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What do you think? When a person is making a car go, can the car go on forever? Why or why not?

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Discuss: Where does this car get its energy from?

windupcar

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If you wanted a wind-up car to go farther, what would you do?

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TEACHERS — NEED A NATURAL STOPPING POINT?

The Rubber Band Roller Activity takes about 40 minutes. Constructing the roller takes about 20 minutes and then racing their rollers in teams takes another 20 minutes.

If your time is limited, there is a natural stopping point after the students complete their rollers. At that point, you could have students write their names on their rollers, then collect them and conduct the race during your next science class.

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# Extensions

Below are ideas for extending this topic beyond the Exploration and Activity you just completed.

End of Mystery Assessment and Answer Key
Reading: The First Airplane Engine
Online videos: See that food really is fuel.
Language Arts Extension: Energize students’ writing.
Demo & discussion: Balloon Blast Off
Activity: Build balloon-powered cars

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# Video: Food is Fuel

You know that food contains energy — it’s the fuel that keeps your muscles moving. Calories — yes, the same calories that people talk about when they are trying to lose weight — are one way of figuring out how much energy food contains.

This video shows you one way that scientist can figure out how much energy is in a particular food -- by setting the food on fire!

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# Language Arts Extension: Energize your students’ writing

Help your students see that energy is everywhere. Use these writing prompts to start them thinking about energy in their lives.

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## Demo & Discussion: Balloon Blast Off

Inflate a balloon & pinch the neck closed. Let go & show your students what happens. Then ask them to explain where the energy that made the balloon move came from.

Here's an answer: You use your lungs (powered by energy from food you ate) to push air into the balloon. That energy stretches the rubber of the balloon, storing the energy. When you let go, that stored energy makes the air rush out, and the balloon goes flying.

If thinking about balloons inspires your students, consider building some balloon-powered cars

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Image & Video Credits

Mystery Science respects the intellectual property rights of the owners of visual assets. We make every effort to use images and videos under appropriate licenses from the owner or by reaching out to the owner to get explicit permission. If you are the owner of a visual and believe we are using it without permission, please contact us—we will reply promptly and make things right.

Lesson Image

car open hood by Kathleen Tyler Conklin , used under CC BY

Exploration

crowded highway by Tammra McCauley , used under CC BY

gas can by Alisha Vargas , used under CC BY

pumping gas by everycar_listed_photos , used under CC BY-SA

gasoline in driveway by James Quagliano

how an engine works by allegroracing

red vintage car by Christopher Koppes , used under CC BY

electric car by RevaNorge , used under CC BY-SA

batteries by Anton Fomkin , used under CC BY

electric car charging by xlibber , used under CC BY

cars in motion by Hamed Saber , used under CC BY

gas gauge by Chris Metcalf , used under CC BY

red car by Aske Holst , used under CC BY

pushing car by Jessica Dodel

real life Fred Flintstone by ChromeFunTube

TU buscycle by Sustainable Engineering Research Unit, TU

spaghetti and meatballs by TheCulinaryGeek , used under CC BY

swimming by Karen Blaha , used under CC BY-SA

Michael Phelps medal by Eric Draper

egg sandwich by Seph Swain , used under CC BY

fork by Fg2

french toast by Justin Smith , used under CC BY-SA

pancakes by AimeePlesa , used under CC BY

grits by Ann Larie Valentine , used under CC BY-SA

omelet by Nathan Borror , used under CC BY

child flexing by Vicki C , used under CC BY

back sweat by Phil Scoville , used under CC BY

french fries by Christian Schnettelker , used under CC BY

semi truck by Walmart Corporate , used under CC BY

pouring grease by Walmart Corporate , used under CC BY

soybean powered bus by United States Department of Energy

race car by Philip Roberts , used under CC BY

spoon of sugar by Melissa Wiese , used under CC BY

sugar rocket by Johnny61616

RC care by MrBusyBusy

Duracell batteries by Anton Fomkin , used under CC BY

jet car by Arvind Gupta

red balloon by Jason Baker , used under CC BY

sonic car launcher by SonicDadDotCom

spring by Eusebius , used under CC BY

rubber band by Sander van der Wel , used under CC BY-SA

Activity

pen by JohannPoufPouf

frog (left side) by Brian Gratwicke , used under CC BY

frog (right side) by Brian Gratwicke , used under CC BY

checkered flag (at finish line) by Ewan ar Born , used under CC BY-SA

pencil by JohannPoufPouf

checkered flag by meridican , used under CC BY

Other

3D Orange hatchback illustration by Rawpixel.com

Apple Slingshot by Benjamin Weger

Battery batteries accumulator by Oleksandr_Delyk

Busy Highway freeway Los Angeles by MountAiryFilms

Chocolate by André Karwath

Egg Burger by Seph Swain

Girl Sleeping with Sickness on the bed by Rawpixel.com

Hands play shoot rubber band like sling shot by Abaget

How a modern slingshot ride works by Art of Engineering

How to make very easy airplane by _Ex

Impact Racing Green Case Study by EPSRC Video

Jessica Dodel lifts, pushing car by Jessica Dodel

Man Filling gasoline fuel in car by Maria Sbytova

Michael Phelps by Fernando Frazao and Angelica Brasil

Michael Phelps 200m Butterfly Final by Planet Earth

Motorsports, drag racing by Stockshooter

Playing tag at the park by Uott2know

Sick African American girl with flu by Diego Cervo

Soybeanbus by US Gov

Stone ground grits with cheese by Ann Larie Valentine

Sugar by Melissa Wiese

Sunday Omelets by Nathan Borror

Toy Rocket by Theis Kofoed Hjorth

Trompette by Eusebius Commons

WVO Girls by GreenRvLife

Whole grain French toast by Justin Smith

Woman using mobile phone screen by Emariya

hide and seek chase tag by Sisters fun tube 2

snap back to reality by Sander Van der Wel

Credits

“The scientific interaction and brainstorming by the students was absolutely the best part of this activity. They not only had to figure out the number of spins, but also how to keep the car moving in a straight line. Very thought provoking.”

