Define a problem, use appropriate reference materials to support scientific understanding, plan and carry out scientific investigations of various types such as: systematic observations, experiments requiring the identification of variables, collecting and organizing data, interpreting data in charts, tables, and graphics, analyze information, make predictions, and defend conclusions.
| Name |
Description |
| Just Right Goldilocks’ Café: Temperature & Turbidity | This is lesson 3 of 3 in the Goldilocks’ Café Just Right unit. This lesson focuses on systematic investigation on getting a cup of coffee to be the “just right” temperature and turbidity level. Students will use both the temperature probe and turbidity sensor and code using ScratchX during their investigation. |
| Just Right Goldilocks’ Café: Turbidity | This is lesson 2 of 3 in the Just Right Goldilocks’ Café unit. This lesson focuses on systematic investigation on getting a cup of coffee to be the “just right” level of turbidity. Students will use turbidity sensors and code using ScratchX during their investigation. |
| Just Right Goldilocks’ Café: Temperature | This is lesson 1 of 3 in the Just Right Goldilocks’ Café unit. This lesson focuses on systematic investigation on getting a cup of coffee to be the “just right” temperature. Students will use temperature probes and code using ScratchX during their investigation.
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| Gr. 5 Lesson 3-Fishy Business | Students will examine the effect of exotic species on an ecosystem by role-playing both a healthy food chain and one that has been impacted by Mayan cichlids. |
| Mechanical Hands | In this STEM design challenge, students will build a working hand model to examine the function of the skeletal and muscular systems. |
| Marbelous Pool Noodle Ramps | In this lesson, students will build a ramp out of a pool noodle and use it to launch a marble across the room. Students will investigate by adjusting the height and slope of the ramp and record their findings on a data sheet. Students will practice collecting and analyzing data and will investigate the importance of performing repeated experimental trials. Students will practice converting metric units of distance as well as the addition and division of decimals to find the mean of a small data set. |
| Icky, Icky, No More Slicky | In this lesson, 5th grade students will build an engineering device to separate oil from water in a simulated oil spill. Students will have an opportunity to learn about the impact that humans can have on the environment, both positively and negatively.
This is an Engineering Design Challenge that is best used after a unit or lesson that is aligned to science standards on solving problems or materials which dissolve in water. This challenge provides students a means to use their knowledge of the way materials will or will not dissolve in water to create and design an oil spill removal tool while learning the Engineering Design Process and being exposed to the field of engineering. This lesson is not intended as an initial introduction to the standard and would be best utilized as a culmination lesson. |
| Paper Airplanes Away! | In this lesson, students will design and fly their own paper airplane and analyze their flight data to determine the best designs for getting planes to travel the farthest distance. Students will organize class flight data into a line plot and calculate the mean, median, mode, and range for the data set. |
| Pendulum Inquiry - Wrecking Balls | In this lesson, students will mimic a wrecking ball by manipulating the variables of a pendulum in order to move objects with different masses. It is recommended this lesson follow Pendulum Inquiry (see Related CPALMS Resources), which will build students' content knowledge on pendulums. Students can apply their understanding of pendulums gained from the lesson Pendulum Inquiry to assist them in designing wrecking ball pendulums in this lesson. |
| Pendulum Inquiry | Pendulums are a fun and engaging way for students to learn about physics and the nature of science. In this lesson, students will investigate the effects of gravity, mass, changing variables and energy transfer through building their own pendulums as well as teacher demonstration. |
| You Be the Judge | This model eliciting activity teaches students a common version of the scientific method by making them the judges of a science fair. In order to judge the science fair projects they have to evaluate the importance of each step of the scientific method and assign a value to it. 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. |
| The Shocking Truth About Circuits - An Engineering Design Challenge | This Engineering Design Challenge is intended to help students apply the concepts of electrical energy, circuits, insulators and conductors in standards SC.5.P.10.4, SC.5.P.11.1, SC.5.P.11.1, SC.5.P.11.2 by constructing circuits. It may also be used as introductory instruction of the content. |
| Planetary Exploration - An Engineering Design Challenge | This Engineering Design Challenge is intended to help students research and investigate the characteristics of planets in our solar system for standard SC.5.E.5.2. It may also be used as introductory instruction of the content. |
| Baseball Dilemma MEA | In this open-ended problem, students will work in teams to determine a procedure for selecting a company from which to purchase baseball helmets. Students will make decisions based on a table that includes company, cost per helmet, material helmet are made of, framework, and comfort. Students will determine procedure for company selection with provided information, and write a letter to the client providing evidence for their decisions. 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. |
| To Dissolve or Not To Dissolve, Part 1 | This lesson uses the 5E model as students explore how various substances will dissolve. This is the first in a two part lesson. In the second lesson, students will compare how a substance will dissolve in varying temperatures. Students will learn about dissolving, mixtures, solutions and solubility. |
| Vegetables for Our Farm | This MEA asks the students to analyze data and provide a procedure that can be used by New Wave Farms in order to choose the best vegetable to plant as their first trial with their new soil. The students are to provide the company with a written document showing the order considered to be the best value for their money to the least value, the step by step procedure used to determine the rank order, and an explanation of which category is considered the most important when making the ranking and why. 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. |
