Ever wonder how honey gets from the bee to the table? Join the Bee Cause Project and avid beekeeper, Ted Dennard, on this immersive 360 video to find out just how those amazing bees do it! The National Honey Board has created an amazing look into the life of beekeepers and into the hive. We've created a lesson plan full of resources including science lessons, video links, and a full set of step-by-step printable cards for demonstrating the process of how honey is made!
Our mission is to inspire the next generation of environmental stewards while protecting our planet's most precious pollinators. The resources we have provided are designed to engage students through observation-based and hands-on learning with a little help from our tiny friends -- the bees! This unit of study has ample resources including teacher guides, video links, material lists, background information, standards mapping, and engaging work for students.
We are surrounded everyday by circuits that utilize "in parallel" and "in series" circuitry. Complicated circuits designed by engineers are made of many simpler parallel and series circuits. In this hands-on activity, students build parallel circuits, exploring how they function and their unique features.
Everyday we are surrounded by circuits that use "in parallel" and "in series" circuitry. Complicated circuits designed by engineers are composed of many simpler parallel and series circuits. During this activity, students build a simple series circuit and discover the properties associated with series circuits.
In the previous lesson, we learnt about the properties of a solid, liquid and gas matter/ material. in this lesson you will learn how some materials can be changed from a solid, liquid and gas by heating or cooling the material.
In the exploration of ways to use solar energy, students investigate the thermal energy storage capacities of different test materials to determine which to use in passive solar building design.
Elementary grade students investigate heat transfer in this activity to design and build a solar oven, then test its effectiveness using a temperature sensor. It blends the hands-on activity with digital graphing tools that allow kids to easily plot and share their data. Included in the package are illustrated procedures and extension activities. Note Requirements: This lesson requires a "VernierGo" temperature sensing device, available for ~ $40. This item is part of the Concord Consortium, a nonprofit research and development organization dedicated to transforming education through technology. The Consortium develops digital learning innovations for science, mathematics, and engineering.
Students make a simple conductivity tester using a battery and light bulb. They learn the difference between conductors and insulators of electrical energy as they test a variety of materials for their ability to conduct electricity.
“Circuit” comes from the same root word as “circle” because of the way a circuit works. A wire, connected to a power source, makes contact with a device requiring power to function or operate. A second wire runs from the device back to the power source. These connections make a pathway, allowing electrons to flow through the “circle” of wires.
This lesson introduces students to the fundamental concepts of electricity. This is accomplished by addressing questions such as "How is electricity generated," and "How is it used in every-day life?" The lesson also includes illustrative examples of circuit diagrams to help explain how electricity flows.
Students learn about current electricity and necessary conditions for the existence of an electric current. Students construct a simple electric circuit and a galvanic cell to help them understand voltage, current and resistance.
Students search for clues of energy around them. They use what they find to create their own definition of energy. They also relate their energy clues to the engineering products they encounter every day.
This six-day lesson provides students with an introduction to the importance of energy in their lives and the need to consider how and why we consume the energy we do. The lesson includes activities to engage students in general energy issues, including playing an award-winning Energy Choices board game, and an optional graphing activity that provides experience with MS Excel graphing and perspectives on how we use energy and how much energy we use.
In this unit of study students learn about energy and energy transfer. They focus on how to use energy transfer to solve a problem. This unit integrates nine STEM attributes and was developed as part of the South Metro-Salem STEM Partnership's Teacher Leadership Team. Any instructional materials are included within this unit of study.
In this introduction to light energy, students learn about reflection and refraction as they learn that light travels in wave form. Through hands-on activities, they see how prisms, magnifying glasses and polarized lenses work. They also gain an understanding of the colors of the rainbow as the visible spectrum, each color corresponding to a different wavelength.
Students are introduced to sound energy concepts and how engineers use sound energy. Through hands-on activities and demonstrations, students examine how we know sound exists by listening to and seeing sound waves. They learn to describe sound in terms of its pitch, volume and frequency. They explore how sound waves move through liquids, solids and gases. They also identify the different pitches and frequencies, and create high- and low-pitch sound waves.
Students use electricity every day. It is important to know how it works. Why does the light come on when they flip the switch? With a simple knowledge of circuits, students will understand how electrical energy moves from one place to another. Students will provide evidence to describe why the light bulb turned on, including the idea that energy can be transferred from place to place by electrical currents.
Students are introduced to the idea of electrical energy. They learn about the relationships between charge, voltage, current and resistance. They discover that electrical energy is the form of energy that powers most of their household appliances and toys. In the associated activities, students learn how a circuit works and test materials to see if they conduct electricity. Building upon a general understanding of electrical energy, they design their own potato power experiment. In two literacy activities, students learn about the electrical power grid and blackouts.
Students gain an understanding of the difference between electrical conductors and insulators, and experience recognizing a conductor by its material properties. In a hands-on activity, students build a conductivity tester to determine whether different objects are conductors or insulators. In another activity, students use their understanding of electrical properties to choose appropriate materials to design and build their own basic circuit switch.
Did you know that honey bees dance? Or that they build their homes out of perfectly formed honeycomb? The Digital Hive Experience was created to educate about the inside of a beehive and our friends, the honey bees. Pair the Digital Hive Video with the companion Educator’s Guide! Included are a lesson plan mapped to the Common Core and NGSS, pre and post-assessments, discussion questions, and a KWL Chart for your students! Perfect for a classroom introduction or for programs that may not have live bees, we hope you enjoy your journey into the hive!