“My favorite part is the step-by-step video for building instructions for the cars. I especially like that they are on a loop so if they missed it the first time it will keep demonstrating it until they can get it or I can get to them.”

“The students were completely engaged with the video, but they erupted with excitement when they realized we were actually going to make the rubber band racers. They were even more excited when they found out we were going to race to the sweet spot. They were able to explain how more stored energy resulted in greater energy released and they couldn't wait to go home and experiment some more. It was great watching them adjust their racers to make it to the sweet spot. ”

“The students loved making the rubber band rollers. The steps in your video were so easy to follow. I also loved the fact that after you explain a step the video continues to play the step over and over without the audio.”

“They loved testing the racers. We had some technical difficulties because I used plastic cups instead of paper cups. Some kids went and tried again at home. That is the essence of a successful lesson.”

“The lesson went smoothly due to the great videos and the walk though on how to build the cars. The students absolutely loved racing the cars! We added in friction to our discussion, wondering what would be the best surface for our racetrack. ”

“The hands on activities are always fun for the kids. the videos are well done, informative, and very interesting. The Quizzes afterwards could be more rigorous and written more specifically. Some questions were confusing for the students because the kids were't quite sure about what certain questions were asking. All in all I am a huge fan of mystery science!”

“I love how the students get into the projects and they really understand the why behind things. We did the end of mystery assessment and I was a little nervous because I wasn't sure how they did, but they rocked it! They really understood the concept of energy. Love Mystery Science!”

“Students engaging with content with a very hands-on activity! My students loved failing and then making adjustments to their next trial. It was very exciting for them when they finally succeeded! Most importantly, this lesson truly helped my students to understand energy, especially in relation to kinetic and potential. Thank you for providing such a great rubber-band roller and experiment.”

“The students were so engaged with the videos and the building of the car. I was amazed and thrilled. I also loved the links to the supplies through Amazon. I couldn't ask for a better experience.”

“The kids were very much engaged. The video that replays when students put everything together was genius! The kids did have trouble with cup cars running without problems- working on solutions still.”

“I have a challenging grade 4 classes, and so far the first mystery has really engaged their thinking. I added a couple of "sketch and stretch" pauses for them to respond, and also gave them some exploration time with wind up cars in anticipation of the activity, which we'll do next class period. ”

“The kids had a great time with this one. It really helped them see the connection of stored energy and how it is used. They were also able to test their experimental skills when figuring out what worked and didn't work in their trials.”

“Our class really enjoyed this activity. We raced against the other classes and it was pretty funny. At times, the "car sped in circles." Overall it was fun. The hardest part was getting rubbebands that were 1/8" thick. Most were too long to use. Good luck!”

“I taught this a second time with another class and the rollers worked. We realized that the first day the students had twisted the rubberbands too much so they did not work for day 2 of racing. I absolutely love Mystery Science and the students are so engaged in the inquiry!”

“Rubberband racers were a HIT!!! It was a great lesson for the kids when the cups I got were too big and they weren't working. I told them that is part of experimenting! We changed the cup size and all were happy!”

“This was my class favorite so far!! The cars were simple to make and run beautifully! The kids loved testing their cars. We even added a distance race! We are using this activity to springboard into a social studies unit on business. The kids are researching other ways to energize toy cars and will be making one to virtually "sell" to investors and consumers. They are so excited and thanks to this lesson, they are very confident in their abilities to produce working prototypes!”

“It was so engaging and my students loved everything about it! The video kept their attention and made them laugh, and they got so excited to make the car. The race to the sweet spot was so much fun! They were cheering each other on! Thanks for a great lesson!”

“How to choose? Was it how engaged my students were throughout the lesson? Was it how successful my students felt after following the very clear video to make the car? Was it how much they enjoyed creating the car and testing it out? Or, was it the great discuss we had after they completed the reflection questions? Hard to choose when it was all so great.”

“Video was engaging with a Common Core focus of problem solving--great pacing & LOVED the looping 'how to' mini videos that went step-by-step. My 33 4th grade students were really engaged & using their problem solving skills. What an amazing resource! tusen takk--Norwegian for "a thousand thanks!"”

“The step-by-step building video allowed me to manage 32 students to successfully construct their racer with a partner. Their excitement during race time was great, plus their conversations about problem-solving issues with their racers was really amazing.”

How can a car run without gas?

Below are ideas for extending this topic beyond the Exploration and Activity you just completed.

Image & Video Credits

20 mins

40 mins

Extend this lesson

How can a car run without gas?

Below are ideas for extending this topic beyond the Exploration and Activity you just completed.

Image & Video Credits

Featured Reviews

Activity Prep

Step 1: Get supplies, print worksheets, and watch the troubleshooting video.

Step 2: Before class, cut cardboard squares for students & set up your racetrack.

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