In this lesson, students will 3D print their project, share their project …
In this lesson, students will 3D print their project, share their project with their peers, give/receive feedback on each other’s projects, export and submit their designs, and answer a series of reflection questions.
Estimated time required: 1-2 class periods.
Technology required for this lesson: 3D Modeling Software, Digital Fabrication Tools, Laptop/Desktop, Tablet.
In this series of Ancient-Greece themed lessons, students will learn how to …
In this series of Ancient-Greece themed lessons, students will learn how to create 3D models and 3D prints using an online software called TinkerCAD. In lesson 1’s activity, students will use TinkerCAD to create digital 3D models of coins.
Estimated time required: 1-2 class periods.
Technology required for this lesson: 3D Modeling Software, Laptop/Desktop.
In lesson 2’s activity, students will learn how to 3D model and …
In lesson 2’s activity, students will learn how to 3D model and 3D print a custom designed Ring Project using TinkerCAD and a 3D Printer. The teacher will preview each project in a "Slicing" application before printing the designs.
Estimated time required: 1-2 class periods.
Technology required for this lesson: 3D Modeling Software, Digital Fabrication Tools, Laptop/Desktop.
In lesson 3’s activity, students will learn about architecture and scale, and …
In lesson 3’s activity, students will learn about architecture and scale, and then they will 3D model and 3D print the Parthenon at 1:200 Scale using TinkerCAD and a 3D printer.
Estimated time required: 1-2 class periods.
Technology required for this lesson: 3D Modeling Software, Digital Fabrication Tools, Laptop/Desktop.
In lesson 4’s activity, students will use TinkerCAD to design an ergonomic …
In lesson 4’s activity, students will use TinkerCAD to design an ergonomic pencil grip for Homer (author of The Odyssey and The Iliad) that allows him to write with both hands!
Estimated time required: 2-3 class periods.
Technology required for this lesson: 3D Modeling Software, Digital Fabrication Tools, Laptop/Desktop.
Students learn how 3D printing, also known as additive manufacturing, is revolutionizing …
Students learn how 3D printing, also known as additive manufacturing, is revolutionizing the manufacturing process. First, students learn what considerations to make in the engineering design process to print an object with quality and to scale. Students learn the basic principles of how a computer-aided design (CAD) model is converted to a series of data points then turned into a program that operates the 3D printer. The activity takes students through a step-by-step process on how a computer can control a manufacturing process through defined data points. Within this activity, students also learn how to program using basic G-code to create a wireframe 3D shapes that can be read by a 3D printer or computer numerical control (CNC) machine.
In this lesson, students expand their understanding of solid waste management to …
In this lesson, students expand their understanding of solid waste management to include the idea of 3RC (reduce, reuse, recycle and compost). They will look at the effects of packaging decisions (reducing) and learn about engineering advancements in packaging materials and solid waste management. Also, they will observe biodegradation in a model landfill (composting).
Why do we sometimes see different things when looking at the same …
Why do we sometimes see different things when looking at the same object? How does a one-way mirror work? Though most everyone knows that one-way mirrors exist, having students model how they work turns out to be a very effective way to develop their thinking about how visible light travels and how we see images. Initial student models in this 6th grade light and matter science unit reveal a wide variety of ideas and explanations that motivate the unit investigations that help students figure out what is going on and lead them to a deeper understanding of the world around them.
OpenSciEd content is highly rated in EdReports and is aligned to NGSS standards.
How can containers keep stuff from warming up or cooling down? What …
How can containers keep stuff from warming up or cooling down? What keeps different cups or containers from warming up or cooling down? Students begin this 6th grade science unit by experimenting whether a new plastic cup sold by a store keeps a drink colder for longer than the regular plastic cup that comes free with the drink. Students find that the drink in the regular cup warms up more than the drink in the special cup. This prompts students to identify features of the cups that are different, such as the lid, walls, and hole for the straw, that might explain why one drink warms up more than the other.
OpenSciEd content is highly rated in EdReports and is aligned to NGSS standards.
Why does a lot of hail, rain, or snow fall at some …
Why does a lot of hail, rain, or snow fall at some times and not others? This 6th grade science unit on weather, climate, and water cycling is broken into four separate lesson sets. In the first two lesson sets, students explain small-scale storms. In the third and fourth lesson sets, students explain mesoscale weather systems and climate-level patterns of precipitation. Each of these two parts of the unit is grounded in a different anchoring phenomenon.
OpenSciEd content is highly rated in EdReports and is aligned to NGSS standards.
What causes Earth's surface to change? Mountains move! And there are ocean …
What causes Earth's surface to change? Mountains move! And there are ocean fossils on top of Mt. Everest! In this plate tectonics and rock cycling unit, students come to see that the Earth is much more active and alive than they have thought before. The unit launches with documentation of a 2015 Himalayan earthquake that shifted Mt. Everest suddenly to the southwest direction. Students also discover that Mt. Everest is steadily moving to the northeast every year and getting taller as well. Students wonder what could cause an entire mountain to move during an earthquake.
