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High School Science Experiments (top 2,000 results)
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In this week's spotlight: a civil engineering family science experiment that guides students in building a simple geodesic dome from candies and toothpicks (or tubes made from newspaper) and then exploring the shape. How strong is a geodesic dome? How much weight can it hold? Where in nature and architecture can you find examples of dome shapes?
Build a Gumdrop Geodesic Dome (Science Buddies activity)
Dome Sweet Dome (full Science Buddies Project Idea)
Family Math: Making a Geodesic…
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How is geology important for our energy resources? Coal, oil, and natural gas are formed by geological processes over millions of years. Certain geological formations can indicate a reservoir of coal, oil, or natural gas. Also, geothermal processes can be used as an energy resource. How are these formations identified? How are the resources extracted? You can use the National Geospatial Program to access, view, and download information from geospatial databases containing a broad spectrum…
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What is geomagnetism, and how does it affect the earth? Visit the USGS Geomagnetism program for more information about this invisible force (USGS, 2006). How is the earth's magnetic field patterned? Are the magnetic poles located at the exact North and South Pole? How can the fields be mapped on the Earth's surface? What is declination? Use the mapping tools to study changes in declination patterns over time. (USGS, 2006)
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Block off one-third of a soccer net with a cone, 5-gallon bucket or some other suitable object. Shoot into the smaller side from a set distance, but systematically varying the angle to the goal line. Take enough shots at each angle to get a reliable sample. How does success vary with angle? For a basic project: How do you think your success rate will vary with angle? Draw a conclusion from your experimental results. A bar graph showing success rate at different angles can help to…
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Summer break is a great time for kids to explore hands-on science just for the fun of it! We have recommendations for creative summer science projects they will enjoy.
Put Science on the Summer Calendar
After the first week or so, many kids realize that summer break leaves a lot of time to fill. Creative, hands-on science, technology, engineering, and math (STEM) activities can help keep kids engaged and challenged all summer long. Hands-on science…
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Who doesn't love soaking up the last bit of gravy on Thanksgiving? Or dipping a crusty cube of bread into a cheese fondue? Or scooping up the thick juices from a fruit pie? Sauces make eating a joy! They provide concentrated flavor in a thickened liquid form, with a pleasing texture and consistency that carries or compliments the flavor of the rest of the food. No matter if they're salty, spicy, savory, or sweet, sauces make foods richer and more special.
There are many ways to thicken sauces,…
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Are you fascinated by dinosaurs, fossilized bones, and fossilized plants? Although this project is not based on actual fossils, you will get good practice at reconstructing an animal's skeleton from individual bones. You'll use what you find to identify the types of prey that owls consume.
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Do you like to read? Did you know that most people read without even thinking about it? Find out in this experiment how a simple reading/color test called the Stroop Effect can show you how your brain works.
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In this week's spotlight: a food-themed science activity that helps families explore the role of gluten in baking—and the different levels of gluten content in different types of flour. Many favorite holiday foods contain gluten, from stuffing and rolls to pies and pastries. But their different textures may have something to do with gluten. Extracting gluten from wheat flour can be sticky business, but in this science activity, families can get hands-on with their own gluten balls and…
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Have you ever stopped to watch a trail of ants moving back and forth between a food source and their nest? Have you ever wondered how they establish their trail? You've probably read that ants use chemical signals to communicate with one another. This is a relatively simple experiment that you can do to determine whether ants use attractant signals (positive cues) or repellant signals (negative cues) or both.
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