A series of visual anchor charts designed for reference during laboratory investigations into plant vascular systems, photosynthesis, and transpiration.

A high-energy, movement-based review activity where students solve 'medical cases' by identifying body systems and their functions. This lesson includes task cards for a classroom scavenger hunt and a structured recording sheet for students.

A lesson exploring the symbiotic relationship between humans and gut bacteria, focusing on the gut-brain connection and the impact of nutrition on mood. Students create metaphors for their microbiome and identify ways to support beneficial bacteria.

A middle school science lesson exploring neuroplasticity through medical recovery case studies. Students investigate how the brain 'reroutes' neural pathways after injury using adaptation and recovery strategies.

A 6th-8th grade science and health lesson exploring neuroplasticity through a hands-on yarn simulation and a video-based discussion. Students learn how neural pathways strengthen through use and dissolve through neglect.

A 5th-grade science lesson exploring the biological impact of nature on the human brain, featuring a hands-on outdoor experiment to measure stress levels.

A lesson for 7th-8th grade science focusing on the biological and genetic foundations of autism. Students debunk common myths, analyze brain development through video, and research how the brain interacts with other body systems in co-occurring conditions.

Students explore the ecosystem beneath the forest floor, focusing on animals that create tunnels and live among tree roots.

A comprehensive lesson exploring the evolution of hunting from ancient survival to modern conservation, including economic impacts and ethical debates surrounding biodiversity.

Explore how plants and other organisms capture solar energy to build life-sustaining sugars while comparing the process to cellular respiration.

A lesson exploring the characteristics, classification, and social behavior of prehistoric Sabertooth cats.

A lesson focused on the formation of sedimentary rocks and how their layers serve as a timeline for life on Earth, specifically focusing on the sequence of formation and fossil aging.

Focuses on reading security logs, understanding time formats (24h vs 12h), and using logic to follow a suspect's movement through keycard data.

Focuses on descriptive language, memory reliability, and the 'mugshot' process. Students learn to describe suspects and identify inconsistencies in witness stories.

A simplified murder mystery investigation. Students use a detective dossier with B1-level text to solve the crime of Professor Thorne. Includes sentence frames for final accusations.

Students explore how fingerprints and DNA help identify people. The lesson uses clear, visual steps to explain identification techniques and Locard's Exchange Principle.

Students learn essential crime-solving vocabulary (alibi, evidence, suspect) and practice categorizing physical vs. testimonial clues using simplified English and visual supports.

An exploration of specialized forensic techniques, focusing on fingerprint classification, DNA profiling basics, and the microscopic analysis of hair and fibers to connect suspects to a scene.

Students master the foundational vocabulary of forensic science, including terms like alibi, chain of custody, and trace evidence, while learning to categorize different types of physical and testimonial evidence.

A 90-minute immersive murder mystery experience where students apply forensic techniques to solve the death of a prominent professor. They will analyze evidence, evaluate witness statements, and build a case based on deductive reasoning.

A lesson exploring the unique life cycle of periodical cicadas and how their emergence patterns help them survive and reproduce.

Students explore the fascinating life cycle of periodical cicadas, focusing on their unique 13 and 17-year schedules and how this behavior helps them survive against predators.

A hands-on science lab using crackers, water, and plastic bags to simulate the digestive process, with differentiated materials for various learner needs.

A lesson introducing students to various ecosystems through vocabulary and visual identification. Students will learn the key characteristics of different biomes including forests, deserts, and oceans.

A lesson that uses a 'mystery drink' metaphor to teach students about computer viruses and the critical importance of asking for permission before downloading files from the internet.

A 5th-grade STEM lesson where students explore the concept of neurodiversity and engineering through the lens of Jack and Jill's creative solution to a water transport problem. Students will design and build their own aqueducts to move water without carrying it, reflecting on how 'thinking outside the box' leads to innovation.

Students explore the relationship between gene versions, proteins, and physical traits, focusing on heterozygous and homozygous genotypes using the context of muscle proteins in runners.

A lesson where students learn how gene versions provide instructions for proteins that determine traits, specifically exploring spider silk flexibility and human running ability. Adjusted for a 3rd-grade reading level while maintaining 6th-grade vocabulary.

Students investigate why different spiders produce different types of silk by looking at traits, proteins, and genes. This lesson adapts complex genetic concepts for a 3rd-grade reading level.

A 6th-grade science lesson adjusted for a SpEd classroom with a 3rd-grade reading level, focusing on how genes and proteins determine traits like spider silk flexibility and human running ability.

A comprehensive lesson exploring how the five sense organs collect data and send signals to the brain for processing. Students will learn the pathway from stimulus to perception through reading, mapping, and assessment.

A 10-session unit covering Virginia Standards 6.6 and 6.8, beginning with a water filter engineering challenge and progressing through water chemistry and watershed systems.

Synthèse de la notion de cellule et évaluation des acquis.

Observation d'organismes composés d'une seule cellule comme les levures ou les paramécies.

Observation des cellules animales à travers l'épithélium buccal humain.

Découverte du microscope et observation des cellules végétales d'oignon.

A comprehensive lesson exploring how the five senses collect data and how the brain processes that information to create our perception of the world. Students will map the neural pathways from organ to brain and identify specific brain regions responsible for each sense.

A comprehensive lesson exploring the five human sense organs, their functions, and essential care practices to maintain sensory health.

A 10-session unit covering Virginia Standards 6.6 and 6.8, beginning with a water filter engineering challenge and progressing through water chemistry and watershed systems.

A comprehensive lesson investigating aquatic ecosystems through leaf pack analysis. Students identify macroinvertebrates, explore their specialized adaptations, and evaluate how human activities impact water quality and biodiversity.

A post-dissection lesson focused on analyzing owl pellet data to understand ecological relationships and energy flow, with materials specifically designed for both 9th grade (quantitative analysis) and 5th grade (qualitative observation and basic food chains).

A cross-curricular lesson where students blend narrative arts with physical computing. Students use microcontrollers to create tangible interfaces that trigger digital story events, bridging the gap between physical objects and digital logic.