These activities cover topics in Solar System Astronomy, aligned with the OpenStax Astronomy textbook. Topics cover chapters 1-5, 6-13, and sections of 14 and 21 covering exoplanets. All activities are designed to be done in small groups in the classroom, but most can be adapted for use as homework or projects. Quantitative and Hands-on activities may be used as labs.

This is one part of an astronomy resource collection by Lane Community College. This collection was built by Andrea Goering (goeringa@lanecc.edu) and Richard Wagner (wagnerr@lanecc.edu), instructors of physics and astronomy at Lane Community College in Eugene, Oregon, USA. Development of these resources was funded through LCC's OER Initiative (https://inside.lanecc.edu/oer). We'd love to hear about your use of these resources! Let us know what you're using, sign up for updates, and submit corrections, suggestions, or comments here: https://forms.gle/un49RUNs55GU3ZNF6

These activities cover topics in Stellar Astronomy, aligned with the OpenStax Astronomy textbook. Topics cover chapters 1, 2, 5, 15-23, and sections of chapter 24 concerning black holes. All activities are designed to be done in small groups in the classroom, but most can be adapted for use as homework or projects. Quantitative and Hands-on activities may be used as labs.

This is one part of an astronomy resource collection by Lane Community College. This collection was built by Andrea Goering (goeringa@lanecc.edu) and Richard Wagner (wagnerr@lanecc.edu), instructors of physics and astronomy at Lane Community College in Eugene, Oregon, USA. Development of these resources was funded through LCC's OER Initiative (https://inside.lanecc.edu/oer). We'd love to hear about your use of these resources! Let us know what you're using, sign up for updates, and submit corrections, suggestions, or comments here: https://forms.gle/un49RUNs55GU3ZNF6

Find the full collection here: https://docs.google.com/spreadsheets/d/142FgVMDHZ7bu53gihe3kJ_-5PzsnuzfMklJ1ZLMFk2E/edit#gid=315930953

Selected resources provide three web-based activities to complement science lessons in an issue of Beyond Weather and the Water Cycle. The free, online magazine for Grades K-5 teachers explores the essential principles of climate literacy.

This resource includes three classroom-tested activities that were created using the ideas outlined in the article “Getting more out of animations” by Pruneski and Donovan (in press). The driving idea is that animations can be a powerful tool for learning complex biological processes, but when students are passive viewers, it limits their usefulness and may become simply another source of content to be memorized. Engaging students with animations can greatly increase the amount of information that can be extracted and can help students develop important learning skills that can be useful in the future.

These sample assignments help make the use of animations more effective and active by structuring student viewing using guiding questions. These questions focus on particular objects, features, or steps of the process to help students accomplish specific learning objectives for that topic. The assignments also help students think about animations as media objects that are created by scientists and animators using specific tools and conventions that affect how the process is depicted and the ways in which it should be viewed. Lastly, by comparing and contrasting multiple animations of the same process, students can extract more information, overcome the limitations of each individual animations, and generate a more complete view of the process.

In the minerals and products activity, students match physical products with actual mineral samples, using observable properties as well as the minerals' chemical formulas and some products' ingredient lists.

(Note: this resource was added to OER Commons as part of a batch upload of over 2,200 records. If you notice an issue with the quality of the metadata, please let us know by using the 'report' button and we will flag it for consideration.)

This activity focuses on the interrelationships of ore grades, economics, mining impacts/decisions, and other factors. It is intended as a small-group activity, where different groups of students work on one of three different parts, with classroom discussion as a follow-up.

(Note: this resource was added to OER Commons as part of a batch upload of over 2,200 records. If you notice an issue with the quality of the metadata, please let us know by using the 'report' button and we will flag it for consideration.)

Effective measurement techniques include the concept of measurement uncertainty. Students may make erroneous conclusions analyzing data using measurements that do not include the uncertainty of the measurement. In this lab, students determine a density range for a metal and identify the material based on this range.

Here is a weekly activity log template to help students record their weekly physical activity.

This is a lab activity that allows students to collect data to practice using effective measurement. While other authors have produced similar labs, this version includes uncertainty analysis consistent with effective measurement technique as presented in the module Measurement and Uncertainty.

In this project, students will start by discussing the strengths and weaknesses of existing activity trackers and determining the variables that affect the accuracy of these trackers. Students will then conduct interviews with people who wear activity trackers or wear a tracker themselves for a week to determine the pros, cons, and accuracies of the trackers. Then, codes and algorithms will be used to determine what should count as the threshold for a step to achieve maximum tracker accuracy by using Sparkfun Inventor's Kit, Raspberry Pi, and Linux.

Wild Ride is an activity that can be used with students, but was used in the introductory workshop as a way to engage teachers in an initial engineering design activity and to reflect on the experience as a student and as a teacher.

Adapt is an online homework system that exists within the LibreTexts platform. Instructors can create courses and assignments for students. Course shells for preparatory chemistry, general chemistry, analytical chemistry, and organic chemistry are available in the commons area.

An alternative introduction to the chapter "Adapting and Living Together" - explained with Vamipres! It sits within the Ecology and Environment topic of the virtual school GCSE Biology. Teachers can choose which engagement video is better for their own uses and students.

Learn about how organisms adapt to their habitats. This video is part of The Virtual School's "Adapting and Living Together" chapter within our Ecology and Environment topic.

After learning about and exploring plant and animal adaptations, students research local organisms with interesting adaptations and share findings with their classmates. Students identify adaptations globally by analyzing a documentary.

Educators Guide for this unit:
http://education.eol.org/lesson_plans/2-5_Adaptations_LessonOverview.pdf

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

Students explore the adaptations that allow beavers to thrive in aquatic environments, then make observations and inferences about the functions of diverse bird beaks.

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:
http://education.eol.org/lesson_plans/2-5_Adaptations_LessonOverview.pdf

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

Students apply their understanding of adaptations by designing their own organisms to survive in different habitats.

Educators Guide for this unit:
http://education.eol.org/lesson_plans/2-5_Adaptations_LessonOverview.pdf

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

If you could create a new creature, what adaptations would it have and why? In this activity students design a trait card for an organism using behavioral and physical adaptations to help it survive in its environment.

This activity first asks the students to study the patterns of bird flight and understand that four main forces affect the flight abilities of a bird. They will study the shape, feather structure, and resulting differences in the pattern of flight. They will then look at several articles that feature newly designed planes and the birds that they are modeled after. The final component of this activity is to watch the Nature documentary, "Raptor Force" which chronicles the flight patterns of birds, how researchers study these animals, and what interests our military and aeronautical engineers about these natural adaptations. This activity serves as an extension to the biomimetics lesson. Although students will not be using this information in the design process for their desert resort, it provides interesting information pertaining to the current use of biomimetics in the field of aviation. Students may extend their design process by using this information to create a means of transportation to and from the resort if they chose to.