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i dont know if you said hehehheheeh
A charged object will attract an object that is neutral. Think about how you can make a balloon stick to a wool sweater. If you charge a balloon by rubbing it on your hair, it picks up extra electrons and has a negative charge. Holding it near a neutral object will make the charges in that object move. If it is a conductor, many electrons move easily to the other side, as far from the balloon as possible. If it is an insulator, the electrons in the atoms and molecules can only move very slightly to one side, away from the balloon. In either case, there are more positive charges closer to the negative balloon. Opposites attract. The balloon sticks. (At least until the electrons on the balloon slowly leak off.) It works the same way for neutral and positively charged objects. So what does all this have to do with static shocks? Or static electricity in hair? When you take off your wool hat, it rubs against your hair. Electrons move from your hair to the hat. A static charge builds up and now each of the hairs has the same positive charge. Remember, things with the same charge repel each other. So the hairs try to get as far from each other as possible. The farthest they can get is by standing up and away from the others. And that is how static electricity causes a bad hair day! (Get tips on how to eliminate static electricity problems in your home or office.) As you walk across a carpet, electrons move from the rug to you. Now you have extra electrons and a negative static charge. Touch a door knob and ZAP! The door knob is a conductor. The electrons jump from you to the knob, and you feel the static shock. We usually only notice static electricity in the winter when the air is very dry. During the summer, the air is more humid. The water in the air helps electrons move off you more quickly, so you can not build up as big a static charge.
Photocopiers make color copies through a process similar to static electricity. The drum inside the copier can be selectively charged so that only parts of it attract toner and therefore chooses specific colors to print.
No, color does not affect how high a ball bounces.
67y247 67y247
i dont know if you said hehehheheeh
Hair color is not a factor concerning static electricity .
purple green
i don't think its anything to do with colour, i think it's more to do with the thickness of the rubber and size of the balloon.
id id this experiment quite a few time on 5th grade girls and found out that blonde is the most affected by static electricity
A charged object will attract an object that is neutral. Think about how you can make a balloon stick to a wool sweater. If you charge a balloon by rubbing it on your hair, it picks up extra electrons and has a negative charge. Holding it near a neutral object will make the charges in that object move. If it is a conductor, many electrons move easily to the other side, as far from the balloon as possible. If it is an insulator, the electrons in the atoms and molecules can only move very slightly to one side, away from the balloon. In either case, there are more positive charges closer to the negative balloon. Opposites attract. The balloon sticks. (At least until the electrons on the balloon slowly leak off.) It works the same way for neutral and positively charged objects. So what does all this have to do with static shocks? Or static electricity in hair? When you take off your wool hat, it rubs against your hair. Electrons move from your hair to the hat. A static charge builds up and now each of the hairs has the same positive charge. Remember, things with the same charge repel each other. So the hairs try to get as far from each other as possible. The farthest they can get is by standing up and away from the others. And that is how static electricity causes a bad hair day! (Get tips on how to eliminate static electricity problems in your home or office.) As you walk across a carpet, electrons move from the rug to you. Now you have extra electrons and a negative static charge. Touch a door knob and ZAP! The door knob is a conductor. The electrons jump from you to the knob, and you feel the static shock. We usually only notice static electricity in the winter when the air is very dry. During the summer, the air is more humid. The water in the air helps electrons move off you more quickly, so you can not build up as big a static charge.
Intensity of spark determines the color of the light emitted. Y-THINK-Y
No, the texture and material would only not the color. the gas inside may too, if its too much or too little, but you might already know that :)
I have recently done this experiment using 2nd grade girls and i found out blondes have WAY more static! :) Hope this helped
the color of a balloon is a dark color. but when you put it in the heat, the air in the balloon expands and the color of the balloon gets lighter and pops.
Black