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1. #Phone projector movie
2. #Phone projector download

#Phone projector download

🧪 And, to easily add science into your lesson plans, we’ll also send you the link to our shop where you can download the record sheets that goes along with this experiment and 29 other jaw-dropping science experiments so kids can easily keep track of their results! 👋 👉 Comment below or DM us “Sticky Ice” and our STEM Bot will immediately send you the link to our website where you can learn all about the science behind the experiment! The ice will have magically attached to it! I *guarantee* you already have everything you need.ġ-Mix food coloring with water and pour into ice trays before freezingĢ-Grab a small bowl, fill it with the colorful ice cubes and waterģ-Place the string on top of an ice cube and sprinkle salt over it.Ĥ-Wait 1 minute and then carefully lift up both ends of the string. #reeses #kidsscience #scienceeducation #scienceforkids #simplescience #kindergartenteacher #preschoolteacher #firstgradeteacher #scienceexperiment #STEMkids

👉 Comment below or DM us “Magic Pumpkin” and our STEM Bot will immediately send you the link to learn more on my blog!Īnd follow for more simple science experiments kids beg to repeat! Save so you can quickly pull up the play-by-play when it’s go-time. And because the candy coating is colored, we can watch it all happen before our own eyes! That’s the same kind of change that happens in this science experiment! The sugar coating on the candy melts in the warm water changing it from a solid to a liquid. Then, when that liquid gets hot enough, it can evaporate into water vapor and become a gas. For instance, ice can melt into water and become liquid. Pour enough hot tap water in the center of the plate to cover the bottom.Īn object’s state of matter can change.

This science experiment is hands-down the COOLEST pumpkin in the patch!Īrrange them on a white plate to make a pumpkin outline. Want more science? Try our 30 Science Experiments that are kid-approved and tons of fun! Post navigation Without a brain to flip the image for us, we have to set our phone in the box upside-down. The magnifying lens flips the image through refracting the light from the phone’s screen just like your eye flips the light from the world. What the eye sees comes through the eye’s lens upside down but the brain learns to flip the image right side up. The human eye has a lens similar to the magnifying glass attached to the projector. This allows it to catch, bend, and focus all the light from inside the box and project it onto the wall. The lens is convex, meaning its sides bend outwards. How did the magnifying glass make the picture bigger? The answer is in the shape of the lens. When the picture was focused. I taped up the box, turned down the lights, and let the show begin. I pointed the projector at a white wall and focused the picture by moving the phone away from or toward the lens until the picture looked clear. Then I placed the phone back in the projector, upside down this time. We fixed the problem by locking my phone onto landscape orientation.

#Phone projector movie

My daughter immediately noticed that the movie was upside down. Next we taped the magnifying glass inside the box so that the lens aligned with the hole in the box.įinally we added the smart phone on the stand. She slid the phone stand into the box, under the a cardboard flap in the bottom of the box. My 5 year old then used a spare piece of cardboard and folded it to make a stand for the phone. Then I used the scissors and a serrated paring knife to cut a hole in the box that was slightly smaller than the traced circle.