Percent Increase and Decrease Quiz
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AP Biology Unit 7 Case Study: The Disappearing Fur Pattern
🧬 AP Biology Unit 7 Case Study: The Disappearing Fur Pattern 📊 Evolution, Natural Selection, Hardy-Weinberg, Chi-Square AnalysisEngage your students with a real-world, data-driven evolution case study that brings natural selection and population genetics to life! In this high-interest activity, students investigate a population of snowshoe hares experiencing environmental change due to decreasing snowfall and climate shifts, leading to increased predation and rapid evolutionary pressure
9th - 12th
Biology
CCSS
RST.11-12.1
, RST.11-12.2
, RST.11-12.3
 +7
AP Bio Escape Room Evolution & Natural Selection — The Changing Population
Turn your classroom into a high-level evolutionary investigation with this engaging escape room that challenges students to analyze real population data and uncover the forces driving evolutionary change. Students will work through a series of data-driven stations to determine how and why a population is evolving—before the system becomes unstable. 🚨 The ScenarioA research team has detected rapid evolutionary changes in a population. Trait frequencies are shifting unexpectedly Environment
9th - 12th
Biology
CCSS
RST.11-12.1
, RST.11-12.2
, RST.11-12.3
 +7
Also included in: AP Biology FULL YEAR MEGA BUNDLE – 119+ Resources | Complete Curriculum
AP Biology Unit 5 Escape Room (Printable) The Genetic Breakdown
AP Biology Unit 5 Escape Room (Printable)Heredity & Molecular Genetics — (Word Document) Bring your genetics unit to life with this hands-on, interactive escape room that challenges students to solve a real-world problem using data analysis, critical thinking, and AP-level reasoning—no technology required. This printable Word document version allows students to work collaboratively through stations, crack codes, and determine where DNA transmission is breaking down. 🚨 The ScenarioA genetic
9th - 12th
Biology
CCSS
RST.11-12.1
, RST.11-12.2
, RST.11-12.3
 +7
Also included in: AP Biology FULL YEAR MEGA BUNDLE – 119+ Resources | Complete Curriculum
A.I. Character Chatbot Interview: Mendeleev | A.I. Literacy + STEM Physical Sci
Use Artificial Intelligence in your Science Class purposefully to explore the development of the Periodic Table and its properties, such as increasing atomic mass, by Interviewing Dmitri Mendeleev! Use MagicSchool (MagicStudent) Rooms to create a Scientific Historic Character for students to Interview by following the easy, included instructions, OR have students use the included "Role Prompt" with ChatGPT, Gemini, Copilot or Raina, for a fun and educational dive into Dmitri Mendeleev and the d
5th - 12th
Chemistry, General Science, Physical Science
NGSS
HS-PS1-1
, MS-PS1-1
The Arctic Algae Mystery: How Photosynthesis Thrives AP Biology Unit 3
Challenge your students with a real-world biological mystery in The Arctic Algae Mystery, an engaging AP Biology case study that explores how life adapts to extreme environments. In this investigation, students analyze why algae populations are increasing beneath melting Arctic ice—despite near-freezing temperatures that typically slow biological processes. Using authentic-style data and guided inquiry, students must determine how Arctic algae maintain high rates of photosynthesis by examining
9th - 12th
Biology
CCSS
RST.11-12.1
, RST.11-12.3
, RST.11-12.4
 +6
The Greenhouse Collapse: An AP Biology Case Study on Photosynthesis Unit 3
Description for Teachers Pay Teachers:Bring real-world problem solving into your classroom with The Greenhouse Collapse, an engaging AP Biology case study that challenges students to uncover why plant growth suddenly declines—even when light levels increase. In this investigation, students analyze a commercial greenhouse failure where oxygen levels rise, carbon dioxide drops, and plant health deteriorates. Through guided analysis, they must connect photosynthesis, cellular respiration, enzyme
9th - 12th
Biology
CCSS
RST.11-12.1
, RST.11-12.2
, RST.11-12.3
 +7
Beer-Lambert Law Colorimetry Lab Standard Curve + Unknowns + Answer Key
Teach students real lab chemistry with a classic technique used in hospitals and research labs every day. In this Colorimetry & Beer-Lambert Law Lab, students learn how spectrophotometers work, find λ-max, build a standard curve from serial dilutions, and use it to determine unknown concentrations—then calculate percent error and evaluate limitations of Beer-Lambert at high concentrations.This is a rigorous, data-driven, AP-friendly lab that builds quantitative confidence and produces clean grap
10th - 12th
Biology, Chemistry
Myasthenia Gravis Case Study DBQ | Muscle Contraction & Neuromuscular Junction
Clinical Case File: Myasthenia Gravis DBQ Engage your students with a real-world autoimmune disorder case study that connects muscle contraction physiology to observable symptoms. In this high-interest Document-Based Question (DBQ) activity, students step into the role of a pediatrician explaining a diagnosis of Myasthenia Gravis (MG) to a patient’s family. Through scaffolded document analysis, students explore how disrupted acetylcholine receptors impact neuromuscular signaling and muscle co
6th - 12th, Adult Education, Higher Education
Anatomy, General Science
Biology: Cells Under Pressure: IV Fluids, Osmosis, and Tonicity Case Study| A&P
Help students connect cell biology to real-world medicine! In this engaging, real-life case study, students step into the role of healthcare professionals as they explore how intravenous (IV) fluids affect cells at the microscopic level. Using a relatable medical scenario, learners investigate the principles of osmosis, osmotic pressure, and tonicity while analyzing the effects of isotonic, hypertonic, and hypotonic solutions on red blood cells. This activity is ideal for reinforcing cell mem
7th - 12th, Adult Education, Higher Education
Anatomy, Biology, Health
Hardy-Weinberg Lab: Mathematical Modeling (AP Biology)
🧬 AP Biology Hardy-Weinberg Lab Mathematical Modeling of Allele Frequencies (PTC Gene, Chi-Square, Population Genetics, Inquiry, FRQ Practice)Make population genetics clear, data-driven, and AP-ready with this engaging mathematical modeling lab where students apply the Hardy-Weinberg principle to real genetic data. In this inquiry-based investigation, students collect class data on the PTC tasting gene, calculate allele and genotype frequencies, and determine whether the population is in
9th - 12th
Biology
CCSS
RST.11-12.1
, RST.11-12.2
, RST.11-12.3
 +7
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