This unit launches with students hearing about an injury that happened to a middle school student that caused him to need stitches, pins, and a cast. They analyze doctor reports and develop an initial model for what is going on in our body when it heals. Students investigate what the different parts of our body are made of, from the macro scale to the micro scale. They figure out parts of our body are made of cells and that these cells work together for our body to function.

This unit is part of the OpenSciEd core instructional materials for middle school.

Students will explore the impact of space travel on the human body and ways NASA equips their astronauts to live in this environment.

This rubric will help assess student designs for technology to help lessen the effects of one of the health problems associated with sending people into space.

This book is intended for use by future teachers, written from the perspective of students who have taken Science Methods II. The student authors gathered and created resources to help prospective elementary cience teachers better understand science and feel confident in your abilities as a future teacher.
This book is divided into five parts which align with the Science Methods II course:

Physics
Space Science
Earth Science
Climate Science
Course Materials and Pedagogy

Within each part, the material is broken down into smaller chapters. Here you will find written explanations, video links, glossary terms, key takeaways, and practice quizzes to help you understand the material. This book is designed to be a flexible resource; use it as much or as little as you need throughout the course.

In this lesson on the brain's neural networks, students investigate the structure and function of the neuron. They discover ways in which engineers apply this knowledge to the development of devices that can activate neurons. After a review of the nervous system specifically its organs, tissue, and specialized cells, called neurons students learn about the parts of the neuron. They explore the cell body, dendrites, axon and axon terminal, and learn how these structures enable neurons to send messages. They learn about the connections between engineering and other fields of study, and the importance of research, as they complete the lesson tasks.

You are part of the NASA design crew and your task is to design a suit to keep the human body safe from the hazards of deep space. Are you up to the challenge? This is an ADA compliant document.

Living and working in space presents many challenges for humans. Use this ADA Compliant student guide to explore what many of those challenges are as well as possible solutions.

While living in space can seem like nothing but exciting, astronauts encounter many physical, biological, and psychological hazards. Use this guide to explore more about living and working in space.

In this easy-to-do activity you will simulate the fluid shift felt by astronauts upon entering space.

Have you ever dreamed of becoming an astronaut? Use this slide show presentation as an introduction to the many challenges of living and working in space.

Living and working in space presents many challenges for humans. Use this student guide to explore what many of those challenges are as well as possible solutions.

In this lesson, students use the app, Powers of Minus Ten Bone, to discover the innerworkings of cells and their organelles. Exploration of the app is guided with the use of a scaffolded worksheet as well as a class discussion. Later in the lesson, student groups are assigned a specific organelle and use the information contained in the app to draw similarities and differences between the buildings in a city to the organelles inside a cell. Students will construct a clay model of an organelle as well as a model of a city building. Finally, student groups are asked to present their work via a class presentation followed by a creative writing assignment.

This resource is a phenomenon-based adaption to the Smithsonian's STCMS Genes and Molecular Machines kit. The anchoring phenomenon event features four families (apple, hydra, human and sea star). Students will investigate and explore the genetic causes of why some families look similar and others look different. Students will use models to explain their thinking throughout the intentional sequence of lessons.

Paul Andersen takes you on a tour of the cell. He starts by explaining the difference between prokaryotic and eukaryotic cells. He also explains why cells are small but not infinitely small. He also explains how the organelles work together in a similar fashion.