OpenSciEd content is highly rated in EdReports and is aligned to NGSS standards.
Where do natural hazards happen and how do we prepare for them? …
Where do natural hazards happen and how do we prepare for them? This unit begins with students experiencing, through text and video, a devastating natural event that caused major flooding in coastal towns of Japan. This event was the 2011 Great Sendai or Tōhoku earthquake and subsequent tsunami that caused major loss of life and property in Japan. Through this anchoring phenomenon, students think about ways to detect tsunamis, warn people, and reduce damage from the wave. As students design solutions to solve this problem, they begin to wonder about the natural hazard itself: what causes it, where it happens, and how it causes damage.
OpenSciEd content is highly rated in EdReports and is aligned to NGSS standards.
How do living things heal? This unit launches with students hearing about …
How do living things heal? This unit launches with students hearing about an injury that happened to a middle school student that caused him to need stitches, pins, and a cast. They analyze doctor reports and develop an initial model for what is going on in our body when it heals. Students investigate what the different parts of our body are made of, from the macro scale to the micro scale. They figure out parts of our body are made of cells and that these cells work together for our body to function.
OpenSciEd content is highly rated in EdReports and is aligned to NGSS standards.
Middle Grades Science astronomy. Astronomy. Geology III Weathering Erosion and Human Impact …
Middle Grades Science astronomy. Astronomy. Geology III Weathering Erosion and Human Impact Introduction Key Terms Weathering and Natural Erosion Rocks to Soil Erosion from Water Erosion from Gravity and Wind Human Activity and Erosion
Middle Grades Science insideearth. Geology I - Inside the Earth and Plate …
Middle Grades Science insideearth. Geology I - Inside the Earth and Plate Tectonics. Geology I Inside the Earth and Plate Tectonics Key Terms Inside the Earth Plate Tectonics Earthquakes I EarthQuakes II Volcano Formation and Types Volcano Eruptions Review Assignments
Middle Grades Science hydrologymeteorology. Hydrology and Meteorology. Geology III Weathering Erosion and …
Middle Grades Science hydrologymeteorology. Hydrology and Meteorology. Geology III Weathering Erosion and Human Impact Introduction Key Terms Weathering and Natural Erosion Rocks to Soil Erosion from Water Erosion from Gravity and Wind Human Activity and Erosion
How can we make something new that was not there before? Seventh …
How can we make something new that was not there before? Seventh grade chemistry students' conceptual understanding of chemical reactions for middle school science is foundational to much science learning. Understanding atomic level reactions is crucial for learning physical, life, earth, and space science. Even more importantly, they open up new windows of curiosity for students to see the world around them. By seventh grade, students are ready to take on the abstract nature of the interactions of atoms and molecules far too small to see.
OpenSciEd content is highly rated in EdReports and is aligned to NGSS standards.
How can we use chemical reactions to design a solution to a …
How can we use chemical reactions to design a solution to a problem? In this 21-day unit, students are introduced to the anchoring phenomenon—a flameless heater in a Meal, Ready-to-Eat (MRE) that provides hot food to people by just adding water. In the first lesson set, students explore the inside of an MRE flameless heater, then do investigations to collect evidence to support the idea that this heater and another type of flameless heater (a single-use hand warmer) are undergoing chemical reactions as they get warm. Students have an opportunity to reflect on the engineering design process, defining stakeholders, and refining the criteria and constraints for the design solution.
OpenSciEd content is highly rated in EdReports and is aligned to NGSS standards.
How do things inside our bodies work together to make us feel …
How do things inside our bodies work together to make us feel the way we do? This unit on metabolic reactions in the human body starts out with students exploring a real case study of a middle-school girl named M’Kenna, who reported some alarming symptoms to her doctor. Her symptoms included an inability to concentrate, headaches, stomach issues when she eats, and a lack of energy for everyday activities and sports that she used to play regularly. She also reported noticeable weight loss over the past few months, in spite of consuming what appeared to be a healthy diet. Her case sparks questions and ideas for investigations around trying to figure out which pathways and processes in M’Kenna’s body might be functioning differently than a healthy system and why.
OpenSciEd content is highly rated in EdReports and is aligned to NGSS standards.
No restrictions on your remixing, redistributing, or making derivative works. Give credit to the author, as required.
Your remixing, redistributing, or making derivatives works comes with some restrictions, including how it is shared.
Your redistributing comes with some restrictions. Do not remix or make derivative works.
Most restrictive license type. Prohibits most uses, sharing, and any changes.
Copyrighted materials, available under Fair Use and the TEACH Act for US-based educators, or other custom arrangements. Go to the resource provider to see their individual restrictions.
