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Dr. Genaro Zavala Enríquez,
Ing. Rodolfo Fernández de Lara Hadad,
and
Ing. José Rodrigo Salmón Folgueras
Este curso provee al estudiante con conceptos y herramientas matemáticas para modelar problemas en física, que al aplicar podrá enfrentar con éxito los cursos de física universitarios.
Así pues, la filosofía de este curso consiste en cubrir temas conceptuales relativos a la Física y desarrollar tu capacidad de aprender y aplicarlos en tu vida profesional.
El curso se aborda en dos fases a través de las cuales el alumno:
- Aprenderá a aplicar el cálculo diferencial e integral para interpretar y modelar la cinemática de una partícula en una dimensión,
Read more
Este curso provee al estudiante con conceptos y herramientas matemáticas para modelar problemas en física, que al aplicar podrá enfrentar con éxito los cursos de física universitarios.
Así pues, la filosofía de este curso consiste en cubrir temas conceptuales relativos a la Física y desarrollar tu capacidad de aprender y aplicarlos en tu vida profesional.
El curso se aborda en dos fases a través de las cuales el alumno:
- Aprenderá a aplicar el cálculo diferencial e integral para interpretar y modelar la cinemática de una partícula en una dimensión,
Read more
Este curso provee al estudiante con conceptos y herramientas matemáticas para modelar problemas en física, que al aplicar podrá enfrentar con éxito los cursos de física universitarios.
Así pues, la filosofía de este curso consiste en cubrir temas conceptuales relativos a la Física y desarrollar tu capacidad de aprender y aplicarlos en tu vida profesional.
El curso se aborda en dos fases a través de las cuales el alumno:
- Aprenderá a aplicar el cálculo diferencial e integral para interpretar y modelar la cinemática de una partícula en una dimensión,
- Aprenderá el manejo de cantidades físicas vectoriales en forma gráfica y analítica en dos y tres dimensiones.
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What's inside
Syllabus
Semana 1. Recursos de apoyo: Herramientas y conceptos básicos
Semana 2. Introducción a vectores y vectores en el plano cartesiano
Semana 3. Vectores en el espacio
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Syllabus
Semana 1. Recursos de apoyo: Herramientas y conceptos básicos
Semana 2. Introducción a vectores y vectores en el plano cartesiano
Semana 3. Vectores en el espacio
Read more
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Dirigida a estudiantes universitarios que deseen reforzar sus conocimientos de física y mejorar su capacidad de modelar problemas en física utilizando el cálculo
Ofrece una base sólida en matemáticas para comprender y resolver problemas de física
Impartido por profesores experimentados en física e ingeniería
Utiliza el cálculo diferencial e integral para modelar problemas de física
Aborda conceptos de física relevantes, como el movimiento de partículas y cantidades vectoriales
El curso se imparte a través de una plataforma en línea, lo que permite flexibilidad y accesibilidad
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Reviews summary
Fundamentos de física para universidad
Según los estudiantes, el curso "Física: Vectores, Trabajo y Energía" ofrece una buena base para afrontar estudios universitarios de física. Muchos destacan la claridad de las explicaciones del instructor y cómo abordan los conceptos fundamentales de física, vectores, trabajo y energía. Sin embargo, se menciona consistentemente que el curso requiere una base sólida en cálculo diferencial e integral, lo cual puede ser un desafío si no se poseen estos conocimientos previos. Los ejercicios prácticos son valorados por ayudar a afianzar el aprendizaje. En general, la recepción es mayormente positiva entre quienes cumplen los prerrequisitos matemáticos.
Es indispensable tener base fuerte en cálculo.
"Este curso exige un buen dominio del cálculo diferencial e integral. Si no tienes esa base, te costará."
"Es crucial tener conocimientos de cálculo para seguir el curso, aunque no se menciona explícitamente como prerrequisito fuerte."
"Sería bueno advertir más claramente que se necesita saber derivar e integrar para no perderse."
"Si bien es de física básica, la aplicación de cálculo es intensiva y necesaria."
Los problemas ayudan a aplicar la teoría.
"Los ejercicios propuestos son muy útiles para practicar y consolidar el aprendizaje de los temas vistos."
