Third grade environmentalists used solar power, an alternative energy source that is clean and renewable, to cook s’mores. The heat is transferred using radiation waves from the sun. We viewed several different design option for solar ovens and identified the common features. Click here to learn more about constructing solar ovens.

One of the assignments in the Upper School’s environmental studies class is to design a solar oven that can boil water, so this was a fun introductory investigation. Click here to watch college freshmen design solar ovens.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

As we walked back to the lab, we placed our hand on a white car and then a black car in the parking lot. Heat passed through conduction, and we were amazed at how much hotter the black car felt. Dark colors absorb more light energy.

Back in the lab, I also shared some other items that are powered by solar energy. Look how fast the animals on the back table are moving. They are in the sunlight.

Second grade engineers continued their study of simple machines with a lab that focused on wheels and axles. Click here to learn more about wheels and axles. These physicists were challenged to construct a vehicle with wheels that could move freely on its axles. A variety of materials were available for wheels, axles, and chassis, as well as a variety of adhesive choices. Determining how to attach the wheels to the chassis was one of the design challenges. As they used the design process, they realized that some sort of hub caps were necessary to hold the wheels on the axles. At the end of the lab, some of the wheels did not touch the ground, some wheels were tilted, and others did not turn. I witnessed problem solving and collaboration as they worked to resolve these issues. In part two of this lab, we refined our designs after we tested our prototypes.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

My second grade scientists have studied force, motion, and space, so a paper airplane lab was a perfect fit. We reviewed gravity and friction and then I introduced three new forces: lift, thrust, and drag. Click here to watch a video about these forces.

My aerospace engineers made paper airplanes at home prior to lab. They were free to ask others for help and to research designs online (with parental help) because scientists collaborate! We reviewed the Engineer Design Process: Define the Problem, Imagine, Plan, Create, Test, and Improve. As we looked at all our classmates’ planes, we noticed a variety of wing designs and nose shapes. Some planes were stapled or taped together. Planes were a variety of sizes and made from different types of paper. I was so excited by the work my engineers put into this project. Many of them told me that they made several designs, and tested them before they chose the design to bring to school. Want to try more designs? Click here for a great paper airplane design resource.

After we shared our designs, we tested them. We discovered that the way we threw our airplanes directly impacted how far they flew.

 

 

 

 

 

 

 

 

 

 

Then, we looked at the airplanes that traveled the furthest to see if there were any similarities. The following engineers had the most successful designs.

This design flew double the distance of any other airplane-almost the entire length of the gym. It was constructed of cardstock.

Mr. Swegman demonstrated how to throw an airplane.

It was time for these first grade engineers to apply what we’ve learned the previous two weeks to create their own circuits. If our circuits failed, we used critical thinking skills to resolve the problems. Click here and here to learn more.

Scientists in second grade study the six simple machines. A few weeks ago we made catapults to explore levers. In this lab, we investigated inclined planes.

We watched Mystery Science, an excellent online resource, to discover why the first hill of a roller coaster is always the highest. Then, my engineers were asked to apply their knowledge of force and motion, as well as the information they learned from the online investigation, to create a marble roller coaster. My physicists set off to work with foam pipe insulation, marbles of various sizes and weights, and lots of tape! Vocabulary included accelerate, momentum, potential, and kinetic energy. As students attempted to make loops in their roller coasters, they learned more about centripetal force. As partners communicated and collaborated, they continually tested and improved their designs. What a fun way to develop critical thinking skills! This was not an easy task. Click here for more information about how to try this at home.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

As we lined up to leave lab, we noticed the tub of paper towel tubes. Could we have attached them this way to prevent some of the challenges we experienced connecting the pieces of insulation with tape?

Anyone want to build a backyard roller coaster? Click here to watch the fun!

First grade electrical engineers continued their study of circuits. In this lab, we learned how to use an insulator (clay) between conductive playdoh to prevent short circuits. Each pair of collaborative partners made a flashlight and an octopus. Can you identify the insulator in the circuits below? Next week, they will apply what they’ve learned to create original designs.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

At the end of lab, we added a propeller to the circuit. Why is there a difference in speed in the two circuits below?

Kindergarten biologists continued their study of ecosystems around the world. As we entered the lab and saw this scene on the Activpanel, we felt as if we had entered the Amazon rainforest. The rainy day and our dark room added to the ambience. Click here for a rainforest scene with sound effects.

Many fruits grow in the rainforest, including grapefruit, oranges, lemons, pineapples, coconuts, kiwis, bananas, limes, avocadoes. mangoes, and papayas. Grapes and apples do not grow there, but we did test a grape. We investigated whether these fruits would sink or float and discussed our results which led us back to previous experiences with density. Make a rainforest fruit salad at home. Buy some fruits that your child hasn’t tasted. Describe the outside texture and shape. Compare the size, shape, and colors of seeds and how they are dispersed inside. Are the inside and outside colors of the fruit the same? Does the fruit taste sweet or sour?

Kindergarten engineers were asked to build a play structure for a new rainforest exhibit at the zoo. We learned that it is important to begin with a strong foundation and to balance the materials carefully. I witnessed critical thinking and perseverance as they worked to solve problems. This activity was also a fun way to strengthen fine motor skills. Add these items to other building materials at home. Tubes of rainforest, desert, and savanna animals are sold at Michael’s, Joanne’s and Hobby Lobby, as well as Amazon. This would be an ideal time to visit the zoo!

Note: We were dressed up as our favorite story characters on this day.

After our lesson about catapults, this innovative engineer accepted the challenge to construct a catapult from an original design at home! Congratulations on your outstanding work!

It was so much fun to watch these animals come alive! Third graders came with a plan and worked independently. Mrs. Borain will use the ocean animals in a Media Center display.

 

Click here to see how a professional artist uses trash to create amazing works of art.

We began lab with a demonstration of lift. Students helped me place ping pong balls into a column of air produced by a hair dryer. It appeared the balls were levitating. Why didn’t they blow away? We were investigating the Bernoulli Principle. Then we placed various cardboard tubes over the balls and created wind tunnels. NASA uses wind tunnels to test scale models of aircraft and spacecraft. Click here to learn how to repeat this investigation at home. Try a variety of balls and and tubes.

Then, second grade engineers applied what they had previously learned about rotocopters, gravity, and lift to create their own rotocopter designs. How will the rotocopter turn? We took this STEM challenge through the Design Process and tested them in the rotunda.

Through this project, we learned:

• There are many ways to solve a problem. (Creativity)
• Most of our first designs did not rotate. (Problem Solving)
• We can learn from each other. (Collaboration)
• We learned something from each design. (Fail forward.)
• Solving a problem takes time. (Perseverance)