This lesson explores the similarities between how a human being moves/walks and …
This lesson explores the similarities between how a human being moves/walks and how a robot moves. This allows students to see the human body as a system, i.e., from the perspective of an engineer. It shows how movement results from (i) decision making, i.e., deciding to walk and move, and (ii) implementing the decision by conveying the decision to the muscle (human) or motor (robot).
Art museums are powerful and contested institutions. They are also innovative sites …
Art museums are powerful and contested institutions. They are also innovative sites of architectural and artistic practice. From the exhibitionary complex of the nineteenth century to the experiential complex of today, this course investigates the art museum from historical and contemporary perspectives, striking a balance between theoretical investigation and case studies of recent exhibitions and museum buildings. Where and why did the concept of the public art museum emerge, and how have its functions changed over time? How do art museums continue to shape our definitions of what art is? How have they responded to recent critiques of the self-described ‘universal’ museum and to claims for the ethical display of ill-gotten artifacts or the restitution of such objects as Greek vases and bronzes looted from Benin? And why is the Euro-American art museum so compelling a model that it has spread around the globe? To address these and other questions, we will also go behind the scenes. Visits to local museums and discussions with curators are an essential component of the course.
This lesson can be done in two 30 mintues whole group sessions. …
This lesson can be done in two 30 mintues whole group sessions. It could be done in a face to face setting, or used for virtual learning. This lesson analzyes the work of Piet Mondrian while reviewing 2D shapes.
Through this earth science curricular unit, student teams are presented with the …
Through this earth science curricular unit, student teams are presented with the scenario that an asteroid will impact the Earth. In response, their challenge is to design the location and size of underground caverns to shelter the people from an uninhabitable Earth for one year. Driven by this adventure scenario, student teams 1) explore general and geological maps of their fictional state called Alabraska, 2) determine the area of their classroom to help determine the necessary cavern size, 3) learn about map scales, 4) test rocks, 5) identify important and not-so-important rock properties for underground caverns, and 6) choose a final location and size.
Word Count: 23846 ISBN: ISBN-13: 978-1-62307-006-9 (Note: This resource's metadata has been …
Word Count: 23846
ISBN: ISBN-13: 978-1-62307-006-9
(Note: This resource's metadata has been created automatically by reformatting and/or combining the information that the author initially provided as part of a bulk import process.)
Word Count: 23772 (Note: This resource's metadata has been created automatically by …
Word Count: 23772
(Note: This resource's metadata has been created automatically by reformatting and/or combining the information that the author initially provided as part of a bulk import process.)
This class offers a foundation in the visual art practice and its …
This class offers a foundation in the visual art practice and its critical analysis for beginning architecture students. Emphasis is on long-range artistic development and its analogies to architectural thinking and practice. Students will learn to communicate ideas and experiences through various two-dimensional, and three-dimensional, and time-based media, including installations, performance and video. Lectures, visiting artist presentations, field trips, and readings supplement studio practice.
Students groups use balsa wood and glue to build their own towers …
Students groups use balsa wood and glue to build their own towers using some of the techniques they learned from the associated lesson. While general guidelines are provided, give students freedom with their designs and encourage them to implement what they have learned about structural engineering. The winning team design is the tower with the highest strength-to-weight ratio.
This book aims to narrate fundamental concepts of structural design to architecture …
This book aims to narrate fundamental concepts of structural design to architecture students such that they have minimum involvement with math problem-solving. Within this book, students learn about different types of loads, forces and vector addition, the concept of equilibrium, internal forces, geometrical and material properties of structural elements, and rules of thumb for estimating the proportion of some structural systems such as catenary cables and arches, trusses, and frame structures.
Short Description: This book aims to narrate fundamental concepts of structural design …
Short Description: This book aims to narrate fundamental concepts of structural design to architecture students such that they have minimum involvement with math problem-solving. Within this book, students learn about different types of loads, forces and vector addition, the concept of equilibrium, internal forces, geometrical and material properties of structural elements, and rules of thumb for estimating the proportion of some structural systems such as catenary cables and arches, trusses, and frame structures.
