Water Flow Experiment in a Bag
If you wanted to pour water out of a Ziploc® brand bag into a bowl, where would you put the bowl? Directly under the opening of the bag, of course. (Thanks, gravity!) But if you had a piece of string, you could pour the water from a few inches off to the side of the bowl, over the table, and still get the water to flow into the bowl —all thanks to the adhesive and cohesive properties of water.
- 5 - 8
- Est. Time:
How we did it:
- cup or bowl
- ziploc brand sandwich bag
- rock or weight
- rimmed baking sheet
- clothes pin or binder clip
Gather your materials.
Soak the yarn in water for a minute or two.
Using a clothespin or binder clip, secure one end of the wet yarn to the inside cornerof a Ziploc® brand sandwich bag.
Tie the other end of the yarn to a weight or a rock.
Place the baking sheet on a flat surface. Over the baking sheet, fill the bag about halfway with water (avoid filling the bag beyond half its size). Place the rock in a cup or bowl, then move the bag and the bowl apart until the string is taut.
The yarn should be trailing out of one corner of the bag opening. This side will be your spout. Tip the bag over slightly (while keeping the string taut) so the water starts to pour. Watch as the water flows out of the bag and follows the length of string. Try different types of materials. Can you find something that works better than yarn?
With a piece of yarn, we can see the adhesive and cohesive properties of water in action. Water likesto stick to surfaces or objects (this is called adhesion), which is why a piece of yarn will emerge wet after being submerged in water. Water molecules also like to stick to each other (this is called cohesion), which is why water poured from a bag will cling to the wet yarn and follow the length of string in a gravity-defying stream. Yarn works really well for this experiment because it retains water. Nonabsorbent materials (like thin string, lanyard, or curling ribbon) might not work as well. Try it out and see! Can you find a material that works even better than yarn?