Measurement

• The Heaviest Pumpkin

  Students will find at least three ways to express the weight of the world’s heaviest pumpkin.

  Show 2 Steps

  1. First, students will make a guess. How much does the heaviest pumpkin in the world weigh?

  2. Then, they’ll convert that measurement into units of their choosing. I demonstrate with “Mr. Byrds.”

• Mow A Lawn

  Students will convert between multiple measurements and calculate area per hour to estimate how long it will take to mow a large lawn.

  Show 5 Steps

  1. Students begin by identifying what information they’ll need to know. Then they will try to find that info. We’re going for a rough estimate here, so they really only need to know the size of the Great Lawn, the speed they will walk, and the width of their mower.

  2. Next, they convert all of their units into feet and square feet (feel free to adapt this however you’d like).

  3. Now, they calculate how many square feet of grass they can mow in one hour and then determine how long it would take to mow the whole lawn.

  4. As an extension, students can pick a new mower and a new speed and re-calculate their time. Alternate speeds could include: world’s fastest mile time, fastest land animal, student’s sprinting speed, backwards walking speed, etc.

  5. Finally, they can pick a new lawn, determine the measurements, and decide how long that lawn would take to mow.

• Measurement: An Elephant

  Students will determine which unit is most likely if an elephant weighs 176,000. Then… the real fun begins.

  Show 4 Steps

  1. First, I tell students that my elephant weighs 176,000. They must determine the most likely units.

  2. We learn that this is in ounces. Now, students have to find out how many corgis it would take to equal the weight of one elephant.

  3. Now, students determine how many cars (they pick the make and model) it would take to equal the weight of one elephant.

  4. Finally, students get to pick their own unit of measurement and compare it to the weight of an elephant.

• Measurement: A Long Movie

  Students will determine which unit is most likely if a movie is 0.017 long. Then… the real fun begins.

  Show 5 Steps

  1. I tell students that I’ve just finished an epic movie that was 0.017 long. They have to determine which unit I’m using.

  2. I offer some scaffolding help to get kids started on their unit conversions (not necessary for all students).

  3. Then, we wonder how long this movie would be if measured in months?

  4. Now, we determine the length of the movie when measured in days on Venus!

  5. Finally, students can pick their own unit of time to measure the length of this long movie.

• Measurement: How Big is this Bathtub?

  Students will convert between many US units of volume.

  Show 4 Steps

  1. We have a bathtub filled with 640 of water. Which unit is most likely?

  2. What if we filled that bathtub using juice boxes? How many would it take?

  3. What if we filled an Olympic-sized pool using bathtubs?

  4. Finally, students pick their own item to fill a bathtub with.

• Measurement: How Old Is Mr. Byrd?

  Students will convert between many units of time.

  Show 5 Steps

  1. I announce that I’ve just turned 341,640 old and ask students to determine which units make the most sense.

  2. I provide a little scaffolding, showing why months is a very unlikely unit.

  3. Then, I ask students to determine how old I am in Saturn years.

  4. After revealing my findings, I ask a final question: how many flies’ lifetimes old am I?

  5. I reveal my answer and then open the door for students to use other unusual units of time to express my (or their!) age

• What Does it Cost to Fill a Car with Other Liquids

  Students will calculate how much it would cost to fill up a car with liquids of their choosing.

  Show 4 Steps

  1. Students compare the cost of various liquids with gasoline.

  2. Then they choose a car and determine its fuel tank capacity.

  3. Using my 2008 Kia Rondo, we calculate the price per fill up.

  4. Students use price anchoring to create an advertisement comparing gas prices to another liquid.

• How Many Students Can Fit On The Playground?

  Using Google Earth and authentic measurements, students will reach a reasonable estimate of how many students could fit on their playground.

  Show 5 Steps

  1. Make guesses about how many people could fit on a four-square court.

  2. Calculate the area of a four-square court as well as how much space a student takes up.

  3. Calculate how many people really could fit on a four-square court and then test it with real kids.

  4. Calculate how many students could fit onto the entire playground using Google Earth.

  5. Extend the idea to calculate how many people could fit into other large spaces.