A 6th-grade lesson where students transition from passive rumor-consumers to active investigators by identifying a school-based myth and designing a scientific or journalistic plan to verify it.

How and why organisms use light for social interactions, communication, and complex behaviors. Students explore strategies like counter-illumination and burglar alarms.

How is light made? Students break down the chemical reaction of bioluminescence, exploring the interaction between luciferin, luciferase, and oxygen.

Discover the mysterious world of the deep ocean's midnight zone. Students explore how creatures create light in total darkness and identify the physical adaptations of bioluminescent marine life.

Uma aula completa sobre as principais teorias da origem da vida, abordando desde a abiogênese até os experimentos de Miller-Urey, alinhada à BNCC para o Ensino Fundamental II.

A foundational toolkit for setting up a physical engineering and maker space, covering physical layout, collaborative roles, and essential classroom routines.

A high-stakes engineering challenge where students use the 4Cs and Computational Thinking to design, build, and document the ultimate cup tower structure.

A lesson exploring the differences between natural and invasive grasses as fire fuels, featuring case studies on the Tallgrass Prairie and Cheatgrass in the Great Basin. Students will analyze fire behavior and impact through comparative study and assessment.

A comprehensive lesson on invasive species prevention, featuring visual slides, a modified reading task for accessibility, and assessment tools. Students learn to identify pathways and implement global prevention strategies.

An introductory lesson on sustainable development, exploring the three pillars of sustainability and how human actions impact the planet's future.

An investigation into exothermic reactions using hand warmers. Students observe and record temperature changes to understand how chemical energy transforms into heat energy.

A hands-on exploration of photosynthesis, respiration, and transpiration, showing how these three processes cycle energy, gases, and water to sustain plant life. Students will observe transpiration in real-time and use a conceptual model to track chemical changes.

A quick, creative wrap-up lesson where students apply their knowledge of soil conservation practices to design a sustainable farm plot and craft a persuasive pitch.

A comprehensive lesson on invasive species featuring case studies of Lionfish, Spotted Lanternflies, Zebra Mussels, and Burmese Pythons. Students explore the scientific process and ecological impacts through simplified text and visual supports.

A hands-on introduction to neural networks for 6th graders, using a paper-based simulation to understand how computers 'think' using layers and connections.

A creative engineering lesson where students use LEGO bricks to design and build detailed animal models based on specific prompt constraints. Focuses on spatial reasoning, creative problem-solving, and descriptive writing.

A comprehensive collection of species profiles covering the major branches of the human family tree, from the earliest potential ancestors to our closest extinct relatives.

The culminating lesson where students synthesize their knowledge of chloroplasts and mitochondria. They will conduct a 'Mission Moon-Base' hypothetical lab using the scientific method to balance a closed-loop life support system.

An introductory exploration of photosynthesis and the structure of chloroplasts, framing them as the 'solar kitchens' of the cell. Students will read differentiated texts and map out the inputs and outputs of the process.

An exploration of cellular respiration and mitochondria, framing them as the 'energy engines' that power life. Students will compare and contrast this process with photosynthesis to prepare for the final lab.

A foundational lesson on the three main stages of the water cycle: evaporation, condensation, and precipitation. Includes a visual anchor chart and a hands-on labeling activity.

A guided reading lesson for 3rd graders exploring the fundamental differences between stars and planets, focusing on light production, composition, and movement.

A design-focused lesson where middle school students apply their knowledge of simple machines to create a complex Rube Goldberg contraption on paper. Students will define, identify, and explain the mechanical advantage of various components in their 'blueprint' design.

A fascinating look at decomposers for 3rd graders, explaining how fungi, bacteria, and worms break down dead matter to recycle nutrients back into the food chain.

An engaging lesson for 3rd graders on consumers in a food chain, exploring herbivores, carnivores, and omnivores, and how they get their energy from eating other living things.

A foundational lesson on food chains for 3rd graders, focusing on producers as the start of energy flow and the correct use of arrows to represent that energy movement.

A 3rd-grade integrated science and literacy lesson exploring inheritance and variation in traits. Using 'Plants and Animals' by Rose Padilla, students analyze how animals are like their parents yet different from each other, gathering explicit text evidence to support scientific explanations.

Students explore the flow of energy in a grassland ecosystem by identifying producers, consumers, and decomposers. They will construct their own food chains through a hands-on sorting and linking activity.

A guided practice set for middle school students focusing on the NC Science EOG requirement of using specific data evidence to support scientific conclusions. Students analyze 6 EOG-style scenarios across 6th, 7th, and 8th-grade curriculum standards.

Explores the impact of carbon in sensitive ecosystems like the Arctic Tundra, Wetlands, and Agricultural lands, concluding with an assessment of why carbon balance matters.

An introduction to the fundamental processes of the carbon cycle, focusing on the roles of the Ocean and Tropical Rainforest as major carbon reservoirs.

Students explore the various ways life from the past became preserved in stone, distinguishing between body and trace fossils while identifying specific preservation methods like amber, casts, and carbon films.

A lesson exploring the fundamental structures of plant and animal cells, focusing on the nucleus, cell wall, and cell membrane, and how these parts differ between cell types.

A relative dating investigation set in Jellystone Park, where students use geologic principles to solve picnic basket heists and uncover the history of the park's rock formations.