study, six hours. Requisites: course 101 (enforced), Mathematics 33A, Physics 1A. Fundamental concepts of Newtonian mechanics. Kinematics and kinetics of particles and rigid bodies in two and three dimensions. Impulse-momentum and work-energy relationships. Applications. Letter grading.
Elementary Fluid Mechanics
Jue 11:30A 2:50P Mie 2:30P 4:50P
Lecture, four hours; discussion, two hours; outside study, six hours. Requisites: Mathematics 32B, 33A, Physics 1B. Introductory course dealing with application of principles of mechanics to flow of compressible and incompressible fluids. Letter grading.
Introduction to Engineering Thermodynamics
Jue 8:30A 10:50A
Lecture, four hours; discussion, two hours; outside study, six hours. Requisites: Chemistry 20B, Mathematics 32B. Phenomenological thermodynamics. Concepts of equilibrium, temperature, and reversibility. First law and concept of energy; second law and concept of entropy. Equations of state and thermodynamic properties. Engineering applications of these principles in analysis and design of closed and open systems. Letter grading.
Introduction to Feedback and Control Systems: Dynamics Systems Control I
Lu y Mie 11:30A 2:00P Ma 2:30P 4:50P
Lecture, four hours; discussion, two hours; outside study, six hours. Enforced requisites: courses 107, 182A. Introduction to feedback principles, control systems design, and system stability. Modeling of physical systems in engineering and other fields; transform methods; controller design using Nyquist, Bode, and root locus methods; compensation; computer-aided analysis and design. Letter grading.
Mathematics for Engineering
Jue 11:30A 1:50P Vie 11:30A 1:50P
Lecture, four hours; discussion, two hours; outside study, six hours. Requisites: Mathematics 33A, 33B. Methods of solving ordinary differential equations in engineering. Review of matrix algebra. Solutions of systems of first- and second-order ordinary differential equations. Introduction to Laplace transforms and their application to ordinary differential equations. Introduction to boundary value problems. Nonlinear differential equations and stability. Letter grading.
Special Courses in Mechanical and Aerospace Engineering
Lu y Vie 4:00P 6:50P
Lecture, two to four hours; outside study, four to eight hours. Special topics in mechanical and aerospace engineering for undergraduate students taught on experimental or temporary basis, such as those taught by resident and visiting faculty members. May be repeated once for credit with topic or instructor change. P/NP or letter grading.