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Learning about ionizing radiation is important because it helps us understand its powerful effects on matter and its applications in science, medicine, and industry. Ionizing radiation can be beneficial, such as in medical imaging and cancer treatment, but it also poses risks, including DNA damage and environmental contamination. Understanding its properties, sources, and safety measures enables us to use it responsibly and protect ourselves from harmful exposure. This ionizing radiation knowledge is crucial for advancing technologies while ensuring health and environmental safety. This is a great arena of physics learning and ties in to learning about non-ionizing radiation (EM spectrum too!) This ionizing radiation science research project template (webquest) provides the perfect grab and go, print and provide resource that can help your students learn all about ionizing radiation. For digital, you can provide a Google doc copy for ease of submission or a Microsoft word version as well. In this ionizing radiation science research project template (webquest) with questions to check comprehension and inspire scientific thinking. THIS IONIZING RADIATION SCIENCE RESEARCH PROJECT TEMPLATE CAN BE USED SO MANY WAYS: Useful for substitute (sub) teaching To extend students To increase scientific literacy in your class A weekly reading task Great as a lesson filler when class goes too fast To inspire students on a particular topic Give a selection of these articles for students to choose from WHAT’S INCLUDED IN THIS IONIZING RADIATION SCIENCE RESEARCH PROJECT TEMPLATE: 7 page Google doc teacher version with supporting appendix items 3 page Google doc student version with room to fill in answers (text boxes) 7 page Word doc teacher version with supporting appendix items 3 page Word doc student version with room to fill in answers (text boxes) 7 page PDF teacher version with supporting appendix items 3 page PDF student version with space to fill in answers 1 page 20 point rubric for self or teacher assessment in all three - Google doc, Word doc and PDF form

Learning about the science of sound is important because it helps us understand how vibrations travel through different mediums to create the sounds we hear. This sound knowledge is foundational for fields like music, acoustics, communication, and engineering. The science of sound enables the design of technologies such as hearing aids, soundproofing materials, and advanced audio systems. Understanding sound also plays a crucial role in studying natural phenomena, from animal communication to seismic activity. By exploring the science of sound, we gain insights into both the physical world and ways to improve human interaction and technology. So let’s learn a bit together! This sound science research project template (webquest) provides the perfect grab and go, print and provide resource that can help your students learn all about sound. For digital, you can provide a Google doc copy for ease of submission or a Microsoft word version as well. In this sound science research project template (webquest) with questions to check comprehension and inspire scientific thinking. THIS SOUND SCIENCE RESEARCH PROJECT TEMPLATE CAN BE USED SO MANY WAYS: Useful for substitute (sub) teaching To extend students To increase scientific literacy in your class A weekly reading task Great as a lesson filler when class goes too fast To inspire students on a particular topic Give a selection of these articles for students to choose from WHAT’S INCLUDED IN THIS SOUND SCIENCE RESEARCH PROJECT TEMPLATE: 7 page Google doc teacher version with supporting appendix items 3 page Google doc student version with room to fill in answers (text boxes) 7 page Word doc teacher version with supporting appendix items 3 page Word doc student version with room to fill in answers (text boxes) 7 page PDF teacher version with supporting appendix items 3 page PDF student version with space to fill in answers 1 page 20 point rubric for self or teacher assessment in all three - Google doc, Word doc and PDF form

