Wiki User
β 12y agonothing at all num nuts
Wiki User
β 12y agoIf you hold the balloon over the paper for several minutes, nothing significant will happen. The balloon will continue to hold its shape, and the paper will not be affected by it. The only change you may observe is a slight static charge buildup on the balloon, which could potentially cause lightweight objects like the paper to be attracted to it.
When an inflated balloon is rubbed with a woolen cloth, it becomes charged with static electricity. When the charged balloon is brought near pieces of paper, the static electricity causes the paper to be attracted towards the balloon due to the electric charges interacting with each other.
Rubbing a balloon on your head creates static electricity. The balloon becomes negatively charged, which attracts the positively charged paper bits. This attraction causes the paper bits to stick to the balloon.
The balloon becomes statically charged when rubbed against hair or clothing, attracting the neutral paper bits. This is due to the static charge on the balloon causing an electrostatic force between the balloon and the paper, causing the paper bits to stick to the balloon.
The bits of paper were attracted to the charged balloon because of the static electricity. This attraction caused the bits of paper to move towards the balloon.
When you rub a balloon against your hair or a cloth, electrons are transferred from the balloon to the paper. This creates a static charge on the paper, causing it to stick to the balloon due to an electrostatic attraction between the charged regions on the two surfaces.
When an inflated balloon is rubbed with a woolen cloth, it becomes charged with static electricity. When the charged balloon is brought near pieces of paper, the static electricity causes the paper to be attracted towards the balloon due to the electric charges interacting with each other.
Rubbing a balloon on your head creates static electricity. The balloon becomes negatively charged, which attracts the positively charged paper bits. This attraction causes the paper bits to stick to the balloon.
The balloon becomes statically charged when rubbed against hair or clothing, attracting the neutral paper bits. This is due to the static charge on the balloon causing an electrostatic force between the balloon and the paper, causing the paper bits to stick to the balloon.
The bits of paper were attracted to the charged balloon because of the static electricity. This attraction caused the bits of paper to move towards the balloon.
When you rub a balloon against your hair or a cloth, electrons are transferred from the balloon to the paper. This creates a static charge on the paper, causing it to stick to the balloon due to an electrostatic attraction between the charged regions on the two surfaces.
It dries out in about 10 minutes, and if you do, bake at 175* F.
No, the paper would not maintain its shape if the balloon burst because the balloon provides the structure and support for the paper to keep its shape. Without the balloon, the paper covering would collapse and lose its form.
When the balloon is rubbed against hair or clothing, it gains a static electric charge. The paper pieces become attracted to the balloon due to this static electricity, which causes the positively charged balloon to attract the negatively charged paper pieces.
The charged balloon creates an electric field around it, which polarizes the small bits of paper, causing them to be attracted towards the balloon. This is due to the interaction between the charged balloon's electric field and the charges within the paper.
Paper
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When you rub a balloon against your hair or clothes, it becomes charged with static electricity. The paper is also charged with static electricity, and opposites attract - the negatively charged paper sticks to the positively charged balloon.