Simple ingredients plus a head of hair and you have science!
You'll need an empty soda can, a filled balloon, and your hair. Place the can on its side on a table or other flat surface. Rub the balloon back and forth on your hair really fast. This allows you to build up electrons on the balloon. This is called static electricity. Hold the balloon close to the can without actually touching it. The can will start to roll towards the balloon! The electrons on the balloon have the power to pull very light objects (with a positive charge) toward them (like the soda can). Explore what you can make your can do using static electricity and then try the challenges below: Does the size of the balloon change the power of the pull? Try it again with a very full balloon and one that is mostly empty and compare your results. Does the length of the persons hair effect the power of the static electricity? Get friends and family members involved in figuring this one out! How much water can you put in the can until the balloon can’t pull it anymore? Test the strength of static electricity! As we near the start of our growing season here at the Lab, we've begun to explore creative ways that we can start seeds without purchasing new plastic containers.
For our first experiment, we repurposed old bedding packaging and turned them into mini greenhouses. The packaging had the perfect ingredients- an enclosed plastic container with a convenient zipper on top. Before getting started, we made sure the packaging didn't leak. We added soil, compost from our backyard, and seeds. We filled each mini greenhouse with about 2 inches of soil mix, which is plenty for staring seeds. In one we planted basil, on the other lettuce. We watered liberally, but not enough to leave puddles (after all, seeds don't swim!). The mini greenhouses were zipped up and placed on a sunny window. This is when we realized that the container isn't strong enough to stand upright on its own. We incorporated a little engineering to troubleshoot our situation. Using two kebab sticks, we placed them in a crisscross shape in each greenhouse. This provided the needed stability to keep the greenhouses upright. The results below are two weeks later on the lettuce. What else can you repurpose as a mini greenhouse for starting seeds? How about clear plastic egg containers? There's lots of possibilities! Happy growing! That clear water bottle you have lying around in your recycling bin can come in handy for some refraction science! Refraction occurs because light bends when it passes through substances, such as water and plastic. With this knowledge, we can conduct a fun and simple exploration which shows us what happens when the light bends as is passes through.
What you'll need: Clear water bottle (with all paper removed), sticky note, marker, water What you do: On the sticky note, draw two arrows, pointing in opposite directions. Make sure you use a dark color marker and that your arrows are big and clear. Stick this onto a wall. Fill the clear water bottle with water, all the way to the top, and screw the cap back on. Gradually move the water-filled bottle in front of the sticky note. As the bottle moves in front of the sticky note, something amazing happens with the arrows! They appear to change direction! Density can be a tricky concept to understand, but what we're basically talking about is the "weight" of liquids. We've put "weight"in quotations because it's the simplest way to define density, but not quite exactly. Every liquid has density. When solid objects are introduced, they may sink or float depending on the density of the liquid it is placed in. When we're talking about only liquids, this means you can do some pretty cool science exploration by stacking them in a density column.
The simple, non-edible version of this exploration involves oil and water. When placed together in a tall cup, you can see that not only do these liquids not mix, the water is always at the bottom and the oil is always at the top. The water is more dense (has more density) than the oil. You can explore density using edible ingredients too! Just like water, juice has density. The amount of sugar or fruit in the juice determines how dense it is. The more sugar or fruit, the more dense the juice is. What you'll need: A tall glass or cylinder, turkey baster, fruit juice (not canned or powdered since those are mostly water) What you do: Before starting, let's make a hypothesis! Take a look at the juice samples you have, paying close attention to the sugar content in each. Make a guess as to which juice is more or less dense. For our exploration at the Lab, we used Nature’s Promise White Grape (from Stop & Shop), Tropicana Pure Premium Orange Juice, and Tropicana Pomegranate-Blueberry. When adding the juice, slowly drip it onto the inside of the glass using the turkey baster so that it runs down the side of the glass. Watch the juice to see if it goes below or above the juice already inside the glass. If it simply mixes with the juice and does not go above or below, it has the same density as the juice and you will need to move on to your next juice. |
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