Learning about the science of reflection and refraction is essential for students to understand how light behaves when it interacts with different surfaces and materials. Reflection and refraction are key principles in optics, explaining phenomena like mirrors, lenses, and rainbows. By studying reflection and refraction, students gain valuable insights into real-world applications, such as designing eyeglasses, cameras, and fiber optics for communication. Reflection and refraction also spark curiosity about the natural world, making these concepts engaging and important for developing critical thinking and problem-solving skills. Reflection and refraction are must-learn topics in any science curriculum! With this in mind, let’s engage with this excellent learning and teaching resource. This refraction and reflection science research project template (webquest) provides the perfect grab and go, print and provide resource that can help your students learn all about refraction and reflection. For digital, you can provide a Google doc copy for ease of submission or a Microsoft word version as well. In this refraction and reflection science research project template (webquest) with questions to check comprehension and inspire scientific thinking. THIS REFRACTION AND REFLECTION SCIENCE RESEARCH PROJECT TEMPLATE CAN BE USED SO MANY WAYS: Useful for substitute (sub) teaching To extend students To increase scientific literacy in your class A weekly reading task Great as a lesson filler when class goes too fast To inspire students on a particular topic Give a selection of these articles for students to choose from WHAT’S INCLUDED IN THIS REFRACTION AND REFLECTION SCIENCE RESEARCH PROJECT TEMPLATE: 7 page Google doc image - textboxes teacher version with supporting appendix items 3 page Google doc image - textboxes student version with room to fill in answers (text boxes) 7 page Word doc image - textboxes teacher version with supporting appendix items 3 page Word doc image - textboxes student version with room to fill in answers (text boxes) 7 page PDF teacher version with supporting appendix items 3 page PDF student version with space to fill in answers 1 page 20 point rubric for self or teacher assessment in all three - Google doc, Word doc and PDF form Please note: That the Doc versions are images with editable text boxes overlayed on top and this is the most effective way to keep the article sleek and well-designed and also that students cannot change things significantly.

Learning about the science of momentum is essential for students to understand how objects move and interact in the physical world. Momentum is a fundamental concept in physics, explaining everything from collisions and motion to energy transfer and conservation laws. By studying momentum, students gain critical insights into everyday phenomena, like car crashes, sports dynamics, and engineering design. Momentum is key to understanding forces and movement, making it an engaging and practical topic that builds problem-solving and analytical skills. Teaching momentum equips students with knowledge they can apply in science, technology, and beyond. With this in mind, let’s engage with this excellent learning and teaching resource. This momentum science research project template (webquest) provides the perfect grab and go, print and provide resource that can help your students learn all about momentum. For digital, you can provide a Google doc copy for ease of submission or a Microsoft word version as well. In this momentum science research project template (webquest) with questions to check comprehension and inspire scientific thinking. THIS MOMENTUM SCIENCE RESEARCH PROJECT TEMPLATE CAN BE USED SO MANY WAYS: Useful for substitute (sub) teaching To extend students To increase scientific literacy in your class A weekly reading task Great as a lesson filler when class goes too fast To inspire students on a particular topic Give a selection of these articles for students to choose from WHAT’S INCLUDED IN THIS MOMENTUM SCIENCE RESEARCH PROJECT TEMPLATE: 7 page Google doc teacher version with supporting appendix items 3 page Google doc student version with room to fill in answers (text boxes) 7 page Word doc teacher version with supporting appendix items 3 page Word doc student version with room to fill in answers (text boxes) 7 page PDF teacher version with supporting appendix items 3 page PDF student version with space to fill in answers 1 page 20 point rubric for self or teacher assessment in all three - Google doc, Word doc and PDF form

IB MYP / IGCSE Science Refraction and reflection exploration - A brief exploration laboratory script using an online simulation which is ready to use in class as long as students have access to internet enabled devices. If you have any questions, please feel to DM me on instagram @theteachingastrophysicist Let’s Connect! Be sure to follow my: ★ Blog ★ Instagram ★ Linkedin ★ Pinterest All under the handle: The Teaching Astrophysicist

This IB DP Physics sub-topic material covers all key knowledge needed for a given sub-topic. This sub-unit is all about Greenhouse gases in the IB DP. These materials are aligned to the 2023 syllabus onwards. They are developed by an IB DP Physics teacher who also knew the previous 2016 syllabus as well. While perhaps not the flashiest format, they are consistent and use Microsoft software and PDFs which is readily accessible to almost anyone. They contain Teacher made graphics which show the exact concept to be taught or question to be asked and are all original to The Teaching Astrophysicist. WHY / WHEN TO USE: Helps with revision on a topic The base for covering relevant teacher materials Great for initial learning and practice Memorization of key concept and knowledge WHAT’S INCLUDED: A set of physics flashcards - word doc and PDF A set of physics flashcards - Powerpoint 2 detailed long response questions - DP style - word doc and PDF - both with and without answers (ie: Teacher version and student version) 20 Multiple Choice Questions (MCQs) - word doc and PDF - both with and without answers (ie: Teacher version and student version) A detailed set of notes - word doc and PDF If you have any questions, please feel to DM me on instagram @theteachingastrophysicist Let’s Connect! Be sure to follow my: ★ Blog ★ Instagram ★ Linkedin ★ Pinterest All under the handle: The Teaching Astrophysicist

This IB DP Physics sub-topic material covers all key knowledge needed for a given sub-topic. This sub-unit is all about Gas Laws in the IB DP. These materials are aligned to the 2023 syllabus onwards. They are developed by an IB DP Physics teacher who also knew the previous 2016 syllabus as well. While perhaps not the flashiest format, they are consistent and use Microsoft software and PDFs which is readily accessible to almost anyone. They contain Teacher made graphics which show the exact concept to be taught or question to be asked and are all original to The Teaching Astrophysicist. WHY / WHEN TO USE: Helps with revision on a topic The base for covering relevant teacher materials Great for initial learning and practice Memorization of key concept and knowledge WHAT’S INCLUDED: A set of physics flashcards - word doc and PDF A set of physics flashcards - Powerpoint 2 detailed long response questions - DP style - word doc and PDF - both with and without answers (ie: Teacher version and student version) 25 Multiple Choice Questions (MCQs) - word doc and PDF - both with and without answers (ie: Teacher version and student version) A detailed set of notes - word doc and PDF If you have any questions, please feel to DM me on instagram @theteachingastrophysicist Let’s Connect! Be sure to follow my: ★ Blog ★ Instagram ★ Linkedin ★ Pinterest All under the handle: The Teaching Astrophysicist

This IB DP Physics sub-topic material covers all key knowledge needed for a given sub-topic. These materials are aligned to the 2023 syllabus onwards. They are developed by an IB DP Physics teacher who also knew the previous 2016 syllabus as well. While perhaps not the flashiest format, they are consistent and use Microsoft software and PDFs which is readily accessible to almost anyone. They contain Teacher made graphics which show the exact concept to be taught or question to be asked and are all original to The Teaching Astrophysicist. WHY / WHEN TO USE: Helps with revision on a topic The base for covering relevant teacher materials Great for initial learning and practice Memorization of key concept and knowledge WHAT’S INCLUDED: A set of physics flashcards - word doc and PDF A set of physics flashcards - Powerpoint 2 detailed long response questions - DP style - word doc and PDF - both with and without answers (ie: Teacher version and student version) 26 Multiple Choice Questions (MCQs) - word doc and PDF - both with and without answers (ie: Teacher version and student version) A detailed set of notes - word doc and PDF If you have any questions, please feel to DM me on instagram @theteachingastrophysicist Let’s Connect! Be sure to follow my: ★ Blog ★ Instagram ★ Linkedin ★ Pinterest All under the handle: The Teaching Astrophysicist

This IB DP Physics sub-topic material covers all key knowledge needed for a given sub-topic. These materials are aligned to the 2023 syllabus onwards. They are developed by an IB DP Physics teacher who also knew the previous 2016 syllabus as well. While perhaps not the flashiest format, they are consistent and use Microsoft software and PDFs which is readily accessible to almost anyone. They contain Teacher made graphics which show the exact concept to be taught or question to be asked and are all original to The Teaching Astrophysicist. WHY / WHEN TO USE: Helps with revision on a topic The base for covering relevant teacher materials Great for initial learning and practice Memorization of key concept and knowledge WHAT’S INCLUDED: A set of physics flashcards - word doc and PDF A set of physics flashcards - Powerpoint 2 detailed long response questions - DP style - word doc and PDF - both with and without answers (ie: Teacher version and student version) 20 Multiple Choice Questions (MCQs) - word doc and PDF - both with and without answers (ie: Teacher version and student version) A detailed set of notes - word doc and PDF If you have any questions, please feel to DM me on instagram @theteachingastrophysicist Let’s Connect! Be sure to follow my: ★ Blog ★ Instagram ★ Linkedin ★ Pinterest All under the handle: The Teaching Astrophysicist

