Learn how important the honey bee's body structure is to survival in the hive. This lesson includes learning objectives, material and resource lists, background information, activities, reading selections, writing assignments, a game, assessments, and support documents. See the Educator's Guide for more video links and recommended readings.
Learn the importance of each and every job within the hive! This lesson includes learning objectives, material and resource lists, background information, activities, reading selections, writing assignments, a game, assessments, and support documents. See the Educator's Guide for more video links and recommended readings.
Learn how honey bees work together as a hive to provide for their own needs while pollinating our planet's flowers! This lesson includes learning objectives, material and resource lists, background information, activities, reading selections, writing assignments, a game, assessments, and support documents. See the Educator's Guide for more video links and recommended readings.
Learn how honey bees manage their community through swarming. This lesson includes learning objectives, material and resource lists, background information, activities, reading selections, writing assignments, a game, assessments, and support documents. See the Educator's Guide for more video links and recommended readings.
Learn how honey is made and used. This lesson includes learning objectives, material and resource lists, background information, activities, reading selections, writing assignments, a game, assessments, and support documents. See the Educator's Guide for more video links and recommended readings.
Students discuss the migration of monarch butterflies as an example of behavioral adaptations, then act out the behavioral adaptations of organisms in charades.
Students synthesize their understanding of adaptations by playing a “go fish” style game to collect sets of organisms with physical and behavioral adaptations.
Educators Guide for this unit:
Lessons in this unit:
Adaptations Activity 1: Adapting to the Environment
Adaptations Activity 2: Physical Adaptations
Adaptations Activity 3: Behavioral Adaptations
Adaptations Activity 4: Go Adapt!
Adaptations Activity 5: Create a Creature
Bycatch, the unintended capture of animals in commercial fishing gear, is a hot topic in marine conservation today. The surprisingly high level of bycatch about 25% of the entire global catch is responsible for the decline of hundreds of thousands of dolphins, whales, porpoises, seabirds and sea turtles each year. Through this curricular unit, students analyze the significance of bycatch in the global ecosystem and propose solutions to help reduce bycatch. They become familiar with current attempts to reduce the fishing mortality of these animals. Through the associated activities, the challenges faced today are reinforced and students are stimulated to brainstorm about possible engineering designs or policy changes that could reduce the magnitude of bycatch.
In the first of two sequential lessons, students create mobile apps that collect data from an Android device's accelerometer and then store that data to a database. This lesson provides practice with MIT's App Inventor software and culminates with students writing their own apps for measuring acceleration. In the second lesson, students are given an app for an Android device, which measures acceleration. They investigate acceleration by collecting acceleration vs. time data using the accelerometer of a sliding Android device. Then they use the data to create velocity vs. time graphs and approximate the maximum velocity of the device.
In this unit of study students learn how an animal's body structure and behavior help it survive in its habitat. 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.
This lesson explores the similarities between how a human being moves/walks and how a robot moves. This allows students to see the human body as a system, i.e., from the perspective of an engineer. It shows how movement results from (i) decision making, i.e., deciding to walk and move, and (ii) implementing the decision by conveying the decision to the muscle (human) or motor (robot).
This sequence of instruction was developed in the Growing Elementary Science Prjoject to help elementary teachers who were working remotely. We developed a short storyline that ties together a few sessions to help explore a specific concept. We tried to include some activities that honored and included the student’s family and experience, and some that included the potential for ELA learning goals. In this Unit of Instruction, students observe animal behaviors - both in video format and in their own neighborhoods - then create a model to explain how these behaviors help the animals meet their needs. It is part of ClimeTime - a collaboration among all nine Educational Service Districts (ESDs) in Washington and many Community Partners to provide programs for science teacher training around Next Generation Science Standards (NGSS) and climate science, thanks to grant money made available to the Office of the Superintendent of Public Instruction (OSPI) by Governor Inslee.
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.
Students drop marbles into holes cut into shoebox lids and listen carefully to try to determine the materials inside the box that the marbles fall onto, illustrating the importance of surface composition on dolphins' abilities to sense materials, depth and texture using echolocation. This activity builds on what students learned in the associated lesson about bycatching by fisheries and how it affects marine habitats and species, especially dolphins. Students learn how echolocation works, why certain animals use it to determine the size, shape and distance of objects, and how people can take advantage of dolphins' echolocation ability when developing bycatch avoidance methods.
Few people are aware of how crucial the sense of smell is to identifying foods, or the adaptive value of being able to identify a food as being familiar and therefore safe to eat. In this lesson and activity, students conduct an experiment to determine whether or not the sense of smell is important to being able to recognize foods by taste. The teacher leads a discussion that allows students to explore why it might be adaptive for humans and other animals to be able to identify nutritious versus noxious foods. This is followed by a demonstration in which a volunteer tastes and identifies a familiar food, and then attempts to taste and identify a different familiar food while holding his or her nose and closing his or her eyes. Then, the class develops a hypothesis and a means to obtain quantitative results for an experiment to determine whether students can identify foods when the sense of smell has been eliminated.
In this activity, students will experience echolocation themselves. They actually try echolocation by wearing blindfolds while another student makes snapping noises in front of, behind, or to the side of them.
In this activity, students will record a list of things they already know about hummingbirds and a list of things they would like to learn about hummingbirds. Then they will conduct research to find answers to their questions. Using their new knowledge, each student will make a hummingbird out of art supplies. Finally, using their hummingbirds as props, the students will play charades to test each other in their knowledge of the ruby-throated hummingbirds. The purpose of this activity is to provide students with information on ruby-throated hummingbirds, provide students with the opportunity to conduct research on hummingbirds in topic areas that interest them, and to provide students with opportunities to share their knowledge with other students. By completing this activity, students will gain knowledge about ruby-throated hummingbirds. They will also gain experience researching a topic of their choosing related to hummingbirds and communicating those results in several different formats.
Students will observe the physical characteristics of flowers and explore the principles of pollination with this 3rd-5th grade lesson. From Bee Dancing to flower direction, this lesson will engage young minds and explore the miracle of flower reproduction with some amazing little pollinators!
Elementary Science and Integrated Subjects is a statewide Clime Time collaboration among ESD 123, ESD 105, and the Office of Superintendent of Public Instruction. Development of the resources is in response to a need for research- based science lessons for elementary teachers that are integrated with English language arts, mathematics and other subjects such as social studies. The template for Elementary Integration can serve as an organized, coherent and research-based roadmap for teachers in the development of their own NGSS aligned science lessons. Lessons can also be useful for classrooms that have no adopted curriculum as well as to serve as enhancements for current science curriculum. The EFSIS project brings together grade level teams of teachers to develop lessons or suites of lessons that are 1) focused on grade level Performance Expectations, and 2) leverage ELA and Mathematics Washington State Learning Standards.
- Environmental Science
- Environmental Studies
- Elementary Education
- English Language Arts
- Reading Informational Text
- Life Science
- Material Type:
- Lesson Plan
- Teaching/Learning Strategy
- Georgia Boatman
- Washington OSPI OER Project
- Kimberley Astle
- Ellen Ebert
- Barbara Soots
- Date Added: