The Big Bag of Science is filled with all sorts of scientific ingredients and tools for your child to conduct his or her experiments. The bag also helps to teach observational techniques and skills like understanding measurements, experimentation, and analyzation. Note that there are some ingredients not included that can be found in the house (like soda).
Scientific Explorer is the industry leader in fun and educational activity-based science kits for children. Appreciated by parents for their educational value and loved by children for their hands-on fun, Scientific Explorer kits help develop critical thinking skills, inspire imagination, and encourage exploration through interactive experiments and activities that help make learning fun. Scientific Explorer is a member of the Alex Brands Family.
You’ve probably tried a salt crystal growing kit at some point in your life (5th grade Science Fair perhaps?) but Schooling a Monkey takes the idea to a new level with these Salt Crystal Feathers. This awe-inspiring project is deceptively simple and inexpensive to achieve, and requires just a wee bit of patience to see the results—kids will love checking in on the progress. Visit Schooling a Monkey now to get started.
When these nails and copper wires collide, heat is generated (psst ... heat is a result of expended energy, so you can explain to your little runner why he feels warmer after a race around the house). But with some potato magic, the properties of the nail and copper stay separated, allowing the heat to become the electric energy needed to power up your devices. Build your own potato battery with this tutorial from PBS Kids.
Making ice cream with a cup of half and half, a teaspoon of vanilla, two tablespoons of sugar in a quart bag. Then in a gallon bag about six cups of ice and half cup of salt, anything but table salt should work. Put the quart bag (sealed) in the gallon bag then seal and shake rattle and roll for about five minutes. Then pull out the quart sized bag with your ice cream and add your favorite toppings. – Heydi
Red cabbage powder (0.25oz/7g), citric acid (2oz/59ml), baking soda (2oz/59ml), 3 color tablets, cross-linked polyacrylamide co-polymer (0.5oz/14g), vegetable oil (2oz/59ml), corn starch (2oz/59ml), paper, 2 cotton swabs, 3 test tubes with caps, test tube stand, 3 plastic cups, pipette, stir 2 sticks, small and medium plastic measuring scoops and activity guide.
If you do this sidewalk constellation craft, you’ll be able to see the Big Dipper and Orion’s Belt in the daylight. On the sidewalk, have kids draw the lines of constellations (using constellation diagrams for guidance) and place stones where the stars are. You can then look at astronomy charts to see where the constellations they drew will be in the sky. 

Education and science go hand-in-hand and one without the other is a sad time for any child indeed. There are loads of ways to get your children into science and the sooner the better. One way is to have fun with scientific experiments that use hands-on learning techniques. The hands-on approach is ideally what young scientists want to do and the less theory the better, especially when they are so young.
You don’t need a storm to see lightning; you can actually create your own lightning at home. For younger kids this experiment requires adult help and supervision. You’ll stick a thumbtack through the bottom of an aluminum tray, then stick the pencil eraser to the pushpin. You’ll then rub the piece of wool over the aluminum tray, and then set the tray on the Styrofoam, where it’ll create a small spark/tiny bolt of lightning! 

Adults and kids will learn amazing new things about basic and acidic solutions with the Mind Blowing Science Kit. Whether erupting a color-changing volcano, creating a sunset in a test tube, or growing colorful, jiggly crystals, this science kit mixes learning with experimentation in a fun and colorful way for a wide range of ages. Each of the hands-on activities in the science guide is intended to be performed by a young scientist under adult supervision, although these activities can be adjusted to accommodate a range of ages and capabilities while still maintaining the educational excitement of the original experiments. In addition to providing detailed instructions, the science guide makes it possible for those adults who might not have a background in science, or even any exposure to scientific experimentation, to knowledgably perform experiments successfully. The dynamic, colorful nature of the experiments included in this kit make it great for pleasing a crowd at family gatherings, parties, or science fairs.
I believe all children have the potential to be the next latest and greatest scientific inventor, but they just need to get things started. Holistic learning and hands-on approaches to teaching complex ideas make the difficult a lot less so. Absorbing information and fine-tuning their ability to sit and focus on one project will help set the foundation for them to become able to learn in a coherent and disciplined way, while also being fun.
Understanding the different states of water is one of the most simple examples of a science experiment, but it’s also a really great way to bring STEM activities into daily life. Kate combined her son’s love of Batman with science, to create a character ice escape experiment. Using parent stealth mode, find some plastic toys to experience the big freeze and get to work. Let kids discover the tools they’ll need to speed up the process and see how quickly they can set them free.
With just some basic materials you can create your own musical instrument to teach kids about sound waves. In this water xylophone experiment, you’ll fill glass jars with varying levels of water. Once they’re all lined up, kids can hit the sides with wooden sticks and see how the itch differs depending on how much water is in the jar (more water=lower pitch, less water=higher pitch). This is because sound waves travel differently depending on how full the jars are with water.
This experiment is a great way for young kids to learn about static electricity, and it’s more fun and visual than just having them rub balloons against their heads. First you’ll create a butterfly, using thick paper (such as cardstock) for the body and tissue paper for the wings. Then, blow up the balloon, have the kids rub it against their head for a few seconds, then move the balloon to just above the butterfly’s wings. The wings will move towards the balloon due to static electricity, and it’ll look like the butterfly is flying.