This IB DP Physics sub-topic material covers all key knowledge needed for a given sub-topic. These materials are aligned to the 2023 syllabus onwards. They are developed by an IB DP Physics teacher who also knew the previous 2016 syllabus as well. While perhaps not the flashiest format, they are consistent and use Microsoft software and PDFs which is readily accessible to almost anyone. They contain Teacher made graphics which show the exact concept to be taught or question to be asked and are all original to The Teaching Astrophysicist. WHY / WHEN TO USE: Helps with revision on a topic The base for covering relevant teacher materials Great for initial learning and practice Memorization of key concept and knowledge WHAT’S INCLUDED: A set of physics flashcards - word doc and PDF A set of physics flashcards - Powerpoint 2 detailed long response questions - DP style - word doc and PDF - both with and without answers (ie: Teacher version and student version) 20 Multiple Choice Questions (MCQs) - word doc and PDF - both with and without answers (ie: Teacher version and student version) A detailed set of notes - word doc and PDF If you have any questions, please feel to DM me on instagram @theteachingastrophysicist Let’s Connect! Be sure to follow my: ★ Blog ★ Instagram ★ Linkedin ★ Pinterest All under the handle: The Teaching Astrophysicist

Science Bingo - Grade 6, 7 and 8. Two versions of science bingo the first is larger and is suitable for a longer game of science bingo, it has 6 x 6 grids for the answers and associated clues. The second bingo set is 5 x 5 and more suitable for younger students. DISCLAIMER: The larger bingo set has terms from teaching about the reproductive system. This could be removed or swapped if needed while the bulk of materials is likely to still suit use. If you have any questions, please feel to DM me on instagram @theteachingastrophysicist Let’s Connect! Be sure to follow my: ★ Blog ★ Instagram ★ Linkedin ★ Pinterest All under the handle: The Teaching Astrophysicist

IB DP Physics definition bingo - Grade 11/12. A small set of bingo cards based on IB DP Physics definitions which relate directly to ‘define’ questions in IB exams. Current there are six 4 x 4 cards which could be randomly shuffled or manipulated and a full set of terms with definitions, notes and markscheme pointers. If you have any questions, please feel to DM me on instagram @theteachingastrophysicist Let’s Connect! Be sure to follow my: ★ Blog ★ Instagram ★ Linkedin ★ Pinterest All under the handle: The Teaching Astrophysicist

This is a IB MYP / IGCSE Science Atomic / Isotopes exploration - A brief exploration laboratory script using an online simulation which is ready to use in class as long as students have access to internet enabled devices. This a word doc. file which has the instructions and the direct link to the simulation within it. If you have any questions, please feel to DM me on instagram @theteachingastrophysicist Let’s Connect! Be sure to follow my: ★ Blog ★ Instagram ★ Linkedin ★ Pinterest All under the handle: The Teaching Astrophysicist

Simply, set and relax as these video companions will help make sure your students are paying attention throughout these videos, having a variety of questions throughout the length of the video. I have laboured long and hard to make these video companions as easy as possible to engage with and to be able to use for teachers of any kind, whether in school, higher education or home schooling, these can be great to keep students engaged and know they watched the material fully. The video companions include: Can you swim in shade balls? How trees bend the laws of physics How Kodak exposed the Atomic bomb These pools support half the people on Earth Why Are 96,000,000 Black Balls on This Reservoir? States of matter How Special Relativity Makes Magnets Work The Most Radioactive Places on Earth The bizarre behaviour of rotating bodies explained Flamethrower vs Aerogel Ice spikes explained Make plasma with grapes in the microwave Making liquid Nitrogen from scratch Misconceptions about heat I Waterproofed Myself With Aerogel! World’s Lightest Solid! Why the speed of light can’t be measured Other links: If you enjoy these, then you might also enjoy the Astronomy related Veritasium video companion set, the Full Veritasium set. I highly recommend these resources as they have been my pride and joy to develop for your use. Usage: The layout of these video companions are that there are both teacher and student versions of all of these documents. The teacher versions contain the solutions and the administrative information. The student versions contain only the questions and spaces for students to fill in the work. They are easy to use and all in PDF form, including one large ‘master file’ so you can see all the content in one broad sweep and see what video companion will work for you and your students easily. Disclaimer: This work is intended to be a course companion and is all original work based on supporting and aligning with the hugely successful youtube series – Veritasium. The host of the series is Derek Muller. The respective rights and content are their own and below to Veritasium and its owner. Further when Vertiasium brings in additional youtubers and their brands such as Smartereveryday, SufficentlyAdvanced and others, their respective works and content is their own. This work is intended as an independent supplement which has been wholly and independently developed by The Teaching Astrophysicist for sale on TeacherspayTeachers and TES. If you have any questions, please feel to DM me on instagram @theteachingastrophysicist Let’s Connect! Be sure to follow my: ★ Blog ★ Instagram ★ Linkedin ★ Pinterest All under the handle: The Teaching Astrophysicist

