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It’s Still Debatable! encourages scientific literacy by showing you how to teach the content and thinking skills K–5 students need to explore real-world questions like these:

• Is football too dangerous for kids?
• Do we need zoos?
• Should distracted walking be illegal?
It’s Still Debatable! encourages scientific literacy by showing you how to teach the content and thinking skills K–5 students need to explore real-world questions like these:

• Is football too dangerous for kids?
• Do we need zoos?
• Should distracted walking be illegal?
Preschool and early childhood elementary students are constantly faced with inherent problems to solve in their daily lives. In this issue of Science & Children, find out how you can engage young learners in engineering design.
Preschool and early childhood elementary students are constantly faced with inherent problems to solve in their daily lives. In this issue of Science & Children, find out how you can engage young learners in engineering design.
Preschool and early childhood elementary students are constantly faced with inherent problems to solve in their daily lives. In this issue of Science & Children, find out how you can engage young learners in engineering design.

It's Still Debatable! Using Socioscientific Issues to Develop Scientific Literacy, K–5

It’s Still Debatable! encourages scientific literacy by showing you how to teach the content and thinking skills K–5 students need to explore real-world questions like these:

• Is football too dangerous for kids?
• Do we need zoos?
• Should distracted walking be illegal?
It’s Still Debatable! encourages scientific literacy by showing you how to teach the content and thinking skills K–5 students need to explore real-world questions like these:

• Is football too dangerous for kids?
• Do we need zoos?
• Should distracted walking be illegal?

Making Sense of Science and Religion: Strategies for the Classroom and Beyond

The authors of Making Sense of Science and Religion believe that addressing interactions between science and religion is part of all science educators’ collective job—and that this is the book that will help you facilitate discussion when the topic of religion comes up.

Designed for teachers at all grade levels, the book will help you anticipate and respond to students’ questions—and help students reconcile their religious beliefs even as you delve into topics such as evolution, geochronology, genetics, the origin of the universe, and climate change.
The authors of Making Sense of Science and Religion believe that addressing interactions between science and religion is part of all science educators’ collective job—and that this is the book that will help you facilitate discussion when the topic of religion comes up.

Designed for teachers at all grade levels, the book will help you anticipate and respond to students’ questions—and help students reconcile their religious beliefs even as you delve into topics such as evolution, geochronology, genetics, the origin of the universe, and climate change.
What if you could challenge your kindergartners to create a mini roller coaster as an entry point to understanding the physics of motion? With this volume in the STEM Road Map Curriculum Series, you can!
What if you could challenge your kindergartners to create a mini roller coaster as an entry point to understanding the physics of motion? With this volume in the STEM Road Map Curriculum Series, you can!
Instructional Sequence Matters, Grades 3–5 is a one-stop resource that will inspire you to reimagine how you teach science in elementary school. The book discusses two popular approaches for structuring your lessons: POE (Predict, Observe, and Explain) and 5E (Engage, Explore, Explain, Elaborate, and Evaluate). It also shows how simple shifts in the way you arrange and combine activities will help young students construct firsthand knowledge, while allowing you to put the Next Generation Science Standards (NGSS) into practice.
Instructional Sequence Matters, Grades 3–5 is a one-stop resource that will inspire you to reimagine how you teach science in elementary school. The book discusses two popular approaches for structuring your lessons: POE (Predict, Observe, and Explain) and 5E (Engage, Explore, Explain, Elaborate, and Evaluate). It also shows how simple shifts in the way you arrange and combine activities will help young students construct firsthand knowledge, while allowing you to put the Next Generation Science Standards (NGSS) into practice.
 

Right to the Source

United States statistical atlases

A watershed in data presentation

The Science Teacher—October 2019 (Volume 87, Issue 3)

By Michael Apfeldorf

Exploring science and history with the Library of Congress

Exploring science and history with the Library of Congress

Exploring science and history with the Library of Congress

 

Teacher Spotlight

Sandee Coats-Haan

Walnut Hills High School, Cincinnati, Ohio, Presidential Awardee in Secondary Science and a National Board Certified Teacher.

The Science Teacher—October 2019 (Volume 87, Issue 3)

 

Career of the Month

Design engineer Greg Luterman

The Science Teacher—October 2019 (Volume 87, Issue 3)

By Luba Vangelova

Design engineer Greg Luterman

Interviews with professionals using science in the workplace.

Interviews with professionals using science in the workplace.

Interviews with professionals using science in the workplace.

 

Commentary

Sustainable Science Education

The Science Teacher—October 2019 (Volume 87, Issue 3)

By Lindsey Paricio

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