Making a borax snowflake is a crystal-growing project that is safe and easy enough for kids. You can make shapes other than snowflakes, and you can color the crystals. As a side note, if you use these as Christmas decorations and store them, the borax is a natural insecticide and will help keep your long-term storage area pest-free. If they develop a white precipitant, you can lightly rinse them (don't dissolve too much crystal). Did I mention the snowflakes sparkle really nicely?
Penguins, and many other birds, have special oil-producing glands that coat their feathers with a protective layer that causes water to slide right off them, keeping them warm and dry. You can demonstrate this to kids with this penguin craft by having them color a picture of a penguin with crayons, then spraying the picture with water. The wax from the crayons will have created a protective layer like the oil actual birds coat themselves with, and the paper won’t absorb the water.

For this magic milk experiment, partly fill a shallow dish with milk, then add a one drop of each food coloring color to different parts of the milk. The food coloring will mostly stay where you placed it. Next, carefully add one drop of dish soap to the middle of the milk. It’ll cause the food coloring to stream through the milk and away from the dish soap. This is because the dish soap breaks up the surface tension of the milk by dissolving the milk’s fat molecules.
The best science experiments guide for kids ages 3-9. This is YOUR go-to resource for all things STEM and science all year round!  STEM stands for science, technology, engineering, and math. You can make STEM and science exciting, educational, and inexpensive for young kids. Fun and easy science for kids starts here! Don’t hesitate getting set up for science at home right away.
Disgusting Kits – These kits are great for young boys especially, who love everything gross! They will love to create horrible slime and sludge to gross out their friends, and parents! They tend to feature things like brains and snot – sure to be popular with little ones! Parents will love that their kids can explore disgusting substances in a fun, safe and educational way.
When these nails and copper wires collide, heat is generated (psst ... heat is a result of expended energy, so you can explain to your little runner why he feels warmer after a race around the house). But with some potato magic, the properties of the nail and copper stay separated, allowing the heat to become the electric energy needed to power up your devices. Build your own potato battery with this tutorial from PBS Kids.
Learn interesting science and technology facts by experimenting with different materials that react in surprising ways. You'll find a lot of experiments can be done using simple ingredients found around your house (with adult supervision of course). Basic materials can help you perform experiments that are simple, safe and perfect for kids. Enjoy our fun science experiments, make cool projects with easy ideas for children, show friends & family what you've discovered and most importantly, have fun!

If you’ve ever wondered why someone can measure and pour ingredients into a bowl, mix them up, and then bake the batter in the oven to make a cake, you’ve thought about science. The process of mixing certain ingredients together and adding heat causes the ingredients to react and change. For example, baking powder or baking soda in a cake recipe will react with acidic or wet things in the batter to puff it up and make the cake light and fluffy. Scientists tested these reactions so many times that they learned what would happen every time. This is called experimentation, and you can do it, too.