This is an IB DP Physics game to break-up the harder parts of teaching IB DP Physics. It is based on Topics 1, 2, 3 and 6 as these are the early topics I taught in my DP 1 class. It is simple, effective and engaging and even a child can try it! If you have any questions, please feel to DM me on instagram @theteachingastrophysicist Let’s Connect! Be sure to follow my: ★ Blog ★ Instagram ★ Linkedin ★ Pinterest All under the handle: The Teaching Astrophysicist

These word problems worksheets include 303 problems and is geared towards helping students learn the necessary materials that cover** IGCSE / GCSE / O-level materials** for astronomy and astrophysics. These worksheets include 303 problems with solutions to support students with their learning. WHAT’S INCLUDED: 303 questions with solutions questions have solutions in Word Docs format POSSIBLE USES: Great for revision on astronomy and astrophysics materials Great to cover astro content at the grade 9 / 10 level content at the international level Use them for inspiration to develop further questions or have students make questions for each other Check out these other resources you may also love: → Astronomy joke a day - link HERE → Veritasium astronomy video companions - link HERE If you have any questions, please feel to DM me on instagram @theteachingastrophysicist Let’s Connect! Be sure to follow my: ★ Blog ★ Instagram ★ Linkedin ★ Pinterest All under the handle: The Teaching Astrophysicist

These word problems worksheets include 172 problems and is geared towards helping students learn the necessary materials that cover** International A-level / IB DP** for astronomy and astrophysics. These worksheets include 14 separate worksheets with solutions to support students with their learning. WHAT’S INCLUDED: 172 questions with solutions questions have solutions in Word Docs format POSSIBLE USES: Great for revision on astronomy and astrophysics materials Great to cover astro content at the grade 11 / 12 level content at the international level Use them for inspiration to develop further questions or have students make questions for each other Check out these other resources you may also love: → Astronomy joke a day - link HERE → Veritasium astronomy video companions - link HERE → Astro word problems international middle school level (IGCSE / GCSE / O-level) - link HERE If you have any questions, please feel to DM me on instagram @theteachingastrophysicist Let’s Connect! Be sure to follow my: ★ Blog ★ Instagram ★ Linkedin ★ Pinterest All under the handle: The Teaching Astrophysicist

Massive stars are the universe’s heavy lifters, forging the elements that make up planets and life itself. Massive stars extreme gravity and powerful fusion processes produce brilliant light, spectacular supernova explosions, and sometimes even black holes. Teaching students about these stellar giants highlights the interconnectedness of cosmic events, deepening their appreciation for how our own existence ties back to stellar evolution. By exploring massive stars, learners gain insight into fundamental astrophysical processes and the dynamic nature of the universe. With this in mind, let’s engage with this excellent learning and teaching resource. A critical thinking framework focused on massive stars brings this complex phenomena into clear, student-friendly steps. By guiding learners to identify questions, evaluate evidence, and compare multiple explanations, it transforms the study of these massive stars into an engaging, inquiry-based experience. Students gain a deeper appreciation for science as they piece together how stellar masses and life cycles shape the universe around us. Rather than just memorizing facts, they actively practice scientific habits of mind—analyzing data, identifying gaps in knowledge, and reflecting on the learning process. A dedicated framework also saves time and supports more robust learning outcomes. It provides a structured path for teachers to implement discussions, projects, or small-group investigations without having to create all the resources from scratch. Embedded prompts and example strategies help students build confidence in their ability to think like scientists, meaning you can focus on facilitating exploration rather than constantly reinventing lesson plans. Ultimately, investing in this streamlined approach helps elevate student engagement, fosters critical thinking skills, and brings the wonders of massive stars to life in the classroom. THIS MASSIVE STARS CRITICAL THINKING FRAMEWORK CAN BE USED SO MANY WAYS: Guided Inquiry Projects: Assign each step as a stage in a research project, from forming a question to reflecting on findings. Group Discussions: Facilitate structured group dialogues where each student is the primary driver to one step of the framework. Problem-Solving Stations: Set up stations, each focusing on a different step (e.g., analyzing reasoning, identifying limitations), and rotate groups through them. Reflection Journals: Encourage students to write short entries on each step after exploring new content or completing a project. Peer Teaching: Have students create mini-lessons using the steps, culminating in an elevator pitch or summary to teach classmates. Assessment Tool: Use the framework’s steps as a rubric to evaluate the depth and clarity of students’ scientific reasoning and presentations.