"Me gustaron los problemas planteados, te hacen pensar y aplicar lo aprendido en los videos."
"La combinación de teoría y ejercicios prácticos es un gran acierto de este curso."
"Los ejemplos resueltos en las clases son muy ilustrativos."
Prepara eficazmente para cursos superiores.
"Este curso me sirvió muchísimo como preparación para mi primer semestre de física en la universidad. Cubre los temas clave."
"Excelente base para enfrentar cursos universitarios de física, especialmente en mecánica."
"Recomendado si buscas un curso introductorio sólido que te prepare para estudios superiores."
"Me sentí mucho más preparado después de tomarlo para los temas de vectores y energía en mi carrera."
El instructor explica los conceptos con gran claridad.
"El profesor explica los conceptos de manera muy clara, lo cual facilita la comprensión de temas complejos."
"Me gustó mucho la forma en que se abordan los temas, las explicaciones son concisas y directas al punto."
"Excelente curso, el instructor tiene una manera de explicar que hace que todo parezca sencillo y fácil de entender."
"Ayuda a entender los conceptos de la física de una manera muy clara."
Algunos encuentran el ritmo rápido.
"A veces el ritmo es un poco rápido si no tienes una base matemática sólida, especialmente con el cálculo."
"Sentí que se cubrían muchos temas en poco tiempo, podría beneficiarse de ir un poco más lento en ciertas secciones."
"El nivel de dificultad es adecuado si cumples los prerrequisitos, pero puede ser abrumador si no."
Activities
Be better prepared
before
your course. Deepen your understanding
during
and
after
it. Supplement your coursework and achieve mastery of the topics covered
in Física: Vectores, Trabajo y Energía with these
activities:
Revisit calculus concepts
Show steps
Revisiting calculus concepts will help you understand the mathematical tools and techniques used in physics.
Browse courses on
Differential Calculus
Show steps
-
Take practice problems to test your understanding.
-
Review your notes and textbooks from previous calculus courses.
Recall basic physics concepts
Show steps
Recalling basic physics concepts will provide a foundation for understanding the more advanced concepts covered in this course.
Browse courses on
Kinematics
Show steps
-
Review your notes and textbooks from previous physics courses.
-
Take practice problems to test your understanding.
Organize your course materials
Show steps
Organizing your course materials will help you stay on top of the material and make it easier to find what you need.
Show steps
-
Create a system for organizing your notes, assignments, and other course materials.
-
Review your materials regularly and make sure you understand everything.
Five other activities
Expand to see all activities and additional details
Show all eight activities
Solve physics problems involving kinematics
Show steps
Solving physics problems involving kinematics will help you develop your problem-solving skills and apply the concepts you learn in class.
Browse courses on
Kinematics
Show steps
-
Find practice problems online or in textbooks.
-
Solve the problems and check your answers.
-
Review your mistakes and try to understand why you made them.
Practice manipulating vectors
Show steps
Practicing manipulating vectors will help you develop your problem-solving skills and apply the concepts you learn in class.
Browse courses on
Vectors
Show steps
-
Find practice problems online or in textbooks.
-
Solve the problems and check your answers.
-
Review your mistakes and try to understand why you made them.
Watch video tutorials on physics concepts
Show steps
Watching video tutorials on physics concepts can supplement your learning and provide a different perspective.
Show steps
-
Find video tutorials online or on platforms like YouTube.
-
Watch the tutorials and take notes.
-
Review the tutorials and try to apply the concepts you learned.
Join a study group with other students in the course
Show steps
Joining a study group can provide you with support and accountability, and help you learn from others.
Show steps
-
Find a study group or create your own.
-
Meet regularly to discuss the course material.
-
Work together on problems and assignments.
Create a summary of a physics concept
Show steps
Creating a summary of a physics concept will help you understand the concept more deeply and improve your recall.
Show steps
-
Choose a physics concept to summarize.
-
Research the concept and gather information from various sources.
-
Write a summary that explains the concept in your own words.
Revisit calculus concepts
Show steps
Revisiting calculus concepts will help you understand the mathematical tools and techniques used in physics.
