Code | Description | |
MA.5.M.1.1: | Solve multi-step real-world problems that involve converting measurement units to equivalent measurements within a single system of measurement.
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Access Point Number | Access Point Title |
MA.5.M.1.AP.1a: | Using a conversion sheet, convert within a single system of measurement using the units: miles, yards, feet, inches; pounds, ounces; gallons, quarts, pints, cups; and hours, minutes. Only whole number measurements may be used. |
MA.5.M.1.AP.1b: | Using a conversion sheet, solve one-and two-step real-world problems that involve converting measurement units (i.e., miles, yards, feet, inches; pounds, ounces; gallons, quarts, pints, cups; and hours, minutes) to equivalent measurements within a single system of measurement. Only whole number measurements may be used. |
Name | Description |
A Day at the Park: Time: | Learn how to convert time from seconds to minutes, minutes to hours, and hours to days. In this interactive tutorial, you will also practice converting time to fractional amounts. |
Healthy Distance: Social Distancing Measurement Conversions: | Learn why it's sometimes important to use social distancing to reduce the spread of germs and how to estimate and convert this customary distance with this interactive tutorial. |
Measuring to Build a Ramp: | Learn how to convert among different-sized customary units of weight, length, capacity, and units of time at the skate park in the this interactive tutorial. |
Name | Description |
Converting Metric Measurement Units : | Students are asked to make metric measurement conversions involving length and mass. |
Converting Customary Measurement Units : | Students are asked to make customary measurement conversions involving weight and time. |
Party Planning: | Students are asked to solve two multi-step word problems that require converting units. |
Candy and Ribbon: | Students are asked to solve multi-step word problems that require converting units. |
Name | Description |
Disaster Relief: | Students will analyze data to develop a resupply schedule for a humanitarian mission following a natural disaster. They will apply mathematical operations over multiple steps to minimize the operational cost of the humanitarian mission. This is an open-ended engineering design lesson where students will develop a model to help them solve a problem. There are no “right” answers as the lesson is focused on the process of developing a solution and the skills and reasoning behind the process. Students should be given the freedom to interpret the problem and parameters in unique ways to pursue their own lines of thinking in producing a solution. |
I'll Fly Today: | In this Model Eliciting Activity, MEA, students will use the provided data to calculate travel time and total cost after tax. Students will consider this data and other provided criteria to assist a travel agent in determining which airline to choose for 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. |
Solving Multi-Step Word Problems With "Undecided" Colonists: | Students will be divided into groups and given a set of multi-step real-world problems to solve. The word problems will be specific to topics important to the neutral colonists during the American Revolution. The lesson will conclude with a class discussion of the word problems tying the math and civics together in this integrated lesson plan. |
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. |
Natural Builders - STEM Engineering Design Challenge: | In this lesson, students will investigate and explain balanced and unbalanced forces as they design a building for Miami Beach that is inspired by Florida's natural environment. In this challenge/lesson, students must design a building model that is at least thirty centimeters tall, features two elements that move in the wind, and can also withstand the wind. |
Shot-Put Conversion Activity (Day 2 of 2): | This is Lesson 2 of a two-part unit. Resource 73257: Shot-Put Conversion Activity Day 1 of 1 is the first lesson. Students will have fun learning to convert units within the metric system. Students are engaged and will complete hands-on activities to learn how the metric system is based on powers of ten. In this lesson, students will compete against one another by seeing who can throw the shot-put the farthest and convert the distance measured into different metric units. |
Where on Earth is (teacher name)?!: | Students practice converting metric and customary measurements, while helping their teacher travel on summer vacation in Europe. |
Metric Length Madness: | This lesson will help students to convert metric units of length, such as kilometers, meters, centimeters, and millimeters. |
Shot-Put Conversion Activity (Day 1 of 2): | Students will have fun learning how to convert units within the metric system. Students are engaged and will complete hands-on activity to learn how the metric system is based on powers of ten. There are two lessons in this unit. In the 2nd lesson (Resource 73766), students will compete against one another by seeing who can throw the shot-put the farthest and convert this distance into different metric units. |
Mars Exploration Administration: | Students will be given the opportunity to design a conductivity tester for astronauts to use on Mars. Students will then get to use a 3D printed tester to check common items for potential conductivity and then to redesign their tester. 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. |
Help Save Atreyu!: | In this activity students will analyze data about the conditions in a hermit crab habitat to determine which one will be best to meet the animal’s needs. 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 |
Workouts That Work: | Students will create a rating system for workout DVD's according to weight loss, muscle toning, and increased physical condition. 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. |
Museum Dilemma: | In this MEA, students evaluate the contributions of various explorers to help a museum select the subject who provided the most impact on Western development for a new exhibit. Students will need to convert units to have the necessary information to help come up with a solution to the problem. |
Pounds to Ounces: MEA: | The client, Twi N. Key Bakery, wants your students to help them determine which product to sell in your school. Along the way your students will have to convert pounds to ounces as well as survey their peers. 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. |
Interplanetary Zoo: | Students will explore how animal adaptations and habitats are related when extraterrestrials from an Earth-like planet send the Earth a gift of animals from their planet and the animals must be placed in a zoo. Students will use the characteristics of the animals to figure out the habitat the animals are best adapted to. |