Long Description: This book aims to narrate fundamental concepts of structural design to architecture students such that they have minimum involvement with math problem-solving. Within this book, students learn about different types of loads, forces and vector addition, the concept of equilibrium, internal forces, geometrical and material properties of structural elements, and rules of thumb for estimating the proportion of some structural systems such as catenary cables and arches, trusses, and frame structures.
Word Count: 12850
(Note: This resource's metadata has been created automatically by reformatting and/or combining the information that the author initially provided as part of a bulk import process.)
This is a great hands on exersize that students can use. I …
This is a great hands on exersize that students can use. I use it in my High School Engineering class.Students make supports to hold up weight or a stack of books.I use it in the first days of school as an ice breaker.
This course provides students with a basic knowledge of structural analysis and …
This course provides students with a basic knowledge of structural analysis and design for buildings, bridges and other structures. The course emphasizes the historical development of structural form and the evolution of structural design knowledge, from Gothic cathedrals to long span suspension bridges. Students will investigate the behavior of structural systems and elements through design exercises, case studies, and load testing of models. Students will design structures using timber, masonry, steel, and concrete and will gain an appreciation of the importance of structural design today, with an emphasis on environmental impact of large scale construction.
Lighting is responsible for nearly one-third of the electricity use in buildings. …
Lighting is responsible for nearly one-third of the electricity use in buildings. One of the best ways to conserve energy is to make sure the lights are turned off when no one is in a room. This process can be automated using motion sensors. In this activity, students explore material properties as they relate to motion detection, and use that knowledge to make design judgments about what types of motion detectors to use in specific applications.
STEM focused lesson that incorporates hands on and computer based 3D design. …
STEM focused lesson that incorporates hands on and computer based 3D design. Grade specific math concepts such as budgets, percentages, and square footage is applied.
In 2008, the Beijing Urban Design Studio will focus on the issue …
In 2008, the Beijing Urban Design Studio will focus on the issue of Beijing’s urban transformation under the theme of de-industrialization, by preparing an urban design and development plan for the Shougang (Capital Steel Factory) site. This studio will address whether portions of the old massive factory infrastructure can be preserved as a national industrial heritage site embedded into future new development; how to balance the cultural and recreational value of the site with environmental challenges; as well as how to use the site for urban development. A special focus of the studio will be to consider development approaches that minimize energy utilization. To research these questions, students will be asked to interact with clients from the factory, local residents, city officials and experts on transportation, environment, energy and real estate. They will assess strategic options for the steel factory and propose comprehensive plans for the design and development of the brownfield site.
The Beijing Urban Design Studio is a joint program between the MIT …
The Beijing Urban Design Studio is a joint program between the MIT and Tsinghua University Schools of Architecture and Planning. The goal of the studio is to foster international cooperation through the undertaking of a joint urban design and planning initiative in the city of Beijing involving important, often controversial, sites and projects. Since 1995, almost 250 MIT and Tsinghua University students and faculty have participated in this annual studio, making it one of the most successful and enduring international academic programs between China and the US. It has received the Irwin Sizer Award from MIT for outstanding innovation in education. The studio takes place over five weeks in June and July including several weeks in residence at Tsinghua University and two brief study tours to locations and projects that inform the work. It will include 18-20 MIT and 10-15 Tsinghua Architecture and Planning students. The Beijing City Planning Institute, responsible for strategic planning in the city, participates in the studio as the client.
This is the 20th anniversary of the Beijing Urban Design Studio, which …
This is the 20th anniversary of the Beijing Urban Design Studio, which is a joint program between the MIT and Tsinghua University Schools of Architecture and Planning. The goal of the studio is to foster international cooperation through the undertaking of a joint urban design and planning initiative in the city of Beijing involving important, often controversial, sites and projects. Since 1995, almost 250 MIT and Tsinghua University students and faculty have participated in this annual studio, making it one of the most successful and enduring international academic programs between China and the U.S. It has received the Irwin Sizer Award from MIT for outstanding innovation in education. The studio takes place over five weeks in June and July including several weeks in residence at Tsinghua University and two brief study tours to locations and projects that inform the work. It will include 18-20 MIT and 10-15 Tsinghua Architecture and Planning students. The Beijing City Planning Institute, responsible for strategic planning in the city, participates in the studio as the client.
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