An introductory lesson on the history, mechanics, and application of the Pigpen Cipher, perfect for middle school students exploring cryptography.

A deep dive into the motivations, theories, and psychological challenges of interstellar exploration and first contact.

A high-energy, 30-minute review session focused on covalent bonding. Students act as secret agents in 'Operation Valence,' solving puzzles related to electron sharing, Lewis structures, and molecular naming to 'unlock' a digital vault.

A series of hands-on, unplugged activities designed to teach Python data types and variables through tactile sorting, logic puzzles, and matching games. Focused on accessibility and clarity for students with diverse learning needs.

An introductory lesson on the fundamentals of heredity, focusing on dominant and recessive traits, and the distinction between genotype and phenotype.

Final assessment of the unit through a formal quiz and the final evaluation of the 3D ear model project.

Students examine the social, emotional, and practical impacts of hearing loss on daily life and reflect on their own 3D project creation.

A deep dive into hearing technology, specifically comparing the functions and surgical/non-surgical aspects of hearing aids and cochlear implants.

An introduction to the field of audiology, where students learn how hearing is measured and practice reading and plotting data on an audiogram.

Students explore the anatomy of the ear and begin their journey into the 3D ear model project, learning how sound travels through the outer, middle, and inner ear.

A comprehensive lesson exploring the four terrestrial planets of our solar system: Mercury, Venus, Earth, and Mars. Students will learn about their unique physical characteristics, atmospheres, and how they compare to one another through a mission-themed presentation and interactive activities.

A comprehensive lesson on metamorphic rocks, covering the processes of heat and pressure, regional vs. contact metamorphism, and the identification of foliated and non-foliated rocks.

A comprehensive lesson on igneous rock formation, classification, and identification, focusing on the relationship between cooling rates and crystal size.

A comprehensive lesson exploring the subatomic structure of the nucleus, the balancing act of the strong force, and the resulting phenomena of radioactivity. Students learn why the nucleus stays together despite intense repulsion and what happens when that balance shifts.

A fast-paced, hands-on lab where students simulate the chemical and physical breakdown of food in the small intestine using common household materials to understand liquefaction and absorption.

Students apply their knowledge by creating a creative project (comic, brochure, or script) that constructs a scientific explanation of the matter and energy cycle.

Students explore the chemical equations and conceptual links between photosynthesis and cellular respiration, focusing on how energy enters as sunlight and is stored in chemical bonds.

Mesurer l'intensité d'une force à l'aide d'un dynamomètre et comprendre l'unité de mesure, le Newton.

Apprendre à modéliser une action mécanique par une force, représentée par un vecteur (segment fléché) avec ses quatre caractéristiques.

Introduction aux concepts d'action mécanique et d'interaction, en distinguant les actions de contact et à distance.

A comprehensive review lesson focused on the mechanics of weather patterns, specifically evaporation, condensation, and the thermodynamics of rising air parcels in the troposphere. Students will engage in vocabulary practice, conceptual multiple-choice questions, and a data-driven CER response to prepare for their unit quiz.

This lesson explores the hierarchical taxonomic system used to classify all living things, from the broad domains down to specific species. Students will learn the characteristics of the six kingdoms and understand how binomial nomenclature provides a universal language for scientists.

A 3-day paper-based lab investigation where students use the scientific method to explore the interdependent relationship between photosynthesis and cellular respiration using a simulated Bromothymol Blue (BTB) experiment.

A comprehensive review of Earth's history, the rock cycle, and the hydrosphere's role in shaping our planet, designed specifically for NC EOG preparation. Students analyze fossil evidence and geologic dating methods to reconstruct Earth's past.