Thinking and working like scientists
Students start the year learning how science actually gets done. They ask testable questions, design experiments, and back up their claims with evidence instead of opinion.
What does a student learn in
This is the year science stops being a tour of facts and starts asking students to back up their thinking with evidence. Students dig into how atoms build matter, how energy moves, how traits pass from parents to children, and how human choices shape the planet. They also design and test solutions to real problems, the way engineers do. By spring, students can read a science claim, weigh the data behind it, and explain whether they buy it.
- Atoms and matter
- Forces and energy
- Genetics
- Evolution
- Ecosystems
- Earth systems
- Engineering design
Year at a glance
How the year usually goes. Every school and district set their own curriculum, so treat this as a guide, not official pacing.
- 1
- 2
Matter, forces, and energy
Students dig into the physical world. They study what matter is made of, how forces move objects, and how energy shifts from one form to another, like heat into motion or light into electricity.
- 3
Waves and information
Students look at how waves carry energy and information, from sound and light to the signals behind phones and Wi-Fi.
- 4
Cells, ecosystems, and inheritance
Students turn to living things. They study how cells keep a body running, how energy moves through a food web, and how traits like eye color pass from parents to children.
- 5
Evolution and life over time
Students examine why living things share so much in common and why they also look so different. They trace how species change across long stretches of time.
- 6
Earth, space, and human impact
Students zoom out to the planet and beyond. They study how Earth's land, water, and air interact, how the solar system moves, and how human choices shape the climate and the land.
Mastery Learning Standards
The required skills a student should display by the end of Grade 10.
Science and Engineering Practices
Science and Engineering Practices
- High School
Asking Questions and Defining Problems
Students learn to frame a question or problem precisely enough that it can actually be tested in a lab or solved with a design. The goal is to separate questions science can answer from ones it cannot.
- High School
Developing and Using Models
Students build diagrams, simulations, or physical models to show how a system or process works, then use those models to explain what they observe or predict what happens next.
- High School
Planning and Carrying Out Investigations
Students design and run experiments to collect real data and find out whether their ideas hold up. That means choosing what to measure, deciding how to set up the test, and recording what actually happens.
- High School
Analyzing and Interpreting Data
Reading data from charts, graphs, or experiments, students look for patterns and explain what those patterns actually mean, not just what the numbers say.
- High School
Mathematics and Computational Thinking
Students use math, data, and calculations to back up scientific claims. That might mean graphing results, running numbers, or checking whether the data actually supports what the experiment suggested.
- High School
Constructing Explanations
Students build written or spoken explanations for why something happens in nature, then back each claim with data or observations from their own work or from established science.
- High School
Engaging in Argument from Evidence
Students look at two or more scientific explanations or proposed solutions, weigh the evidence behind each, and argue for the one that holds up best. The goal is to show why one answer is stronger, not just to pick a side.
- High School
Communicating Information
Students read scientific sources, judge how reliable they are, and share what they find in writing, diagrams, or presentations. The focus is on understanding real research and explaining it clearly to others.
| Standard | Definition | Code |
|---|---|---|
| Asking Questions and Defining Problems High School | Students learn to frame a question or problem precisely enough that it can actually be tested in a lab or solved with a design. The goal is to separate questions science can answer from ones it cannot. | DC-SCI.SEP.9-12.1 |
| Developing and Using Models High School | Students build diagrams, simulations, or physical models to show how a system or process works, then use those models to explain what they observe or predict what happens next. | DC-SCI.SEP.9-12.2 |
| Planning and Carrying Out Investigations High School | Students design and run experiments to collect real data and find out whether their ideas hold up. That means choosing what to measure, deciding how to set up the test, and recording what actually happens. | DC-SCI.SEP.9-12.3 |
| Analyzing and Interpreting Data High School | Reading data from charts, graphs, or experiments, students look for patterns and explain what those patterns actually mean, not just what the numbers say. | DC-SCI.SEP.9-12.4 |
| Mathematics and Computational Thinking High School | Students use math, data, and calculations to back up scientific claims. That might mean graphing results, running numbers, or checking whether the data actually supports what the experiment suggested. | DC-SCI.SEP.9-12.5 |
| Constructing Explanations High School | Students build written or spoken explanations for why something happens in nature, then back each claim with data or observations from their own work or from established science. | DC-SCI.SEP.9-12.6 |
| Engaging in Argument from Evidence High School | Students look at two or more scientific explanations or proposed solutions, weigh the evidence behind each, and argue for the one that holds up best. The goal is to show why one answer is stronger, not just to pick a side. | DC-SCI.SEP.9-12.7 |
| Communicating Information High School | Students read scientific sources, judge how reliable they are, and share what they find in writing, diagrams, or presentations. The focus is on understanding real research and explaining it clearly to others. | DC-SCI.SEP.9-12.8 |
Physical Science
Physical Science
- High School
Matter and Interactions
Students investigate how atoms and molecules are arranged and how they interact to explain physical phenomena like dissolving, burning, or changes in state.
- High School
Motion and Stability
Students study how forces change the way objects move, using Newton's laws and the idea that energy and momentum stay constant in a closed system. They apply these rules to real situations, like collisions or objects in free fall.
