Thanks so much for joining me for the teleclass! On this page you'll find the videos for the experiments we covered in class, plus a few extras. Enjoy!

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Did you know that you can use a laser to see tiny paramecia in pond water? We're going to build a simple laser microscope that will shine through a single drop of water and project shadows on a wall or ceiling for us to study.

It’s really hard to understand that when you see a red apple, what’s really happening is that most of the wavelengths that make up white light (the rainbow, remember?) are absorbed by the apple, and only the red one is reflected. That’s why the apple is red.

Saltwater is more dense that regular water, and your body tissues contain water (among other things). Did you know that thinner people are more dense than heavier people? For example, championship swimmers will sink and have to work harder to stay afloat, but the couch potato next door will float more easily in the water.

pH is a scale from 1 to 14 that measures how acidic or basic something is. Lemon juice is a 2 so it’s an acid. Water is neutral at 7, and something like baking soda is basic because it’s 10.5. The pH of the ocean is about 8. Scientists are worried, though, because the ocean used to be 8.2.

We're going to use foam to create a waterbot, which will be powered by a simple electrical circuit. The hardest part of this activity will actually be building it stable enough so it doesn't capsize. Boats are always built in a way so they don't get pushed or flipped over easily by carrying a ballast, or extra weight, at the lowest part of the boat. You'll need to figure out where to out your motor and batteries (which weigh a lot compared to a foam block) in order to balance your boat.

We’re going to play with the properties of light by investigating the different colors and how they are absorbed and reflected using M&Ms or Skittles candy! You’ll need candy and lights.

Have you ever wondered why some apples are red and certain grapes are green? It has to do with light and how it gets reflected or absorbed by objects. If there’s no light, there’s no color. When you look at a red apple, you can see it’s red because the apple absorbs all colors of light except red. The apple looks red because the red light from the sun is bouncing (reflecting) off the apple to reach your eye.

Sunlight is all visible colors mixed together, so if you shine sunlight on your red apple, it will appear red. What if you shine only green light on your red apple? What color will it be then? That’s what we’re going to find out.

Click here to download the worksheet

Enroll in the e-Science curriculum starting today, and going for a full year. Includes summer e-Camp, complete Marine Biology course and LOTS more! Full money-back guarantee. Click here to check it out.