Read Everything Kids' Magical Science Experiments Book for Free Online
Authors: Tim Robinson
Tags: epub, ebook
height: the weight of the ball or the material the ball is made of?
Do you think it's important that the balls be round? What might happen if you were to use a ball with a different shape?
Can you think of any applications for this idea that you could use in real life?
Conclusion
Your choice of balls and the order in which you placed them were both important decisions. Larger balls tend to have more energy, but they also weigh more. However, when their large energy is transferred to a much lighter ball, that energy goes a long way in making the smaller ball bounce. Can you imagine the effect if you were to try this experiment with three balls? What about four or more? It might be hard to keep them all balanced, but imagine the show you could put on!
Kinetic energy: Energy that an object possesses due to its motion.
4
Water, Water, Everywhere
D id you know that approximately 70 percent of Earth's surface is covered in water? And yet, less than one-tenth of one percent of all that water is drinkable. In fact, if you were to fill a gallon jug of water, and thought of that gallon as being all the world's water, less than one teaspoon of that water would be drinkable. Water is a precious commodity in our world, and it also provides a great starting place for seeing some amazing science take place.
In this chapter, you will get to explore the mysterious nature of water, and see some of its magical characteristics. You'll float paper clips, conjure up a magical water genie, make water disappear, and watch water change color.
Try This: The Amazing Leaking Bottle
There's nothing worse than opening up a bottle of water, starting to drink, and finding a hole in the side that has caused the water to spill out onto your face and shirt. Luckily, most water bottles, though made of plastic, don't have holes in them, so you can enjoy the water inside without worry about a leak. However, in this experiment you'll see how you can actually poke holes in a plastic container without the water spilling out.
Question: When does a hole not leak?
Materials
Plastic bag, preferably the kind found in produce sections at the grocery store
Sharpened pencil
Rubber band or twist-tie
Water
Shallow baking pan
Procedure
To begin, fill the plastic bag with water until it is at least half full. Make sure there are no holes in the bag.
Tie off the top of the bag so there is still some air left between the water and the top of the bag.
Carefully poke the pencil through the bag so it goes in one side of the bag and out the other.
Set the bag in the pan and look for any leaks.
Where Is the Water?
Use the directions to cross words out of the grid. When you are finished, read the remaining words from top to bottom and left to right. As if by magic, you will find the answer to this silly science riddle!
Cross out all theâ¦
â¦two-letter words without N
â¦5th, 9th, and 15th letters
â¦words that rhyme with HOP
The Science Behind the Magic
This experiment demonstrates as much about the properties of plastic as it does about water. You see, plastic is made from polymers, which are molecules that are chained together. These polymers give plastic its strength. In the case of plastic bags from the produce department, the polymers that are used actually shrink when cut. As a result, when you poked the pencil through the side of the bag, the plastic molecules shrank, and acted as a seal around the pencil. This is what kept the water from leaking.
Follow-Up
Can you think of a place where this sort of behavior could be useful? Where might someone want to have a material that reacts to a puncture by closing down and forming a seal?
One place this technology is being used is in automobile tires. Some new tires react to a puncture by forming an automatic seal over the hole. In some cases this is done by releasing a filler material inside the tire, but in others, the material the tire is made out of simply shrinks and seals the hole, at least until the
Do you think it's important that the balls be round? What might happen if you were to use a ball with a different shape?
Can you think of any applications for this idea that you could use in real life?
Conclusion
Your choice of balls and the order in which you placed them were both important decisions. Larger balls tend to have more energy, but they also weigh more. However, when their large energy is transferred to a much lighter ball, that energy goes a long way in making the smaller ball bounce. Can you imagine the effect if you were to try this experiment with three balls? What about four or more? It might be hard to keep them all balanced, but imagine the show you could put on!
Kinetic energy: Energy that an object possesses due to its motion.
4
Water, Water, Everywhere
D id you know that approximately 70 percent of Earth's surface is covered in water? And yet, less than one-tenth of one percent of all that water is drinkable. In fact, if you were to fill a gallon jug of water, and thought of that gallon as being all the world's water, less than one teaspoon of that water would be drinkable. Water is a precious commodity in our world, and it also provides a great starting place for seeing some amazing science take place.
In this chapter, you will get to explore the mysterious nature of water, and see some of its magical characteristics. You'll float paper clips, conjure up a magical water genie, make water disappear, and watch water change color.
Try This: The Amazing Leaking Bottle
There's nothing worse than opening up a bottle of water, starting to drink, and finding a hole in the side that has caused the water to spill out onto your face and shirt. Luckily, most water bottles, though made of plastic, don't have holes in them, so you can enjoy the water inside without worry about a leak. However, in this experiment you'll see how you can actually poke holes in a plastic container without the water spilling out.
Question: When does a hole not leak?
Materials
Plastic bag, preferably the kind found in produce sections at the grocery store
Sharpened pencil
Rubber band or twist-tie
Water
Shallow baking pan
Procedure
To begin, fill the plastic bag with water until it is at least half full. Make sure there are no holes in the bag.
Tie off the top of the bag so there is still some air left between the water and the top of the bag.
Carefully poke the pencil through the bag so it goes in one side of the bag and out the other.
Set the bag in the pan and look for any leaks.
Where Is the Water?
Use the directions to cross words out of the grid. When you are finished, read the remaining words from top to bottom and left to right. As if by magic, you will find the answer to this silly science riddle!
Cross out all theâ¦
â¦two-letter words without N
â¦5th, 9th, and 15th letters
â¦words that rhyme with HOP
The Science Behind the Magic
This experiment demonstrates as much about the properties of plastic as it does about water. You see, plastic is made from polymers, which are molecules that are chained together. These polymers give plastic its strength. In the case of plastic bags from the produce department, the polymers that are used actually shrink when cut. As a result, when you poked the pencil through the side of the bag, the plastic molecules shrank, and acted as a seal around the pencil. This is what kept the water from leaking.
Follow-Up
Can you think of a place where this sort of behavior could be useful? Where might someone want to have a material that reacts to a puncture by closing down and forming a seal?
One place this technology is being used is in automobile tires. Some new tires react to a puncture by forming an automatic seal over the hole. In some cases this is done by releasing a filler material inside the tire, but in others, the material the tire is made out of simply shrinks and seals the hole, at least until the
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