Look inside a resistor to see how it works. Increase the battery …
Look inside a resistor to see how it works. Increase the battery voltage to make more electrons flow though the resistor. Increase the resistance to block the flow of electrons. Watch the current and resistor temperature change.
The true, inspiring story of Beauty, the bald eagle, who was shot, …
The true, inspiring story of Beauty, the bald eagle, who was shot, rescued, and received a 3D-printed prosthetic beak. The resource includes a lesson plan/book card, a design challenge, and copy of a design thinking journal that provide guidance on using the book to inspire students' curiosity for design thinking. Maker Challenges: (1) Use paper and pencil to design a prosthetic body part for a human or animal. Then use tinkercad.com to create a prototype. Finally, use a 3D printer to print the prosthetic. (2) Have students research animals who use prosthetics. Then, improve the design in Tinkercad and 3D Print.
A document is included in the resources folder that lists the complete standards-alignment for this book activity.
Demonstrate the Bernoulli Principle using simple materials on a small or large …
Demonstrate the Bernoulli Principle using simple materials on a small or large scale. This resource includes two activities that allow learners to experience the Bernoulli Principle, in which an object is suspended in air by blowing down on it. Use this activity to explain how atomizers work and why windows are sometimes sucked out of their frames as two trains rush past each other.
Beyond Penguins and Polar Bears is an online professional development magazine which …
Beyond Penguins and Polar Bears is an online professional development magazine which focuses on preparing elementary teachers to teach polar science concepts while also integrating inquiry-based science and literacy instruction. The project draws on research showing that an integrated approach can improve student achievement in science, as well as in reading comprehension and oral and written discourse abilities. Ultimately, the project seeks to bring the polar regions “closer to home” for elementary teachers and their students.
This lesson will require students to research the Big Bang Theory and …
This lesson will require students to research the Big Bang Theory and the three main pieces of scientific evidence that support this theory. After students complete their research, they will engage in all steps of the writing process, including prewriting, outlining, revising, and editing. At the conclusion of the lesson, students will create a five paragraph argumentative essay to examine the Big Bang Theory and the scientific evidence that supports this theory. This lesson results from a collaboration between the Alabama State Department of Education and ASTA.
This is a technology-based Biology lesson on the Biomes of the world. …
This is a technology-based Biology lesson on the Biomes of the world. Students will work in groups and research their designated terrestrial biome. Students will research abiotic and biotic factors about their biome. Students will create a digital presentation of their biome using Haiku Deck. The presentation will summarize how the abiotic and biotic factors interact in their biome. Students will then use the collected data from the presentations to create food chains and food webs for their designated biomes. This lesson plan results from a collaboration between the Alabama State Department of Education and ASTA.
This inquiry-based lesson allows students to explore how energy is transferred through …
This inquiry-based lesson allows students to explore how energy is transferred through a wave. This lesson results from a collaboration between the Alabama State Department of Education and ASTA.
Using scrap metal and spare parts, William Kamkwamba created a windmill to …
Using scrap metal and spare parts, William Kamkwamba created a windmill to harness the wind and bring electricity and running water to his Malawian village. The resource includes a lesson plan/book card, a design challenge, and copy of a design thinking journal that provide guidance on using the book to inspire students' curiosity for design thinking. Maker Challenge: Develop a way to harness the wind by designing with Strawbees.
A document is included in the resources folder that lists the complete standards-alignment for this book activity.
Ralph Baer’s family fled Nazi Germany for the US when he was …
Ralph Baer’s family fled Nazi Germany for the US when he was a child. Using wartime technology, Baer thought outside the box and transformed the television into a vehicle for gaming. His invention was the birth of the first home console, the Odyssey, a precursor to the Atari gaming system. The resource includes a lesson plan/book card, a design challenge, and copy of a design thinking journal that provide guidance on using the book to inspire students' curiosity for design thinking. Maker Challenges: (1) Think outside the box. What’s something you use everyday, but not for its “intended” purpose? Examples: A broom to clean the snow off your car windshield, a trash bag as a sled. Now, think of a problem you might have at school, home, et al. Invent an item that would solve this problem. (2) Let’s think outside the box! Design the latest and greatest technology for kids to hit the market! Make it the *most* fun anyone has ever had. You may NOT use anything on the market - any technology currently on the market is off limits. Use your imagination, do not put limitations on it, and be as creative as you can. (3) Use household items to create a prototype of your new invention.
