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Infographic: Genomics-Driven Oncology Thanks to advances in oncology over the past decade, doctors are better able to diagnose and treat cancer, and ultimately, improve outcomes for patients. Dr. Neil Lamb of HudsonAlpha explains how. View »
What's the Big Idea? Understanding the Laboratory Experience in the AP* Chemistry Curriculum If you teach AP* Chemistry, you’re already aware, or need to be, that changes to the course curriculum are here, which means you’ll probably have to change your classroom instruction. To help relieve your anxiety, here’s an overview of the course revisions, some important dates to remember, and 2 ways Carolina can help to ensure your success during this transition. View »
All About Owl Pellets Owl pellet dissections are fun, hands-on, and educational for students of all ages.Plus the activity can build toward several NGSS standards across grade levels. View »
5 Steps to Teaching Inquiry in Your Science Classroom Worried about the inquiry lab requirement of the College Board's AP lab curriculum? Here are some great tips from an educator who's already done it. View »
Using the Concepts Associated with Providing Clean Drinking Water to Teach Science: An Interdisciplinary Approach Introducing students to the issues associated with safe drinking water is a great real-world, interdisciplinary way to teach science. View »
Basic Right Triangle Trigonometry Brief review of the basic trigonometry functions (sine, cosine and tangent) often used when solving two dimensional and projectile motion problems. View »
The Basics of Graphs and Charts When conducting experiments, scientists rely on graphs to convey the data they obtain. But with so many kinds of graphs available, how do they know which one to choose? For the young scientists in your classroom, this can sometimes be a difficult decision to make. View »
Hands-On Learning that Truly Works—A Case Study A teacher trainer discovers a robust, workable solution to help teachers statewide establish science know-how in their students early on. View »
From Jellyfish to the Bench: How Green Fluorescent Protein Is Used in Research Students may be familiar with green fluorescent protein (GFP) from classwork or seeing transgenic animals in their local pet store. However, they may not know that it’s also an important research tool. Use this overview to help them discover how scientists use GFP to study many of the major questions in biology. View »
Case Study: Moving from Literacy to Fluency in STEM—A Recipe for Success A dedicated leader in national STEM education efforts turns to a trusted resource to help move students from literacy to fluency. View »
Phases of the Cell Cycle A concise take on the life cycle of a typical eukaryotic cell. View »
Infographic: Bring Your Genetics Lessons to Life with Model Organisms Carolina offers unique opportunities to work with model organisms—such as genetic corn (Zea mays), Wisconsin Fast Plants® (Brassica rapa), and fruit flies (Drosophila melanogaster)—in your genetics labs. View »
A Brief Look at Cells: Shape and Function Discover morphologies of common cells and why they are shaped in such ways View »
Infographic: Types Of Gears Learn about the many types of gears and where you may find them in the world around you. View »
Schoolyard Field Study Conduct a field study of your schoolyard with this activity. It’s an opportunity for students to apply what they’ve learned throughout the year. Students work in groups of 2 to 3 over several class periods. View »
The Science Behind Lactose Intolerance Rumbly tummy after that milkshake? It could be lactose intolerance. In this brief overview, we’ll examine its causes, symptoms, and genetic underpinnings—plus point you toward some resources for further investigation. View »
Infographic: Simple Machines This infographic profiles four of the six simple machines: inclined plane, pulley, lever, wheel and axle. View »
Carolina Investigations® for AP® Biology: Cell Communication This kit is an engaging inquiry lesson where students observe communication between yeast cells. View »
How to Make a Good Scientific Model Are your students able to generate observations and construct a scientific model? Use our free scientific model checklist to help guide them. View »
Carolina Investigations® for AP® Chemistry: Chemical Kinetics The order of a chemical reaction shows the relationship between the rate of chemical reaction and the concentration of reactant. View »
Carolina Investigations® for AP® Environmental Sciences: Agriculture and Feeding a Growing Human Population Use this resource and our scientific model checklist to construct a model of food production and consumption. View »
Using Interactive Case Studies to Meet the New Science Standards Learn about the benefits of using Interactive Case Studies to teach science concepts View »
Measuring pH: Indicators, Paper, and Meters Many activities require pH testing, including chemistry titrations, environmental science water quality testing, and biological processes labs. This article covers tools and techniques. View »
AP® Chemistry: Graphing Titration Curves Students graph titration data and determine if an acid is monoprotic, diprotic, or triprotic. View »
AP® Environmental Science: Population Growth Curve Analysis Students identify types of growth curves and explain how a population is changing over time. View »
Problem-Based and Project-Based Learning—Together at Last Bring real-world relevance into your classroom with an approach that combines problem-based learning and project-based learning. This article includes 2 scenarios from Wake/UTD PBL, a leading resource for integrative learning experiences. View »
AP® Free-Response Questions: Dos and Don’ts Flo Gullickson, an experienced AP® Environmental Science teacher and exam reader, shares tips on how to approach free-response questions. View »
Gravity This brief introduction to gravity explores Newton's law of gravitation, Einstein's theory of general relativity, and quantum gravity. View »
Integrating Engineering into the Science Classroom with Carolina STEM Challenge® Kits Carolina STEM Challenge® kits can help you integrate engineering principles into your curriculum--in ways that are effective, easy, and fun. Find out how in this white paper. View »
Gathering, Visualizing, and Interpreting Data AP® science exams require students to perform calculations and to visualize and interpret data. We can help you make data collection and analysis a key part of your students’ classroom experience. View »
Innovative STEM Funding Program Engages Local Community See how one educator uses creative funding to provide her district's students with quality STEM materials. View »
Writing for Assessments Use these resources to help your students practice writing for assessments. Each prompt includes explanatory information about techniques, examples, and practice questions. View »
Fast Plants® Seeds: Which Genetic Stock Do I Use? Wisconsin Fast Plants are ideal model organisms for the study of genetic inheritance. Learn more about seed varieties. View »