The main objective of this cross-disciplinary course is to understand the historical …
The main objective of this cross-disciplinary course is to understand the historical development and the current status of ideas and models, to present and question the constraints from the different research fields, and to investigate if and how the different views on mantle flow can be reconciled with the currently available data.
Students are introduced to brainstorming and the design process in problem solving …
Students are introduced to brainstorming and the design process in problem solving as it relates to engineering. They perform an activity to develop and understand problem solving with an emphasis on learning from history. Using only paper, straws, tape and paper clips, they create structures that can support the weight of at least one textbook. In their first attempts to build the structures, they build whatever comes to mind. For the second trial, they examine examples of successful buildings from history and try again.
In this adapted ZOOM video segment, cast members calculate how much water …
In this adapted ZOOM video segment, cast members calculate how much water they each use during a typical shower. They compare their results to their original predictions.
Students apply the mechanical advantages and problem-solving capabilities of six types of …
Students apply the mechanical advantages and problem-solving capabilities of six types of simple machines (wedge, wheel and axle, lever, inclined plane, screw, pulley) as they discuss modern structures in the spirit of the engineers and builders of the great pyramids. While learning the steps of the engineering design process, students practice teamwork, creativity and problem solving.
Skyscrapers are one of the most glorified products of Civil Engineering and …
Skyscrapers are one of the most glorified products of Civil Engineering and contain an interesting history of progress and development. In this lesson, the students will learn about the history of the world's tallest free standing structures and the basic design principles behind their success. Students will build their own newspaper skyscrapers with limited materials and time, trying to achieve a maximum height and the ability to withstand a "hurricane wind" force. Discussion will concentrate on materials, forces that a skyscraper needs to withstand, and basic structural design.
Through hands-on group projects, students learn about the force of compression and …
Through hands-on group projects, students learn about the force of compression and how it acts on structural components. Using everyday materials, such as paper, toothpicks and tape, they construct structures designed to (hopefully) support the weight of a cinder block for 30 seconds.
In this video profile produced for Teachers' Domain, meet conservationist Steve MacLean, …
In this video profile produced for Teachers' Domain, meet conservationist Steve MacLean, an Inupiaq from Barrow, Alaska, who works to preserve the health of the Bering Sea ecosystem.
Students learn about civil engineers and work through each step of the …
Students learn about civil engineers and work through each step of the engineering design process in two mini-activities that prepare them for a culminating challenge to design and build the tallest straw tower possible, given limited time and resources. First they examine the profiles of the tallest 20 towers in the world. Then in the first mini-activity (one-straw tall tower), student pairs each design a way to keep one straw upright with the least amount of tape and fewest additional straws. In the second mini-activity (no "fishing pole"), the pairs determine the most number of straws possible to construct a vertical straw tower before it bends at 45 degrees—resembling a fishing pole shape. Students learn that the taller a structure, the more tendency it has to topple over. In the culminating challenge (tallest straw tower), student pairs apply what they have learned and follow the steps of the engineering design process to create the tallest possible model tower within time, material and building constraints, mirroring the real-world engineering experience of designing solutions within constraints. Three worksheets are provided, for each of two levels, grades K-2 and grades 3-5. The activity scales up to school-wide, district or regional competition scale.
Students learn about the variety of materials used by engineers in the …
Students learn about the variety of materials used by engineers in the design and construction of modern bridges. They also find out about the material properties important to bridge construction and consider the advantages and disadvantages of steel and concrete as common bridge-building materials to handle compressive and tensile forces.
Students work together in small groups, while competing with other teams, to …
Students work together in small groups, while competing with other teams, to explore the engineering design process through a tower building challenge. They are given a set of design constraints and then conduct online research to learn basic tower-building concepts. During a two-day process and using only tape and plastic drinking straws, teams design and build the strongest possible structure. They refine their designs, incorporating information learned from testing and competing teams, to create stronger straw towers using fewer resources (fewer straws). They calculate strength-to-weight ratios to determine the winning design.
This course deals with structural components in nuclear power plant systems, their …
This course deals with structural components in nuclear power plant systems, their functional purposes, operating conditions, and mechanical-structural design requirements. It combines mechanics techniques with models of material behavior to determine adequacy of component design. Considerations include mechanical loading, brittle fracture, in-elastic behavior, elevated temperatures, neutron irradiation, and seismic effects.
This course introduces students to the principles of computation. Upon completion of …
This course introduces students to the principles of computation. Upon completion of 6.001, students should be able to explain and apply the basic methods from programming languages to analyze computational systems, and to generate computational solutions to abstract problems. Substantial weekly programming assignments are an integral part of the course. This course is worth 4 Engineering Design Points.
Observing an organism for an extended period of time can be a …
Observing an organism for an extended period of time can be a rewarding learning experience that helps students develop a meaningful relationship with the natural world. Students often engage more deeply in observing an organism if they’re given some sort of task to focus their observations. In this activity, pairs of students find an organism, then observe and record its structures and behaviors. Students apply the lens of adaptations as they come up with explanations for how their organisms’ structures and behaviors might help it survive in its habitat. In a group discussion, students consider the relationship between organisms’ structures and possible functions, which is a useful science thinking tool that can help them to better understand the natural world. This activity helps students develop a definition of adaptation that includes both behavioral and structural adaptations (adaptations are inheritable structures or behaviors that help a population of organisms survive in their habitat), and gives students the experience applying that definition to an organism in the local ecosystem.
Students use a table-top-sized tsunami generator to observe the formation and devastation …
Students use a table-top-sized tsunami generator to observe the formation and devastation of a tsunami. They see how a tsunami moves across the ocean and what happens when it reaches the continental shelf. Students make villages of model houses and buildings to test how different material types are impacted by the huge waves. They further discuss how engineers design buildings to survive tsunamis. Much of this activity setup is the same as for the Mini-Landscape activity in Lesson 4 of the Natural Disasters unit.
This one-day workshop provides a brief overview of system dynamics and a …
This one-day workshop provides a brief overview of system dynamics and a hands-on simulation experience. It also serves as a preview of the more in-depth coverage of the subject available in other courses offered at MIT Sloan.
This one-day workshop provides a brief overview of system dynamics and a …
This one-day workshop provides a brief overview of system dynamics and a hands-on simulation experience. It also serves as a preview of the more in-depth coverage of the subject available in other courses offered at MIT Sloan.
This class looks at the special structural and practical needs of theatrical …
This class looks at the special structural and practical needs of theatrical scenery and effects and how they can be constructed. We map the technical design process from initial meetings to realization on stage. The class emphasizes safety, budgeting, and problem solving. Ten 1-3 page Tech notes are required as well as a final project. Work includes actual production assignments as well as paper design projects.
In this video adapted from KUAC-TV and the Geophysical Institute at the …
In this video adapted from KUAC-TV and the Geophysical Institute at the University of Alaska, Fairbanks, learn how tectonic plate movement is responsible for building mountains, such as the Wrangell and St. Elias Mountains.
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