A document is included in the resources folder that lists the complete standards-alignment for this book activity.
This lesson serves as a bridge between Unit 1 and Unit 2. …
This lesson serves as a bridge between Unit 1 and Unit 2. Students work with texts and images leading to the idea that we must act now to protect our water supply. In the Opening, students activate their background knowledge around issues related to water by discussing a quote using the Say Something protocol (SL.3.1). They then read a new page from One Well for the gist and think about why we need to conserve water (RI.3.4, L.3.4). Students build on this understanding through the Poster Walk protocol in Work Time B, discussing the challenges related to clean water represented in the images on the posters (RI.3.1, SL.3.1). Finally, they connect their thinking to the module guiding questions and are introduced to the writing prompt that they will work toward throughout the unit. Students practice their fluency by following along and reading silently as the teacher reads One Well aloud during Work Time A. In this lesson, students focus on working to become effective learners by collaborating as they work in groups to discuss the images on the Poster Walk posters. The research reading that students complete for homework helps build both their vocabulary and knowledge pertaining to water. By participating in this volume of reading over time, students will develop a wide base of knowledge about the world and the words that help describe and make sense of it.
In Unit 1, students read carefully selected pages of the anchor text, …
In Unit 1, students read carefully selected pages of the anchor text, One Well: The Story of Water on Earth to build background knowledge about where freshwater comes from and about the three issues that the book describes: access to water, demands on water, and water pollution. Students begin by hearing pages of the book read aloud to determine the main ideas and supporting details of a read-aloud. They also reread the pages to analyze the illustrations and answer vocabulary and text-dependent questions. For the mid-unit assessment, students listen to new pages of One Well read aloud to determine the main idea and supporting details before rereading the text to answer text-dependent questions. In the second half of the unit, students read pages of One Well paired with additional complex informational texts to compare the main ideas and supporting details of both texts. For the end of unit assessment, students read a new informational text to determine the main ideas and supporting details before comparing it to pages of One Well. RI.3.1, RI.3.2, RI.3.3, RI.3.4, RI.3.7, RI.3.9, SL.3.2, L.3.1a, and L.3.4.
This lesson launches students into a new topic of study: fossils. During …
This lesson launches students into a new topic of study: fossils. During the Opening and Work Time A, students are presented with clues about the topic and make guesses about what it could be. Nurturing an inquiry-rich classroom environment begins with asking questions and cultivating curiosity. Students make observations and ask questions, which supports them in constructing a schema for fossils. (RI.2.1, SL.2.2) During Work Time A, students participate in the Picture Tea Party protocol. Consider how familiar they are with this protocol and reallocate class time spent introducing it as necessary. During the Closing, students are presented with one of the Unit 1 guiding questions: "What do paleontologists do?" This question will be explored in the unit through both narrative nonfiction and informational texts about paleontologists. To allow for a volume of reading on the topic of fossils for this module, see the K-5 Recommended Text List. Ensure that a variety of informational and narratives texts below, on, and above grade level for this topic are available during independent reading in the K-2 Labs and K-2 Reading Foundations Skills Block.
Students will learn about the different types of bridges and how they …
Students will learn about the different types of bridges and how they work. The lesson also includes a maker component where the students build a bridge.
A simulation that shows the rate and scope of spread of COVID-19 …
A simulation that shows the rate and scope of spread of COVID-19 in a community. Students can change variables such as number of people, schooling plans, etc. A more advanced version of this simulation can be found at https://openscied-static.s3.amazonaws.com/HTML+Files/COVID-19+Vaccination.html
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