Measure and compare objects and materials based on their physical properties including: mass, shape, volume, color, hardness, texture, odor, taste, attraction to magnets.
| Access Point Number |
Access Point Title |
| SC.4.P.8.In.1 | Compare objects and materials based on physical properties, such as size, shape, color, texture, weight, hardness, odor, taste, and temperature. |
| SC.4.P.8.Su.1 | Sort objects by physical properties, such as size, shape, color, texture, weight (heavy or light), and temperature (hot or cold). |
| SC.4.P.8.Pa.1 | Match objects with similar observable properties, such as size, shape, color, or texture. |
| Name |
Description |
| The Playground Project | Students will enjoy designing their "dream" playground while applying math and science skills in this engineering design challenge lesson. Students will find the area and perimeter of their playground designs. They will also use a budget sheet to make decisions about what to include in their playground, considering the physical properties of the materials they "purchase." |
| Paddleboard Conundrum MEA | This activity allows students to compare and contrast paddleboards based on their physical features such as length, width, weight, etc. Students will determine which board is best for beginning paddlers using deductive reasoning and key details from the reading passages. Model Eliciting Activities, MEAs, are open-ended, interdisciplinary problem-solving activities that are meant to reveal students’ thinking about the concepts embedded in realistic situations. Click here to learn more about MEAs and how they can transform your classroom. |
| Best Lollipop Ever | In this lesson, the students will learn about comparing the durability of certain types of candy (lollipops). Through various readings, discussions, and activities, the students will determine which Candy (lollipops) is the best in several categories. They will do this by analyzing a set of data with a set of criteria given to them by a client. Model Eliciting Activities, MEAs, are open-ended, interdisciplinary problem-solving activities that are meant to reveal students’ thinking about the concepts embedded in realistic situations. Click here to learn more about MEAs and how they can transform your classroom. |
| Best Stuffy Ever | In this lesson, the students will learn about comparing the volume and the capacity of an item such as a bigger than normal stuffy. Each stuffy will be stuffed with the same type of object (tennis balls) to see which holds more. Through various readings, discussions, and activities, the students will determine which stuffy can hold the most inside. They will do this by analyzing a set of data with a set of criteria given to them by a client. Model Eliciting Activities, MEAs, are open-ended, interdisciplinary problem-solving activities that are meant to reveal students’ thinking about the concepts embedded in realistic situations. Click here to learn more about MEAs and how they can transform your classroom. |
| Physical Properties of Matter | Students will observe different materials based on their physical properties. |
| Shady Day MEA | This Model Eliciting Activity (MEA) is written at a 5th grade level. The Shady Day MEA provides students with an engineering problem in which they must work as a team to design a procedure to select the best beach umbrella for certain situations.
Model Eliciting Activities, MEAs, are open-ended, interdisciplinary problem-solving activities that are meant to reveal students’ thinking about the concepts embedded in realistic situations. MEAs resemble engineering problems and encourage students to create solutions in the form of mathematical and scientific models. Students work in teams to apply their knowledge of science and mathematics to solve an open-ended problem, while considering constraints and tradeoffs. Students integrate their ELA skills into MEAs as they are asked to clearly document their thought process. MEAs follow a problem-based, student centered approach to learning, where students are encouraged to grapple with the problem while the teacher acts as a facilitator. To learn more about MEA’s visit: https://www.cpalms.org/cpalms/mea.aspx
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| Properties of Matter: Mass, Shape, and Volume | Using the main idea and details graphic organizer, students will be able to distinguish between information given on the properties of matter – mass, shape, and volume. Students will also demonstrate their understanding of science concepts learned from reading an informational text passage on the properties of matter. |
| Rocks, Rocks, Everywhere | The students will be able to sort rocks based upon color, hardness, texture, layering and particle size. |
| Observing a Physical Change | In this lesson, students are shown the difference between physical and chemical changes by dissolving and crushing seltzer tablets. Students learn to recognize that physical changes involved changes in size, shape, or texture, while chemical changes involve the formation of a new substance. |
| Physical Properties of Matter | Students will participate in a hands-on lab activity in which they will measure and compare apples based on many of their physical properties. |
| Properties of Matter: Color, Hardness, Texture, Odor, and Taste | In this lesson, students will use a compare and contrast chart (graphic organizer) to compare and contrast the different properties of matter – color, hardness, texture, odor, and taste. Students will also demonstrate the science concepts learned from reading informational text passages on the properties of matter. |
| Name |
Description |
| Chemical Change Investigations | Inquiry in Action | In this series of 10 investigations, students gain experience with the evidence of chemical change - production of a gas, change in temperature, color change, and formation of a precipitate. Students begin by observing that similar-looking powders can be differentiated by the way they react chemically with certain test liquids. Students then use their chemical tests and observations to identify an unknown powder and, in a follow-up activity, to identify the active ingredients in baking powder. Students continue to explore chemical change by using a thermometer to observe that temperature either increases or decreases during chemical reactions. Then they control these reactions by adjusting the amount of reactants. In another set of activities, students use the color changes of red cabbage indicator to classify substances as acids or bases, neutralize solutions, and compare the relative acidity of two different solutions. Students conclude the investigation by comparing a precipitate to one of the reactants that formed it. Students see that a new substance was created during the chemical reaction. Information and questions about photosynthesis and cellular respiration
are included as examples of chemical changes on pages 316-318 of this
resource. |
| Physical properties and physical change in liquids | Inquiry in Action | In this investigation, students compare the way four known liquids behave, and then apply these observations to identify an unknown liquid. Students then compare how each liquid combines with water and use this property to identify unknown liquids. The activities throughout the investigation emphasize the characteristic properties of liquids, identifying and controlling variables, making observations, and analyzing results to answer a question. |
| Physical Properties & Physical Change in Solids | Curious Crystals | Inquiry in Action | In this investigation, students will carefully look at four known household crystals. After observing and describing the crystals, students will be given an unknown crystal, which is chemically the same as one of the four known crystals but looks different. When students realize that they cannot identify this crystal by its appearance alone, they will suggest other tests and ways to compare the crystals to eventually identify the unknown crystal. The other activities in this investigation are examples of tests students can conduct on the crystals. After a series of these tests, students will gather enough evidence to identify the unknown crystal. |
