Students analyze the causes and consequences of deforestation, mapping habitat fragmentation and designing collaborative, science-based conservation solutions.

Students investigate the rainforest as a massive climate-control engine, analyzing how evapotranspiration regulates weather and how trees act as vital global carbon sinks.

Students explore the structural layers of the rainforest (forest floor, understory, canopy, emergent layer) and model biodiversity and physical conditions across these strata.

An AP Chemistry lesson exploring solubility rules, net ionic equations, particulate representations, and the mathematical link to Ksp and equilibrium shifts. Students engage with interactive station-based task cards simulating real laboratory precipitates.

A dynamic lesson introducing the five core forms of energy: kinetic, potential, thermal, chemical, and electrical. This lesson utilizes highly engaging visual slides and structured templates to help students compare, contrast, and identify energy transformations.

A Station Rotation Lab lesson focusing on natural selection and survival of the fittest using the real-world Rock Pocket Mouse scenario, designed to be high school special education friendly.

A comprehensive graphing skills lesson in biology. Students will learn how to parse, select, and construct five key graph types (pie, line, bar, double line, and logarithmic graphs) using authentic biological datasets.

A comprehensive MCAS Chemistry preparation module containing a visual-heavy study guide, a high-structure test-taking checklist/reference sheet, and a detailed teacher answer guide.

An in-depth investigation into the ecological, cellular, and evolutionary mechanics of trees. Students analyze carbon sequestration, vascular transport, angiosperm vs. gymnosperm taxonomy, and design conservation strategies.

Étude de l'écophysiologie végétale, de la classification et des critères de reconnaissance des végétaux. Ce module montre comment les plantes s'adaptent aux contraintes environnementales (stress hydrique, sol, climat) et comment ces connaissances guident les choix professionnels d'aménagement et de culture.

Approche de la biologie de la reproduction végétale (fleur, graines, pollinisation) et des techniques de multiplication horticole. Les élèves étudient l'anatomie florale, les cycles de développement et pratiquent des gestes techniques professionnels (bouturage, greffage).

Exploration de la physiologie et de la nutrition végétale. Ce chapitre analyse le processus de photosynthèse, la respiration cellulaire, la transpiration foliaire, l'absorption de l'eau et des minéraux par les racines et la double circulation des sèves.

Étude de l'anatomie et de la morphologie des plantes horticoles et forestières. Les élèves apprennent à identifier les organes principaux (racines, tiges, feuilles, bourgeons), la structure des tissus végétaux et leur importance pour les pratiques professionnelles de taille et d'entretien.

Une leçon adaptée pour maîtriser les bases de la plantation de cacaoyers en agriculture syntropique, spécialement conçue pour les élèves ayant des difficultés de compréhension des consignes. Elle s'articule autour d'une fiche de synthèse illustrée et d'un cahier d'exercices d'assimilation.

A creative science project lesson where students design a travel brochure or guided tour for a real-world ecosystem, integrating ecology concepts like biodiversity, disruptions, and conservation.

A rigorous, Georgia Milestones Biology EOC-aligned formative assessment pack focusing on the characteristics of life and homeostasis. This lesson contains highly structured bellringers, daily exit tickets, a diagnostic-style quiz, and a comprehensive teacher answer key and guide emphasizing graph, variable, and experimental data analysis.

A targeted prep lesson designed to master positive and negative feedback loops for the Georgia Milestones Biology EOC assessment. Includes rigorous, standards-aligned practice questions and a detailed teacher explanation guide.

An assessment-focused lesson designed to test 9th-grade students on the structure and function of the four major biological macromolecules: carbohydrates, lipids, proteins, and nucleic acids.

A 9th-grade biology lesson focused on the structure, monomers, and functions of the four major biological macromolecules (carbohydrates, lipids, proteins, and nucleic acids). Students will explore how these molecules build life and demonstrate mastery through a rigorous, I-Learn styled quiz.

A rigorous assessment and practice suite designed to prepare students for standardized science exams. It focuses on the characteristics of life through scenario-based multiple-choice questions and evidence-based experimental data analysis.

A custom accommodated quiz pack on genetics, designed specifically for students with reading, writing, math, and executive functioning challenges. Includes a highly scaffolded student quiz and a comprehensive teacher answer key with pedagogical guidance.

A scaffolded 2-page assessment and corresponding answer key covering prokaryotic and eukaryotic cells, including bacteria, plant, animal, and human cells. Features visual matching, labeling with word banks, sentence frames, and guided sentence starters, scaled to 50 points total.

A comprehensive biology lesson on homeostasis and biological feedback mechanisms, aligned with Indiana Academic Standard Biology B.1.4. The lesson includes a highly visual slide deck and matching guided student notesheets with graphic organizers and real-world case studies.

A highly visual, scaffolded assessment and corresponding answer key covering atmospheric layers, resource classification, carbon footprints, biological levels, trophic webs, ice proxies, and photosynthesis.

An integrated science and social studies lesson exploring how regional ecosystems and native species supported historical Indigenous communities across North America. Students analyze the ecological relationships and cultural adaptations of three distinct regions.