Read About What is Science? (6-8 Version) PDF

Summary

This document provides an overview of what science is and the different aspects of the scientific process. It mentions different scientific practices and explanations. Includes sections for different scientific procedures and examples.

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READING MATERIAL Read About What is Science? (6-8 Version) WHAT IS SCIENCE? (6-8) Science is the process of identifying patterns in nature and developing explanations of how and why those patterns exist. Scientists use experimentation and carefu...

READING MATERIAL Read About What is Science? (6-8 Version) WHAT IS SCIENCE? (6-8) Science is the process of identifying patterns in nature and developing explanations of how and why those patterns exist. Scientists use experimentation and careful observation to collect evidence to support those explanations. Although there is no single scientific method, all types of scientists use the eight science and engineering practices in different orders and combinations to do their work. To better understand science… LET’S BREAK IT DOWN! What is science? Science is the study of the natural world, and the many branches of science focus on particular parts of that world. We often think of scientists following the scientific method and conducting laboratory experiments, but that’s only part of the story. Some scientists do carry out experiments where they change one variable at a time (single-variable testing) and measure the effects of that change to test a hypothesis, but other scientists must rely on careful observations to collect data. What all scientists have in common is that they work to identify patterns in the natural world and then use evidence to explain how and why those patterns exist. It’s also true that some scientists follow a process that is very similar to the scientific method that you have probably learned about, but others only use parts of that process or take some additional steps or work through them in different orders. That’s why we are shifting from thinking about a single scientific method to focusing on the eight science and engineering practices. Page 1 Science and Engineering Practices: Asking Questions and Defining Problems; Planning and Carrying Out Investigations The science and engineering practices are the eight activities that scientists across all branches of science use to answer their questions about the natural world. All scientists start with a question about the natural world. Those questions can come from many different sources, but they must be questions that can be answered by using evidence. Scientists collect that evidence through carefully planned investigations. Sometimes those investigations are experiments, but sometimes scientists cannot conduct experiments. For example, paleontologists and astronomers have to collect their evidence through careful observations using their senses or tools like X-ray machines or telescopes. Science and Engineering Practices: Analyzing and Interpreting Data; Developing and Using Models The investigations that scientists carry out generate data that might be in the form of many pages of observations or large tables listing numerical measurements. Scientists must analyze this data to identify patterns and make sense of what the data means. For example, a scientist might create a graph from numerical data to show how one variable relates to another. Models are another tool that scientists use to make sense of their investigations, generate new questions and predictions, and communicate their ideas. Models are representations of ideas or processes, and they can take the form of physical models, conceptual models, or computer simulations. Models can be very useful, but they all have limitations. Science and Engineering Practices: Using Mathematics and Computational Thinking; Constructing Explanations As scientists analyze data and develop models, they also often use math to show the relationships between different variables. This can range from a simple equation to a complex mathematical model run by a computer. No matter how scientists collect and make sense of evidence, the goal in all branches of science is to construct explanations of how and why things happen in the natural world. These explanations can range from a hypothesis that explains a single observation, to a theory, like gravitational theory, that explains a wide range of observations. Scientific explanations must be supported by evidence, and the more evidence we have the more confidence we have in an explanation. Scientific laws are sometimes confused with theories, but they have a different purpose. Instead of explaining how or why something happens in nature, a law simply describes the pattern of what happens. Science and Engineering Practices: Engaging in Argument From Evidence; Obtaining, Evaluating, and Communicating Information Developing scientific explanations is not as simple as looking at data and coming up with a conclusion. Explanations develop as scientists form arguments about, or debate, the meaning of evidence and how well evidence supports certain claims. To do this, scientists must communicate with each other regularly. In fact, scientists spend about half of their time obtaining, evaluating, and communicating information through conferences, publications, and other channels. Scientific explanations are accepted by the scientific community only after they are shared, critiqued, and determined to be supported by evidence. And these explanations can change over time as new evidence is discovered. WHAT IS SCIENCE? (6-8) VOCABULARY Observation The process of collecting data through the senses or measurement tools. A procedure in which variables are manipulated and quantitative or qualitative data are Experiment collected to serve as the basis for evidence needed answer a scientific question. Evidence Data that is analyzed and interpreted to support or refute a claim. A statement that uses evidence to support a claim about how or why something in nature Explanation happens. Hypothesis A proposed, testable explanation for something that happens in nature. Model A representation of an idea or process. WHAT IS SCIENCE? (6-8) DISCUSSION QUESTIONS If there is not one scientific method, then what do all scientists have in common? All scientists work to answer questions about how and why things happen in the natural world through observation and experimentation. Scientists use the eight science and engineering practices, although they might use them in different orders and combinations. How is a theory similar to and different from a law? Laws and theories are both statements about patterns or phenomena in nature. Laws describe the patterns, or state what happens. Theories explain how and why those patterns exist. What is the difference between data and evidence? Data is a collection of measurements or observations. Evidence is data that has been analyzed and interpreted to support a scientific claim. Why do scientists use models, and why do all models have limitations? Scientists often study processes that cannot be seen with the naked eye because they are too large, too small, too complex, or simply invisible. Models provide simplified representations that help scientists explain and make predictions about these processes. Because they are simplified, models never have all the same features as the real processes they represent. What makes a good scientific question? A good scientific question asks how or why something happens in the natural world and is answerable based on evidence that can be collected through observation or experimentation. Why do scientific ideas sometimes change? Scientific explanations must be based on evidence. If new evidence is collected that contradicts an existing explanation, then the explanation must be revised or replaced. Scientists’ interpretation of existing evidence can also change as they learn more over time.

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