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Welcome - all of my 2025/2026 curriculum and resources for 7th grade science will be posted here! (Work in Progress)
Essential Question: From Chat GPT
What claim are we investigating, and what evidence and reasoning do we have to support it?
This question encompasses the key elements of science inquiry, including defining a clear claim or problem, gathering and analyzing relevant evidence, and developing sound reasoning to draw meaningful conclusions. By asking this question, students can focus their investigations, develop a deeper understanding of scientific concepts, and communicate their findings more effectively.
UNLOCK THE BIG QUESTIONS! (SWBAT answer)
How do scientists think and design good investigations?
How so scientists use variables and controls in their experiments?
What are important safety rules and symbols?
How and why do scientists use the metric system?
How do we accurately measure volume, mass, and weight?
Unit Summary: Science Inquiry - From Chat GPT
In the 7th grade classroom, science inquiry is the process of investigating scientific phenomena through questioning, observing, and analyzing data. It involves developing hypotheses, designing and conducting experiments, and drawing conclusions based on evidence.
Science inquiry in the 7th grade typically involves students working collaboratively to investigate topics such as physical and chemical properties, energy transfer, and interactions within ecosystems. Students may be asked to identify variables, design and conduct experiments, analyze data, and communicate their findings through written reports and presentations.
Through engaging in science inquiry, 7th grade students develop critical thinking skills, problem-solving skills, and an understanding of the scientific method. They also learn to communicate their ideas and findings clearly and effectively, both orally and in writing. Overall, science inquiry helps students to develop a deeper understanding of the natural world and how scientists work to understand it.
Science and Engineering Practices
1. Asking questions (for science) and defining problems (for engineering)
2. Developing and using models
3. Planning and carrying out investigations
4. Analyzing and interpreting data
5. Using mathematics and computational thinking
6. Constructing explanations (for science) and designing solutions (for engineering)
7. Engaging in an argument from evidence
8. Obtaining, evaluating, and communicating information
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