static electricity
When a balloon is rubbed with polythene, electrons transfer between the two materials causing the balloon to become negatively charged. The negatively charged balloon will attract the neutral piece of paper due to the electrostatic force between opposite charges.
Rubbing a piece of cloth on a balloon creates static electricity. The friction between the cloth and the balloon transfers negatively charged electrons from the cloth to the balloon, causing the balloon to become negatively charged. This static charge can then attract or repel other objects, such as small pieces of paper or hair.
You can move a drinks can with a balloon by creating static electricity on the balloon and then using that static charge to attract the can. Rub the balloon against your hair or a piece of fabric to generate static electricity, then hold the balloon near the can to make it move. The can will be attracted to the charged balloon due to static electricity.
When you hold a piece of paper close to your body and then let go, the paper will fall due to gravity. The paper is no longer supported by your hand, so it will be subject to the force of gravity pulling it towards the ground.
When a straw is rubbed with a piece of paper, it acquires a positive charge due to the transfer of electrons from the paper. Two positively charged straws will repel each other. However, when a straw is rubbed with a sheet of paper, it acquires a negative charge, and opposite charges attract, resulting in the straws being attracted to each other.
When a balloon is rubbed with polythene, electrons transfer between the two materials causing the balloon to become negatively charged. The negatively charged balloon will attract the neutral piece of paper due to the electrostatic force between opposite charges.
Rubbing a piece of cloth on a balloon creates static electricity. The friction between the cloth and the balloon transfers negatively charged electrons from the cloth to the balloon, causing the balloon to become negatively charged. This static charge can then attract or repel other objects, such as small pieces of paper or hair.
they will all fall
use a stronger piece of paper
You can move a drinks can with a balloon by creating static electricity on the balloon and then using that static charge to attract the can. Rub the balloon against your hair or a piece of fabric to generate static electricity, then hold the balloon near the can to make it move. The can will be attracted to the charged balloon due to static electricity.
You get the balloon launcher when you buy moshi mag the 3D issue number 7 you get a picture and the code on a piece of paper in the magazine.
The oxygen is taken out of the bottle so it gets sucked in.
When you hold a piece of paper close to your body and then let go, the paper will fall due to gravity. The paper is no longer supported by your hand, so it will be subject to the force of gravity pulling it towards the ground.
When a straw is rubbed with a piece of paper, it acquires a positive charge due to the transfer of electrons from the paper. Two positively charged straws will repel each other. However, when a straw is rubbed with a sheet of paper, it acquires a negative charge, and opposite charges attract, resulting in the straws being attracted to each other.
The balloon becomes negatively charged when rubbed with the wool cloth, while the thread acquires a positive charge by induction when brought near the negatively charged balloon. This causes them to attract each other, leading to the movement of the thread away from the balloon.
You just have to get the balloon and jump to the paper with it. If you try to get it at night then you have to be a good jumper.
Paper Hop Problem: How can we show that atoms have positive and negative charges? Hypothesis: If we can rub some electrons off an item, and make it positively charged, then it will stick to an item of the opposite charge. Materials: piece of notebook paper, paper hole puncher, small balloon, clean hair Procedure: 1. Use the hole punch to cut about 15-20 small circles from the piece of paper. 2. Spread the pieces on a table. 3. Inflate the balloon and tie it. 4. Rub the balloon against your hair about five strokes. 6. Hold the balloon close to, but not touching, the paper circles. Observations: The paper circles jump to the balloon. Conclusion: Paper is an example of matter, and all matter is made up of atoms. Each atom has a positive center with negatively charged electrons spinning around outside. The balloon rubs the electrons off of the hair, giving the balloon an excess of negative charges. The positive part of the paper circles is attracted to the excessive negative charge on the balloon. This attraction between the positive and negative charge is great enough to overcome the force of gravity and the circles will hop upward toward the balloon.