It takes a few hours to see the results of this leaf experiment, but it couldn’t be easier to set up, and kids will love to see a leaf actually “breathing.” Just get a large-ish leaf, place it in a bowl (glass works best so you can see everything) filled with water, place a small rock on the leaf to weigh it down, and leave it somewhere sunny. Come back in a few hours and you’ll see little bubbles in the water created when the leaf releases the oxygen it created during photosynthesis.
Can you make water float? We bet you can. No, you don’t need to be a wizard or a witch. You don’t need to cast a spell. There’s nothing magic about it at all, in fact. You can make water float using good, ol’ fashioned, awesome science. The “trick” to this experiment is air pressure. Get everything you need and the how-to, right here, thanks to Mike Adamick and his book, Dad's Book of Awesome Science Experiments.
This celery science experiment is another classic science experiment that parents and teachers like because it’s easy to do and gives kids a great visual understanding of how transpiration works and how plants get water and nutrients. Just place celery stalks in cups of colored water, wait at least a day, and you’ll see the celery leaves take on the color of the water. This happens because celery stalks (like other plants) contain small capillaries that they use to transport water and nutrients throughout the plant.
You won’t want to do this experiment near anything that’s difficult to clean (outside may be best), but kids will love seeing this “elephant toothpaste” crazily overflowing the bottle and oozing everywhere. Pour the hydrogen peroxide, food coloring, and dishwashing soap into the bottle, and in the cup mix the yeast packet with some warm water for about 30 seconds. Then, add the yeast mixture to the bottle, stand back, and watch the solution become a massive foamy mixture that pours out of the bottle! The “toothpaste” is formed when the yeast removed the oxygen bubbles from the hydrogen peroxide which created foam. This is an exothermic reaction, and it creates heat as well as foam (you can have kids notice that the bottle became warm as the reaction occurred).
Wonderful ideas! As a former science teacher, science department chair and system-wide science supervisor,; I salute you! It is mothers like you who keep the spark of investigation going in the eyes of our children. I love, love love hands-on science! You are training the scientists of tomorrow…or maybe the artists…doesn’t matter, we need both! Suggestion: let them see how many drops of water they can get on a penny. All you need is a penny, a medicine dropper and water. Oh, and a very steady hand and table that doesn’t shake. Then fill a jar with water (almost to the top) and predict how many pennies they can put in until the water overflows. Good lesson in surface tension and cohesion. You will need a steady hand, sturdy surface and a lot of pennies! I have some others, but no enough space.
Learn interesting science and technology facts by experimenting with different materials that react in surprising ways. You'll find a lot of experiments can be done using simple ingredients found around your house (with adult supervision of course). Basic materials can help you perform experiments that are simple, safe and perfect for kids. Enjoy our fun science experiments, make cool projects with easy ideas for children, show friends & family what you've discovered and most importantly, have fun!
Science is a wonderful thing for kids! There is so much to learn and discover right around us. Many science concepts start in the kitchen with simple materials you already have on hand. Fill a plastic tote with easy to find supplies and you will have a homemade kids science kit filled with learning opportunities that are sure to keep them busy all year long!
Science is a wonderful thing for kids! There is so much to learn and discover right around us. Many science concepts start in the kitchen with simple materials you already have on hand. Fill a plastic tote with easy to find supplies and you will have a homemade kids science kit filled with learning opportunities that are sure to keep them busy all year long!
How are some dinosaur tracks still visible millions of years later? By mixing together several ingredients, you’ll get a claylike mixture you can press your hands/feet or dinosaur models into to make dinosaur track imprints. The mixture will harden and the imprints will remain, showing kids how dinosaur (and early human) tracks can stay in rock for such a long period of time.

'Tis the season for gumdrops and this classic structural engineering challenge uses just two ingredients: toothpicks and candy. We’re particularly fond of this one from The Homeschool Scientist because it helps you explain what the concepts (engineering, load distribution, physics, shape comparison) are to your kiddos while they are building it. doing it. Visit The Homeschool Scientist to get going. And click here for five more gumdrop-themed challenges. 
Below are 37 of the best science projects for kids to try. For each one we include a description of the experiment, which area(s) of science it teaches kids about, how difficult it is (easy/medium/hard), how messy it is (low/medium/high), and the materials you need to do the project. Note that experiments labelled “hard” are definitely still doable; they just require more materials or time than most of these other science experiments for kids.
It’s natural to have a lot of questions about the world. As you wonder about these things and ask questions, you are learning. Curiosity about science helps you become an explorer finding out how things work and why things happen. Anyone can be a scientist, performing experiments to ask questions and get answers. You can even be a scientist at home, working on experiments with ingredients you probably have in your kitchen or laundry room. Always get a parent’s permission before you conduct experiments. Working as a team with an adult is best for safety.
'Tis the season for gumdrops and this classic structural engineering challenge uses just two ingredients: toothpicks and candy. We’re particularly fond of this one from The Homeschool Scientist because it helps you explain what the concepts (engineering, load distribution, physics, shape comparison) are to your kiddos while they are building it. doing it. Visit The Homeschool Scientist to get going. And click here for five more gumdrop-themed challenges. 
London Science Museum | ThinkTank - Birmingham Science Museum | Aberdeen Science Centre | Glasgow Science Centre | Museum of Science and Industry, Manchester | Life Science Centre (Centre for Life), Newcastle | National Science and Media Museum, Manchester | Techniquest, Cardiff | Museum of Victorian Science, Whitby | Whipple Museum of the History of Science, Cambridge | Museum of the History of Science, Oxford
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