Learning about critical thinking on the topic of momentum is valuable for middle and high school students because it deepens their understanding of how forces, motion, and collisions interact in the world around them. By using critical thinking skills, students learn to analyze problems, question assumptions, and propose solutions based on evidence and logical reasoning. This approach not only helps them excel in physics, but also enhances their decision-making abilities in everyday life - such as assessing the safety of certain activities or understanding how momentum plays out in sports. After all, we can not and should not leave all the thinking to the chatbots! With this in mind, let’s engage with this excellent learning and teaching resource. A critical thinking framework focused on momentum brings this complex phenomena into clear, student-friendly steps. By guiding learners to identify questions, evaluate evidence, and compare multiple explanations, it transforms the study of the phenomenon of momentum into an engaging, inquiry-based experience. Students gain a deeper appreciation for science as they piece together how any object moving or coming to rest has momentum based interactions. Rather than just memorizing facts, they actively practice scientific habits of mind - analyzing data, identifying gaps in knowledge, and reflecting on the learning process. A dedicated framework also saves time and supports more robust learning outcomes. It provides a structured path for teachers to implement discussions, projects, or small-group investigations without having to create all the resources from scratch. Embedded prompts and example strategies help students build confidence in their ability to think like scientists, meaning you can focus on facilitating exploration rather than constantly reinventing lesson plans. Ultimately, investing in this streamlined approach helps elevate student engagement, fosters critical thinking skills, and brings the world of momentum in real life to students in the classroom. THIS MOMENTUM CRITICAL THINKING FRAMEWORK CAN BE USED SO MANY WAYS: Guided Inquiry Projects: Assign each step as a stage in a research project, from forming a question to reflecting on findings. Group Discussions: Facilitate structured group dialogues where each student is the primary driver to one step of the framework. Problem-Solving Stations: Set up stations, each focusing on a different step (e.g., analyzing reasoning, identifying limitations), and rotate groups through them. Reflection Journals: Encourage students to write short entries on each step after exploring new content or completing a project. Peer Teaching: Have students create mini-lessons using the steps, culminating in an elevator pitch or summary to teach classmates. Assessment Tool: Use the framework’s steps as a rubric to evaluate the depth and clarity of students’ scientific reasoning and presentations.

Learning through a critical thinking framework on the topic of magnets and magnetic levitation trains allows middle and high school students to see the direct connection between fundamental science concepts and real-world technological applications. By encouraging them to formulate questions, examine data, challenge assumptions, and propose solutions, this approach deepens their understanding of physics while also sharpening essential 21st-century skills. Students become more engaged when they see how magnetic forces, energy consumption, and engineering design all intersect in a mag-lev train. Moreover, this framework empowers them to take on the role of problem-solvers and decision-makers, fostering intellectual curiosity and confidence as they learn how to systematically investigate and evaluate complex issues. After all, we can not and should not leave all the thinking to the chatbots! With this in mind, let’s engage with this excellent learning and teaching resource. A critical thinking framework focused on magnets & mag-lev trains brings this complex phenomena into clear, student-friendly steps. By guiding learners to identify questions, evaluate evidence, and compare multiple explanations, it transforms the study of the phenomenon of magnets & mag-lev trains into an engaging, inquiry-based experience. Students gain a deeper appreciation for science as they piece together how magnets & mag-lev trains can work in the real world. Rather than just memorizing facts, they actively practice scientific habits of mind - analyzing data, identifying gaps in knowledge, and reflecting on the learning process. A dedicated framework also saves time and supports more robust learning outcomes. It provides a structured path for teachers to implement discussions, projects, or small-group investigations without having to create all the resources from scratch. Embedded prompts and example strategies help students build confidence in their ability to think like scientists, meaning you can focus on facilitating exploration rather than constantly reinventing lesson plans. Ultimately, investing in this streamlined approach helps elevate student engagement, fosters critical thinking skills, and brings the world of magnets & mag-lev trains in real life to students in the classroom.