| Wazzup Charter Schools Playground Dilemma MEA | This Model Eliciting Activity (MEA) is written at a 5th grade level. The Wazzup Charter School MEA provides students with an engineering problem in which they must work as a team to design a procedure to select the best type of surface for a playground at a charter school. 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. |
| Caladocious Skate Parks | This Model Eliciting Activity (MEA) is written at a 4th-5th grade level. In this open-ended problem, students must consider how to rank skate board wheels based on factors like types of surfaces, price, and durometer. In teams, students determine their procedures and write letters back to the 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. |
| Investigating Variables | In this inquiry lesson, students will design an experiment to answer the question "How do different surfaces affect the bounce of a ping pong ball?" Students will collect and analyze data as well as identify controls and variables in a scientific experiment. |
| Sail Away - An Engineering Design Challenge | This Engineering Design Challenge is intended to help students apply the concepts of forces from SC.5.P.13.1 and SC.5.P.13.2 as well as energy and its ability to cause motion from SC.5.P.10.1 and SC.5.P.10.2 by designing a boat and racing it. It may also be used as introductory instruction of the content. |
| Grow Toys | As students investigate grow toys, students use and practice scientific process, communication, and thinking skills as they distinguish observations from opinions, conduct investigations, gather data, analyze data, and draw conclusions based on data. |
| 3 Methods for Measuring Volume | This hands-on lesson plan allows students to investigate three methods for measuring volume. Students will learn to measure volume for liquids, regular-sized solids, and irregular sized objects. During the lesson students are exposed to demonstrations from the teacher and will participate in hands-on investigations utilizing three methods for measuring volume that they conduct and report to the class. |
| A Tasty Experiment | In this activity, students conduct an experiment to determine whether or not the sense of smell is important for being able to recognize foods by taste. This activity supports learning about engineering and design processes. |
| Blast Off - An Engineering Design Challenge | This Engineering Design Challenge is intended to help students apply the concepts of forces from SC.5.P.13.1 and SC.5.P.13.2 by building and launching straw rockets. It may also be used as introductory instruction of the content. |
| Feeling the Pressure — An Engineering Design Challenge | "This Engineering Design Challenge is intended to help students apply the concepts of air pressure from SC.5.E.7.3 as they improve upon a common homemade barometer design to create one that is more accurate. It is not intended as an all encompassing lesson for this benchmark." |
| Follow the Water Lesson 1: Filtration Station | Water is essential for human health, but it can sometimes be contaminated. Water filtration can filter out contaminants and impurities making water much safer to consume. But what is the best way to filter water? Students will participate in a water filtration engineering challenge to try out different combinations of materials to find which works best. This lesson was developed by the Phillip and Patricia Frost Museum of Science with support from the Weo Foundation. |
| Introduction To The Nature Journal | In the lessons here, students exercise the observation skills that are essential to writing, visual art, and science. First, they try to use evocative language in describing pictures of birds from the Smithsonian's National Zoo. They go on to record observations and to make hypotheses as they follow the behavior of animals on the National Zoo's live webcams. They can watch the giant pandas, the tigers, the cheetahs, the gorillas, or any of a dozen other species. |
| It's Too Hot In Here | Students explore and investigate the theory that heat flow and movement within Earth causes earthquakes and volcanic eruptions as well as contributes to mountains and ocean basins. Students will examine: surface structures, tectonic plate maps, volcanic and earthquake historical data and video evidence. Students use their acquired knowledge to organize a PowerPoint or video presentation that illustrates their comprehension of of benchmark SC.7.E.6.7. |
| Lunar Landers: Exploring Gravity | The attached engineering design lesson plan elaborates on the PBS Kids online resource and will probably take from 4-5 class periods. It takes the students through the engineering design process which includes the following components: Identify the Problem, Brainstorm and Design a Solution, Test and Evaluate, Redesign, Reflect and Share the Solution. |
| Made To Sail | Students use simple materials to design and make model sailboats that must stay upright and sail straight in a testing tank. |
| Solve the Dissolving Problem | In this lesson, students will be experimenting what independent variable will affect dissolving rates; students will compare results of peers to also determine materials that dissolve and do not dissolve from 5 given materials; and, students will identify and learn what controls in an experiment are and their importance. This is a multi-part lesson that can be broken down by day or presented in one block. Complete all Part As in each phase (Teaching/I Do/Know, Guided/We Do/Understand, Independent/You Do/Do) before Part Bs. This lesson does not address the reference/research component of SC.5.N.1.1. |
| To Dissolve or Not To Dissolve, Part 2 | This is part 2 of a lesson addressing solubility. Part 1 addresses how varying substances will dissolve in water. Part 2 addresses how temperature will effect solubility. The 5E lesson plan model will include a lab and is aligned with Florida ELA standards. |
| Transformation of Energy: Constructing an Electromagnet | In this hands-on lesson, students will work in groups to construct an electromagnet. This lesson focuses energy, forms of energy, and how energy is transformed in a circuit. This lesson also can be used to address variables in an experiment, conductors and insulators, data tables and graphs, and open and closed circuits. |
| Walk, Run, Jump | In this activity, students participate in a series of timed relay races using their skeletal muscles. The students compare the movement of skeletal muscle and relate how engineers help astronauts exercise skeletal muscles in space. |
| We're Curious!—An Engineering Design Challenge | This Engineering Design Challenge is intended to help students apply the concepts of forces as they build containers to protect their eggs in an egg drop. It is not intended as an initial introduction to this benchmark. |