X-treme Roller Coasters: | This MEA asks students to assist Ms. Joy Ride who is creating a virtual TV series about extreme roller coasters. They work together to determine which roller coaster is most extreme and should be featured in the first episode. Students are presented with research of five extreme roller coasters and they must use their math skills to convert units of measurements while learning about force and motion. 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. |
Stand Up and Cheer: | This MEA asks the students to compare items to be given to fans attending a college homecoming football game. 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 processes. 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 MEAs visit: https://www.cpalms.org/cpalms/mea.aspx |
Getting Dry: | This MEA asks the students to compare hand drying products based on: initial cost, replacement cost and absorbency. Students will provide the "top choice" to the principal of the school and explain how they arrived at the solution. In the twist, students will be asked to consider the environmental impact of the products and reevaluate their conclusions. 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 processes. 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 MEAs visit: https://www.cpalms.org/cpalms/mea.aspx |
New Frozen Yogurt Store: | This MEA asks students to decide which factors are important in developing a successful frozen yogurt (froyo) store in order to compete with and become the best store in the area. Students will provide feedback to an entrepreneur who is looking to open a frozen yogurt store. They will rank order their choices of the most successful to least successful store. Students will provide a detailed written explanation for how they decided to rank factors and their solution rating existing stores from best to worst. 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 processes. 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 MEAs visit: https://www.cpalms.org/cpalms/mea.aspx |
Conversion Excursion: | This lesson will help students understand the importance of the metric system and see the connection between place value and metric system charts. The students will use a metric system chart to convert between metric units to solve real-world problems. |
Give An Inch, Take A Foot: | In this activity students practice measuring techniques by measuring different objects and distances around the classroom. They practice using different scales of measurement in metric units and estimation. |
Name | Description |
Bicycle Mathematics: Speed and Distance Calculations: | Cycling involves a lot of real-time math when you use an on-board computer. Learn about lesson ideas and how computers help with understanding performance. Download the CPALMS Perspectives video student note taking guide. |
Name | Description |
Minutes and Days: | This task requires division of multi-digit numbers in the context of changing units. In addition, the conversion problem requires two steps since 2011 minutes needs to be converted first to hours and minutes and then to days, hours, and minutes. |
Converting Fractions of a Unit into a Smaller Unit: | The purpose of this task is to help students gain a better understanding of fractions and the conversion of fractions into smaller units. |
Name | Description |
Ball Bounce Experiment: | Students investigate different balls' abilities to bounce and represent the data they collect graphically. |
Name | Description |
Metric System: Units of Volume: | This Khan Academy tutorial video illustrates the conversion equivalence of liters, milliliters, and kiloliters. |
Unit Measurement Word Problem: Distance (US Customary): | This Khan Academy tutorial video develops a visual diagram to use to solve a distance problem that requires converting feet to yards and other computations. |
Unit Conversion: Ordering Metric Distances Example: | This Khan Academy tutorial video demonstrates a strategy for ordering four different-sized metric length units. |
Name | Description |
Soybean growth rate response to touch: | A time-lapse video showing differential growth rates for touch-treated seedlings and control seedlings. This would be appropriate for lessons about plant growth responses to environmental stress and graphing growth rate. Plants were grown in a vermiculite soilless medium with calcium-enhanced water. No other minerals or nutrients were used. Plants were grown in a dark room with specially-filtered green light. The plants did not grow by cellular reproduction but only by expansion of existing cells in the hypocotyl region below the 'hook'. |
Title | Description |
A Day at the Park: Time: | Learn how to convert time from seconds to minutes, minutes to hours, and hours to days. In this interactive tutorial, you will also practice converting time to fractional amounts. |
Healthy Distance: Social Distancing Measurement Conversions: | Learn why it's sometimes important to use social distancing to reduce the spread of germs and how to estimate and convert this customary distance with this interactive tutorial. |
Measuring to Build a Ramp: | Learn how to convert among different-sized customary units of weight, length, capacity, and units of time at the skate park in the this interactive tutorial. |
Title | Description |
Minutes and Days: | This task requires division of multi-digit numbers in the context of changing units. In addition, the conversion problem requires two steps since 2011 minutes needs to be converted first to hours and minutes and then to days, hours, and minutes. |
Converting Fractions of a Unit into a Smaller Unit: | The purpose of this task is to help students gain a better understanding of fractions and the conversion of fractions into smaller units. |
Title | Description |
Metric System: Units of Volume: | This Khan Academy tutorial video illustrates the conversion equivalence of liters, milliliters, and kiloliters. |
Unit Measurement Word Problem: Distance (US Customary): | This Khan Academy tutorial video develops a visual diagram to use to solve a distance problem that requires converting feet to yards and other computations. |
Unit Conversion: Ordering Metric Distances Example: | This Khan Academy tutorial video demonstrates a strategy for ordering four different-sized metric length units. |
Title | Description |
Minutes and Days: | This task requires division of multi-digit numbers in the context of changing units. In addition, the conversion problem requires two steps since 2011 minutes needs to be converted first to hours and minutes and then to days, hours, and minutes. |
Converting Fractions of a Unit into a Smaller Unit: | The purpose of this task is to help students gain a better understanding of fractions and the conversion of fractions into smaller units. |