Browse courses on
Differential Calculus
Show steps
Show steps
Show steps
- Take practice problems to test your understanding.
- Review your notes and textbooks from previous calculus courses.
Recall basic physics concepts
Show steps
Recalling basic physics concepts will provide a foundation for understanding the more advanced concepts covered in this course.
Browse courses on
Kinematics
Show steps
Show steps
Show steps
- Review your notes and textbooks from previous physics courses.
- Take practice problems to test your understanding.
Organize your course materials
Show steps
Organizing your course materials will help you stay on top of the material and make it easier to find what you need.
Show steps
Show steps
Show steps
- Create a system for organizing your notes, assignments, and other course materials.
- Review your materials regularly and make sure you understand everything.
Five other activities
Expand to see all activities and additional details
Show all eight activities
Solve physics problems involving kinematics
Show steps
Solving physics problems involving kinematics will help you develop your problem-solving skills and apply the concepts you learn in class.
Browse courses on
Kinematics
Show steps
Show steps
Show steps
- Find practice problems online or in textbooks.
- Solve the problems and check your answers.
- Review your mistakes and try to understand why you made them.
Practice manipulating vectors
Show steps
Practicing manipulating vectors will help you develop your problem-solving skills and apply the concepts you learn in class.
Browse courses on
Vectors
Show steps
Show steps
Show steps
- Find practice problems online or in textbooks.
- Solve the problems and check your answers.
- Review your mistakes and try to understand why you made them.
Watch video tutorials on physics concepts
Show steps
Watching video tutorials on physics concepts can supplement your learning and provide a different perspective.
Show steps
Show steps
Show steps
- Find video tutorials online or on platforms like YouTube.
- Watch the tutorials and take notes.
- Review the tutorials and try to apply the concepts you learned.
Join a study group with other students in the course
Show steps
Joining a study group can provide you with support and accountability, and help you learn from others.
Show steps
Show steps
Show steps
- Find a study group or create your own.
- Meet regularly to discuss the course material.
- Work together on problems and assignments.
Create a summary of a physics concept
Show steps
Creating a summary of a physics concept will help you understand the concept more deeply and improve your recall.
Show steps
Show steps
Show steps
- Choose a physics concept to summarize.
- Research the concept and gather information from various sources.
- Write a summary that explains the concept in your own words.
Career center
Learners who complete Física: Vectores, Trabajo y Energía will develop knowledge and skills
that may be useful to these careers:
Mechanical Engineer
Mechanical Engineer
Mechanical Engineers design, build, and operate various types of machinery. They use their knowledge of physics to ensure that machines are efficient, safe, and reliable. A course in Physics: Vectors, Work, and Energy can help Mechanical Engineers understand the forces and energy involved in the operation of machines.
Civil Engineer
Civil Engineer
Civil Engineers design and build infrastructure such as bridges, buildings, and roads. They use their knowledge of physics to ensure that structures are safe and stable. A course in Physics: Vectors, Work, and Energy can help Civil Engineers understand the forces and energy involved in the design and construction of structures.
Aerospace Engineer
Aerospace Engineer
Aerospace Engineers design, build, and operate aircraft and spacecraft. They use their knowledge of physics to ensure that aircraft and spacecraft are efficient, safe, and reliable. A course in Physics: Vectors, Work, and Energy can help Aerospace Engineers understand the forces and energy involved in the operation of aircraft and spacecraft.
Nuclear Engineer
Nuclear Engineer
Nuclear Engineers design, build, and operate nuclear reactors. They use their knowledge of physics to ensure that reactors are safe and efficient. A course in Physics: Vectors, Work, and Energy can help Nuclear Engineers understand the forces and energy involved in the operation of nuclear reactors.
Geophysicist
Geophysicist
Geophysicists study the Earth's physical properties and processes. They use their knowledge of physics to understand the forces and energy involved in the Earth's interior and exterior. A course in Physics: Vectors, Work, and Energy can help Geophysicists understand the forces and energy involved in the movement of the Earth's plates, the formation of mountains, and the occurrence of earthquakes.
Health Physicist
Health Physicist
Health Physicists protect people from the harmful effects of radiation. They use their knowledge of physics to develop and use radiation safety regulations. A course in Physics: Vectors, Work, and Energy can help Health Physicists understand the forces and energy involved in the interaction of radiation with matter.