- High School
Energy
Students trace how energy changes form and moves from one object to another, then show that the total amount stays the same. Think heat leaving a hot pan, electricity lighting a bulb, or a ball rolling downhill.
- High School
Waves and Information
Students study how waves move energy and information from one place to another. They look at real applications like radio signals, medical imaging, and fiber optics to see how wave behavior makes modern communication possible.
| Standard | Definition | Code |
|---|---|---|
| Matter and Interactions High School | Students investigate how atoms and molecules are arranged and how they interact to explain physical phenomena like dissolving, burning, or changes in state. | DC-SCI.PS.9-12.1 |
| Motion and Stability High School | Students study how forces change the way objects move, using Newton's laws and the idea that energy and momentum stay constant in a closed system. They apply these rules to real situations, like collisions or objects in free fall. | DC-SCI.PS.9-12.2 |
| Energy High School | Students trace how energy changes form and moves from one object to another, then show that the total amount stays the same. Think heat leaving a hot pan, electricity lighting a bulb, or a ball rolling downhill. | DC-SCI.PS.9-12.3 |
| Waves and Information High School | Students study how waves move energy and information from one place to another. They look at real applications like radio signals, medical imaging, and fiber optics to see how wave behavior makes modern communication possible. | DC-SCI.PS.9-12.4 |
Life Science
Life Science
- High School
Structures and Processes
Students examine how living things are built and how they work, from the smallest cell up to whole-body systems like digestion or circulation.
- High School
Ecosystems
Students trace how energy flows through a food web and how matter like carbon and water cycles back through living and nonliving parts of an ecosystem. They also study how organisms compete, cooperate, and depend on each other to survive.
- High School
Heredity
Students examine why offspring resemble but don't perfectly match their parents. They trace how traits like eye color or height are passed down, and why siblings can look different even when they share the same parents.
- High School
Biological Evolution
Students examine how living things share common traits across species while also differing in key ways, then study the processes like natural selection and genetic change that explain how species shift over time.
| Standard | Definition | Code |
|---|---|---|
| Structures and Processes High School | Students examine how living things are built and how they work, from the smallest cell up to whole-body systems like digestion or circulation. | DC-SCI.LS.9-12.1 |
| Ecosystems High School | Students trace how energy flows through a food web and how matter like carbon and water cycles back through living and nonliving parts of an ecosystem. They also study how organisms compete, cooperate, and depend on each other to survive. | DC-SCI.LS.9-12.2 |
| Heredity High School | Students examine why offspring resemble but don't perfectly match their parents. They trace how traits like eye color or height are passed down, and why siblings can look different even when they share the same parents. | DC-SCI.LS.9-12.3 |
| Biological Evolution High School | Students examine how living things share common traits across species while also differing in key ways, then study the processes like natural selection and genetic change that explain how species shift over time. | DC-SCI.LS.9-12.4 |
Earth and Space Science
Earth and Space Science
- High School
Earth's Place in the Universe
Students study where Earth sits in the solar system and how it moves, then trace the major events that shaped Earth across billions of years.
- High School
Earth's Systems
Students examine how Earth's land, water, air, and living things connect and affect each other. A volcanic eruption, a rainstorm, or a wildfire shows how one part of Earth can shift what happens in the others.
- High School
Earth and Human Activity
Students study how things like farming, cities, and energy use change the land, air, and water around us. They also look at how earthquakes, floods, and wildfires shape where and how people live.
| Standard | Definition | Code |
|---|---|---|
| Earth's Place in the Universe High School | Students study where Earth sits in the solar system and how it moves, then trace the major events that shaped Earth across billions of years. | DC-SCI.ESS.9-12.1 |
| Earth's Systems High School | Students examine how Earth's land, water, air, and living things connect and affect each other. A volcanic eruption, a rainstorm, or a wildfire shows how one part of Earth can shift what happens in the others. | DC-SCI.ESS.9-12.2 |
| Earth and Human Activity High School | Students study how things like farming, cities, and energy use change the land, air, and water around us. They also look at how earthquakes, floods, and wildfires shape where and how people live. | DC-SCI.ESS.9-12.3 |
Engineering, Technology, and Applications of Science
Engineering, Technology, and Applications of Science
- High School
Engineering Design
Students identify a real problem, sketch or build possible fixes, then test and refine their best idea until it works better. This is the core loop of engineering design.
- High School
Links Among Engineering, Technology, and Society
Students study how new technologies shape daily life and how the needs of society push engineers to solve new problems. Each one changes the other.
| Standard | Definition | Code |
|---|---|---|
| Engineering Design High School | Students identify a real problem, sketch or build possible fixes, then test and refine their best idea until it works better. This is the core loop of engineering design. | DC-SCI.ETS.9-12.1 |
| Links Among Engineering, Technology, and Society High School | Students study how new technologies shape daily life and how the needs of society push engineers to solve new problems. Each one changes the other. | DC-SCI.ETS.9-12.2 |
Assessments
The state tests students at this grade and subject take.
DC Science Assessment (Biology)
DC Biology end-of-course assessment, administered once in high school after a biology course.
- When given:
- by course completion
- Frequency:
- once in high school