A resource pack designed to help accounting students identify missing work and schedule necessary tests to improve their grades.
An instructional sequence exploring cellular growth, cell division, and cellular energetics. Students investigate multicellular regrowth and regeneration (HS-LS1-4) and model the transformation of solar energy into chemical energy via photosynthesis (HS-LS1-5).
An inquiry-based lesson on cellular energy conversion (NGSS HS-LS1-5). Students investigate how chloroplasts capture and convert solar light energy into stored chemical energy (carbohydrates) through graphical and mathematical modeling.
A comprehensive teacher-facing answer key and instructional rubric for the Solar Synthesis Showdown. Features detailed mathematical solutions, chemical stoichiometry step-by-step breakdowns, and guides on standard HS-LS1-5.
A comprehensive high school biology unit investigating the structure, function, and hierarchical organization of living systems, aligned to NGSS standards.
An in-depth lesson exploring tissue regeneration in planaria and axolotls to address NGSS HS-LS1-4. Students engage with an 'I-Learn' style reading on stem cells, mitosis, and differentiation, followed by a scaffolded, data-focused quiz with guided scientific analysis.
An interdisciplinary graphing and math worksheet for HS-LS1-5. Features an SVG graph of photosynthetic rate vs. light intensity under varying CO2 levels, paired with conceptual multiple-choice and step-by-step math problems on stoichiometry and rate calculations.
A comprehensive study and exam preparation sequence covering introductory organic chemistry (hydrocarbons, functional groups, reactions) and aqueous acid-base equilibria (pH, neutralization, buffers) designed for college-level introductory chemistry.
An inquiry-based biology lesson investigating the structural hierarchy and interactions of multicellular organ systems during physiological demands (NGSS HS-LS1-2).
An interdisciplinary math-integration worksheet featuring three simplified data-analysis problems (calculating mean, identifying median/mode, and calculating percent change) using the mitotic index graph data.
A comprehensive, 36-week General Biology curriculum aligned with Indiana Academic Standards, emphasizing the integration of biochemical foundations and metabolic homeostasis across all units.
A standard-aligned biology lesson focused on how DNA structure determines protein shape, function, and cell specialization (NGSS HS-LS1-1).
An interactive graphing worksheet featuring a custom SVG line graph depicting cell division (mitotic index) over time in planarian and axolotl regeneration, followed by conceptual graph-interpretation multiple-choice questions.
