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Classroom Activities

  • Exploring Air Resistance Investigate the relationship between velocity and air resistance. View »
  • Demonstration of Constant Acceleration Introduce the concept of constant acceleration with this engaging and challenging activity. View »
  • Determining Charge with an Electroscope Determine the polarity of materials charged with static electricity by using an electroscope. View »
  • Electricity and Magnetism Electricity and magnetism are mentioned together so often they must be related. How are they connected? How can their relationship be used to make beneficial technology? Here’s a quick lab activity that can help your students find the answers to these questions. View »
  • Simplifying Circuits In this activity, students build and test various circuits while investigating how electric circuits work. View »
  • Teaching Hardy Weinberg in the classroom In order for allele and genotype frequencies to remain stable in a given population, certain conditions must be met. But what happens when these conditions aren’t met? Help your students understand the Hardy-Weinberg principle by modeling a population of edible treats. View »
  • Solar Cell Misconceptions All of your students have seen photovoltaic solar cells used in a variety of ways; however, students may have misconceptions in understanding what influences solar cell output. This activity sets the record straight and explores how ambient temperature and the angle of illumination can affect solar cell output in volts. View »
  • The Conical Pendulum A great activity for physics classes investigating centripetal force and uniform circular motion. View »
  • Under The Dome: Demonstrations with a Vacuum Pump Get out your vacuum pump for engaging activities and demonstrations designed to enrich your lessons on the properties of gases. View »
  • Newton’s Laws, Friction, and Hovercraft With this Carolina Essentials™ activity, students build a simple hovercraft that illustrates Newton’s laws of motion and frictional force. View »
  • Ring and Disc Demonstration Gain a deeper understanding of the classic ring and disc physics demonstration designed to introduce the concepts of rotational inertia, rotational motion, and rolling motion. View »
  • The Problem with Pulleys Build and test working models of pulley systems commonly used in problems in physics texts and tests. View »
  • Invasion! Invasion! Engage life science students by investigating a fascinating topic: invasive species. Here’s a lesson plan outline to help you get started. Based on the KWL chart, it guides you through 4 days of invasive species activities that introduce the topic, guide research, and culminate in a research project. View »
  • The Triboelectric Series: An Introduction for Static Electricity Labs A reference for static electricity labs View »
  • Sticky-Tape Electroscope Most everyone has seen static electricity in action. Your unit on electricity probably includes 1 or 2 demos of it. Do more with your next lesson on static electricity by making it a lesson on the scientific method, using this easy, inexpensive activity. View »
  • What Makes You Shine? Your students will love making light-up name badges and sharing something special about themselves with this activity. Perfect as both an icebreaker and introduction to simple circuits, it’s one for the win. View »
  • Copying Nature’s Success: Teaching Students About Biomimetics Ready to create a model home that draws on biomimetics? In this activity, students research, design, and build structures that incorporate ideas inspired by the natural world. View »
  • Easy Variation and Natural Selection Lessons with Wisconsin Fast Plants® Seed Disks Explore a technique that makes teaching variation and natural selection lessons with Fast Plants® easier than ever. In this activity, students examine the effects an abiotic environmental change (salinity) has on an experimental plot of Fast Plants®. Includes detailed background information and instructions. View »
  • A Powerful Approach to Flipped Learning What do you get when you merge the effectiveness of flipped learning with the meaningful experiences and critical thinking supported by inquiry? Engaged students, and lessons that get results. See how science teacher Brian Bennett combines the flipped learning and inquiry methods for impactful learning. View »
  • Biology in the Movies See how you can use movies to facilitate engaging learning experiences for your students. Each suggestion includes a brief synopsis and talking points. Here’s to making your biology lessons even better than before. View »
  • Carolina Quick Tips®: Carolina STEM Challenge®: Balloon Rockets Design a balloon rocket to carry a payload of pennies the farthest distance on a string track. Before beginning the challenge, students should be familiar with Newton’s first and second laws of motion. This activity focuses on the third law. View »
  • Force Awakens Magnetism is an example of a non-contact force that occurs when objects are not touching. In this activity, students investigate how magnets create a force field that can attract and repel objects. Includes a materials list and step-by-step instructions. View »
  • Maggot Michelangelos: Using Artwork to Gain Behavioral Insight In this activity, students use house fly larvae to answer morphological and behavioral questions—all while creating unique artwork! Students create and test hypotheses, and learn about the complete metamorphosis life cycle. View »
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