This activity was designed for blind learners, but all types of learners …
This activity was designed for blind learners, but all types of learners can use it to learn about the life cycle of plabts. The five activities included in this lesson plan provide students with evidence that all living things grow and change as they progress through their life cycle. All of the activities detailed in this lesson plan can be done with students who are visually impaired, if teachers adapt them using Resources for Teaching and Adapting Lessons for Students with Visual Impairments. Tactile models and braille materials will be key and all of the activities will require more time for repeated tactical exploration and expression.
In this lesson, students will extend their knowledge of matter and energy …
In this lesson, students will extend their knowledge of matter and energy cycles in an organism to engineering life cycle assessment of a product. Students will learn about product life cycle assessment and the flow of energy through the cycle, comparing it to the flow of nutrients and energy in the life cycle of an organism.
This video takes use down into the ocean to see what habitats …
This video takes use down into the ocean to see what habitats await us there. Yep, the ocean has layers and the types of things we encounter there change the deeper we go.
In this nonfiction story, readers learn how and why scientists brave the …
In this nonfiction story, readers learn how and why scientists brave the extreme conditions of both poles in order to do research that will help us learn more about our world
Students are introduced to the International Space Station (ISS) with information about …
Students are introduced to the International Space Station (ISS) with information about its structure, operation and key experiments. The ISS itself is an experiment in international cooperation to explore the potential for humans to live in space. The space station features state-of-the-art science and engineering laboratories to conduct research in medicine, materials and fundamental science to benefit people on Earth as well as people who will live in space in the future.
After students have read a book about the Holocaust, such as "The …
After students have read a book about the Holocaust, such as "The Diary of Anne Frank" or "Night" by Elie Wiesel, students will view "Life is Beautiful" and complete discussion questions to challenge their ability to analyze literature using film.
In this lesson, students learn about the physical properties of the Moon. …
In this lesson, students learn about the physical properties of the Moon. They compare these to the properties of the Earth to determine how life would be different for astronauts living on the Moon. Using their understanding of these differences, they are asked to think about what types of products engineers would need to design for us to live comfortably on the Moon.
Using three images from the Wide-field Infrared Survey Explorer (WISE) mission, students …
Using three images from the Wide-field Infrared Survey Explorer (WISE) mission, students measure and analyze infrared light from objects to identify Brown Dwarfs and Ultra-Luminous Infrared Galaxies (ULIRGs). The lesson includes a teacher‰Ûªs guide, student worksheet and PowerPoint presentation (which contains the three images to be analyzed).
This is an activity about the concept of direct versus indirect sunlight. …
This is an activity about the concept of direct versus indirect sunlight. Learners construct and use a sun angle analyzer to investigate the effect of angle on area illuminated. The fraction of light on each square of the analyzer is then calculated and compared. A discussion at the end relates the results to the amount of sunlight falling on different parts of the Earth and the effect this has on temperature and seasons. Reprinted with permission from the Great Explorations in Math and Science (GEMS).
Through an introduction to the design of lighting systems and the electromagnetic …
Through an introduction to the design of lighting systems and the electromagnetic spectrum, students learn about the concept of daylighting as well as two types of light bulbs (lamps) often used in energy-efficient lighting design.
Students learn about the basic properties of light and how light interacts …
Students learn about the basic properties of light and how light interacts with objects. They are introduced to the additive and subtractive color systems, and the phenomena of refraction. Students further explore the differences between the additive and subtractive color systems via predictions, observations and analysis during three demonstrations. These topics help students gain a better understanding of how light is connected to color, bringing them closer to answering an overarching engineering challenge question.
Students are introduced to the correct technical vocabulary for lighting, which is …
Students are introduced to the correct technical vocabulary for lighting, which is different than layperson's terms. They learn about lamp (light bulb) technology and how to identify the various types of lighting in their spaces. They are also introduced to lighting controls as a means for saving energy- reducing costs, human energy consumption, and greenhouse gas emissions on the environment. Using an accompanying worksheet, students embark on a guided audit in which they survey the lighting in their classroom and identify the potential savings from using controls.
This lesson introduces the concept of electricity by asking students to imagine …
This lesson introduces the concept of electricity by asking students to imagine what their life would be like without electricity. Two main forms of electricity, static and current, are introduced. Students learn that electrons can move between atoms, leaving atoms in a charged state.
Students will see how the idea of a limit can be presented …
Students will see how the idea of a limit can be presented both in formal epsilon-delta-style terms, and using corresponding animations. After calculating a limit for a simple example function, we point out that limits do not always exist.
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