Electrical Engineer
Electrical Engineer
Electrical Engineers design, build, and operate electrical systems. They use their knowledge of physics to ensure that systems are efficient, safe, and reliable. A course in Physics: Vectors, Work, and Energy can help Electrical Engineers understand the forces and energy involved in the operation of electrical systems.
Materials Scientist
Materials Scientist
Materials Scientists study the properties of materials and develop new materials for use in a variety of applications. They use their knowledge of physics to understand the forces and energy involved in the behavior of materials.
Medical Physicist
Medical Physicist
Medical Physicists use their knowledge of physics to develop and use medical imaging techniques, such as X-rays and MRI scans. They also use their knowledge to develop and use radiation therapy techniques. A course in Physics: Vectors, Work, and Energy can help Medical Physicists understand the forces and energy involved in the operation of medical imaging and radiation therapy equipment.
Astronomer
Astronomer
Astronomers study the universe beyond the Earth. They use their knowledge of physics to understand the forces and energy involved in the formation and evolution of stars, galaxies, and the universe itself.
Meteorologist
Meteorologist
Meteorologists study the Earth's atmosphere and weather. They use their knowledge of physics to understand the forces and energy involved in the formation and movement of weather systems.
Oceanographer
Oceanographer
Oceanographers study the Earth's oceans and seas. They use their knowledge of physics to understand the forces and energy involved in the movement of water, the formation of waves, and the interaction of the ocean with the atmosphere.
Environmental Scientist
Environmental Scientist
Environmental Scientists study the environment and its interactions with humans. They use their knowledge of physics to understand the forces and energy involved in the movement of pollutants, the effects of pollution on the environment, and the development of sustainable technologies.
Teacher
Teacher
Teachers educate students in a variety of subjects, including physics. They use their knowledge of physics to help students understand the forces and energy involved in the world around them. A course in Physics: Vectors, Work, and Energy can help Teachers develop a deeper understanding of physics and how to teach it effectively.
Science Writer
Science Writer
Science Writers communicate scientific information to a general audience. They use their knowledge of physics to explain the forces and energy involved in the natural world in a clear and concise way. A course in Physics: Vectors, Work, and Energy can help Science Writers develop a deeper understanding of physics and how to communicate it effectively.
For more career information including salaries, visit:
OpenCourser.com/course/y0fybo/fisica
Reading list
We've selected nine books
that we think will supplement your
learning. Use these to
develop background knowledge, enrich your coursework, and gain a
deeper understanding of the topics covered in
Física: Vectores, Trabajo y Energía.
Un texto clásico que proporciona una visión profunda de los principios fundamentales de la física, incluyendo capítulos sobre vectores y energía.
Save
Un texto completo que cubre los principios fundamentales de la mecánica clásica, incluyendo un tratamiento detallado del trabajo y la energía.
Save
Un texto clásico que proporciona una cobertura amplia de la física, incluyendo secciones sobre vectores, trabajo y energía.
Un texto que proporciona una base sólida en matemáticas para físicos, incluyendo secciones sobre vectores y cálculo.
Una colección de problemas resueltos en mecánica clásica, que proporciona práctica adicional en la aplicación de principios fundamentales.
Un texto centrado en la mecánica de los vectores, con un enfoque en aplicaciones a la ingeniería.
Un texto completo que cubre los principios fundamentales de la mecánica de los vectores, con un enfoque en aplicaciones a la ingeniería civil.
Save
Un libro introductorio al cálculo vectorial, con un enfoque en aplicaciones a la física.
Un texto clásico que proporciona una cobertura completa del cálculo, incluyendo secciones sobre cálculo diferencial e integral.
For more information about how these books relate to this course, visit:
OpenCourser.com/course/y0fybo/fisica
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Effort
4 semanas de estudio, 4-5 horas por semana
Via
Coursera
Institution
Tecnológico de Monterrey
Instructors
Dr. Genaro Zavala Enríquez
Ing. Rodolfo Fernández de Lara Hadad
Ing. José Rodrigo Salmón Folgueras
Language
Español
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