they pop
When two negatively charged balloons are brought together, they will repel each other due to their like charges. This repulsion is a result of the electrostatic force between the negatively charged objects pushing them away from each other.
You get two charged balloons, which both stick to the wall but repel each other.
When two charged balloons are brought close together, they will either repel each other if they have like charges or attract each other if they have opposite charges. This is due to the electrostatic force between the charges on the balloons.
When two positively charged balloons are pushed together, they will repel each other due to the like charges. This repulsion will cause the balloons to move away from each other until the force pushing them together is overcome by the repulsive force.
When the balloons rub against the sweater, they pick up extra electrons, giving them a negative charge. Similar charges repel each other, so the negatively charged balloons are attracted to the positively charged areas on each other. This causes the balloons to stick together momentarily due to electrostatic forces before the charges eventually spread out and they separate.
When two negatively charged balloons are brought together, they will repel each other due to their like charges. This repulsion is a result of the electrostatic force between the negatively charged objects pushing them away from each other.
You get two charged balloons, which both stick to the wall but repel each other.
When two charged balloons are brought close together, they will either repel each other if they have like charges or attract each other if they have opposite charges. This is due to the electrostatic force between the charges on the balloons.
When two positively charged balloons are pushed together, they will repel each other due to the like charges. This repulsion will cause the balloons to move away from each other until the force pushing them together is overcome by the repulsive force.
When the balloons rub against the sweater, they pick up extra electrons, giving them a negative charge. Similar charges repel each other, so the negatively charged balloons are attracted to the positively charged areas on each other. This causes the balloons to stick together momentarily due to electrostatic forces before the charges eventually spread out and they separate.
Rubbing the balloons on jeans transfers electrons between them, creating a charge imbalance. One balloon becomes negatively charged while the other becomes positively charged. Opposite charges attract each other, leading to the balloons being drawn together.
Rubbing two balloons together with felt will create static electricity. The friction between the balloons and the felt causes the transfer of electrons, resulting in one balloon becoming positively charged and the other negatively charged. As a result, the balloons will either repel or attract each other due to their opposite charges.
The balloons likely acquired different charges. When objects rub against each other, one may lose electrons and become positively charged while the other gains electrons and becomes negatively charged. This results in the balloons having opposite charges.
When two balloons are rubbed with a sock, they become charged with static electricity. When brought close to each other, the like charges repel each other, causing the balloons to push away from each other due to the electrostatic force.
The force between two balloons would be due to electrostatic forces, as the balloons can become negatively charged and repel each other. The force would depend on the charge of the balloons and the distance between them.
The balloons would repel each other due to like charges. Like charges repel each other according to the principle of electrostatic force. This is because the negative charges on both balloons create a force that pushes the balloons away from each other.
Opposites attract and equals deflect.