This Remote Learning Plan was created by (Aaron Leibel) in collaboration with …
This Remote Learning Plan was created by (Aaron Leibel) in collaboration with (Lori Broady) as part of the 2020 ESU-NDE Remote Learning Plan Project. Educators worked with coaches to create Remote Learning Plans as a result of the COVID-19 pandemic.The attached Remote Learning Plan is designed for (10th Grade) (Social Studies) students. Students will (Create a law of supply chart for a concession stand item). This Remote Learning Plan addresses the following NDE Standard: (NDE Standard)Geography 7.3.3.a Explain the impact of natural processes on human and physical environments.Economics 7.2.5.a Define the government’s role in various economic systems. It is expected that this Remote Learning Plan will take students (45 minutes) to complete.Here is the direct link to the Google Doc: https://docs.google.com/presentation/d/1MCc6jnB8hb9NslpjmMpNIy6kMHyGDPKcnWBsnsZYRyQ/edit?usp=sharing
This Remote Learning Plan was created by (Aaron Leibel) in collaboration with …
This Remote Learning Plan was created by (Aaron Leibel) in collaboration with (Lori Broady) as part of the 2020 ESU-NDE Remote Learning Plan Project. Educators worked with coaches to create Remote Learning Plans as a result of the COVID-19 pandemic.The attached Remote Learning Plan is designed for (10th Grade) (Social Studies) students. Students will (Create a law of supply chart for a concession stand item). This Remote Learning Plan addresses the following NDE Standard: (NDE Standard)2.5.a Summarize the role of competitions, markets, and pricesIt is expected that this Remote Learning Plan will take students (45 minutes) to complete.
Students are introduced to an engineering challenge in which they are given …
Students are introduced to an engineering challenge in which they are given a job assignment to separate three types of apples. However, they are unable to see the color differences between the apples, and as a result, they must think as engineers to design devices that can be used to help them distinguish the apples from one another. Solving the challenge depends on an understanding of wave properties and the biology of sight. After being introduced to the challenge, students form ideas and brainstorm about what background knowledge is required to solve the challenge. A class discussion produces student ideas that can be grouped into broad subject categories: waves and wave properties, light and the electromagnetic spectrum, and the structure of the eye.
Students learn about the anatomical structure of the human eye and how …
Students learn about the anatomical structure of the human eye and how humans see light, as well as some causes of color blindness. They conduct experiments as an example of research to gather information. During their investigations, they test other students' vision, gathering data and measurements about when objects appear blurry. These topics help students prepare to design solutions to an overarching engineering challenge question.
Students apply everything they have learned over the course of the associated …
Students apply everything they have learned over the course of the associated lessons about waves, light properties, the electromagnetic spectrum, and the structure of the eye, by designing devices that can aid color blind people in distinguishing colors. Students learn about the engineering design process and develop three possible solutions to the engineering design challenge outlined in lesson 1 of this unit. They create posters to display their three design ideas and the comparisons used to select the best design. Then, students create brochures for their final design ideas, and "sell" the ideas to their "client." Through this activity, students complete the legacy cycle by "going public" with the creation of their informative posters and brochures that explain their designs, as well as color blindness and how people see color, in "client" presentations.
Students are presented with a challenge question concerning color blindness and asked …
Students are presented with a challenge question concerning color blindness and asked to use engineering principles to design devices to help people who are color blind. Using the legacy cycle as a model, this unit is comprised of five lessons designed to teach wave properties, the electromagnetic spectrum, and the anatomy of the human eye in an interactive format that introduces engineering applications and real-world references. It culminates with an activity in which student teams apply what they have learned to design devices that can aid people with colorblindness in distinguishing colors— as evidenced by their creation of brainstorming posters, descriptive brochures and short team presentations, as if they were engineers reporting to clients. Through this unit, students become more aware of the connections between the biology of the eye and the physical science concept of light, and gain an understanding of how those scientific concepts relate to the field of engineering.
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