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Materia No Vigente |
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Disciplina asociada:Arquitectura |
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Escuela:
Arquitectura, Arte y Diseño
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Departamento Académico:
Arquitectura
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Programas académicos: |
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Competencias que se desarrollan: |
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Requisitos:No tiene. |
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Equivalencia:AR1007B y AR1008B |
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Intención del curso en el contexto general del plan de estudios: |
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Objetivo general de la Unidad de Formación: |
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Al terminar la unidad de formación, el alumno: - Aplica conceptos básicos del cálculo integral en problemas físicos en 3D como cálculo de áreas y volúmenes de cuerpos geométricos regulares. - Evalúa la respuesta de una estructura ante solicitaciones de cargas accidentales o gravitacionales. - Aplica criterios estructurales en la solución de proyectos arquitectónicos con base en métodos de análisis y cálculo para estructuras simples. |
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Técnica didáctica sugerida: |
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| No especificado | |||||
Bibliografía sugerida: |
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LIBROS DE TEXTO: * Young, H. D., Freedman, R. A., Ford, A. L., Sears, F. W., & Zemansky, M. W., Sears and Zemansky's university physics : with modern physics, 11th ed. /, Boston : Pearson Addison Wesley, 2016, Eng, 0321204697 (edicion internacional) LIBROS DE CONSULTA: * Knight Randall D, Student workbook with modern physics : physics for scientists and engineers : a strategic approach, 2nd ed., London : Pearson Education, 2016, spa, 9780321513571 * Serway, R. A., Jewett, J. W., & Peroomian, V., Physics for scientists and engineers, Ninth edition, International edition., Boston, MA, USA : Cengage, 2019, Eng, 9781285070315 |
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Perfil del Profesor: |
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(040201)Maestría en Arquitectura ; (140801)Maestría en Ingeniería Civil ; (140803)Maestría en Ingeniería Estructural ; (400801)Maestría en Física ; (140801)Doctorado en Ingeniería Civil ; (140803)Doctorado en Ingeniería Estructural CIP: 040201, 140801, 140803, 400801 |
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Discipline:Architecture |
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School:
Architecture, Art and Design
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Academic Department:
Architecture
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Programs: |
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Competitions:SAMC0102A ; SAMC0301A ; SEG0501A ; SEG0502A ; |
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Prerequisites:None. |
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Equivalences:AR1007B and AR1008B |
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Course intention within the general study plan context: |
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Course objective: |
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On completing the educational unit, students: - Apply the basic concepts of integral calculus to 3D physics problems, such as the calculation of areas and volumes of regular geometric bodies. - Evaluate the response of a structure to accidental or gravitational stress loads. - Apply structural criteria to solve architectural projects based on analysis and calculation methods for simple structures. |
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Teaching and learning tecniques: |
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Suggested Bibliography: |
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TEXT BOOKS: * Young, H. D., Freedman, R. A., Ford, A. L., Sears, F. W., & Zemansky, M. W., Sears and Zemansky's university physics : with modern physics, 11th ed. /, Boston : Pearson Addison Wesley, 2016, Eng, 0321204697 (edicion internacional) BOOKS FOR CONSULTATION: * Knight Randall D, Student workbook with modern physics : physics for scientists and engineers : a strategic approach, 2nd ed., London : Pearson Education, 2016, spa, 9780321513571 * Serway, R. A., Jewett, J. W., & Peroomian, V., Physics for scientists and engineers, Ninth edition, International edition., Boston, MA, USA : Cengage, 2019, Eng, 9781285070315 |
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Academic credentials required to teach the course: |
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(040201)Master Degree in Architecture and (140801)Master Degree in Civil Engineering and (140803)Master Degree in Structural Engineering and (400801)Master Degree in Physics and (140801)Doctoral Degree in Civil Engineering and (140803)Doctoral Degree in Structural Engineering CIP: 040201, 140801, 140803, 400801 |
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