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 two balloons that are wet are brought closer together, they may stick together temporarily due to surface tension and water molecules acting as a weak adhesive. As the water evaporates, the balloons will separate.
When you rub two balloons together, they become charged with static electricity, creating an electrostatic field. When you place the charged balloons near a piece of paper, the paper is attracted to the balloons due to the static electric forces. This is a simple demonstration of static electricity in action.
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.
You get two charged balloons, which both stick to the wall but repel each other.
They Repel.
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 two balloons that are wet are brought closer together, they may stick together temporarily due to surface tension and water molecules acting as a weak adhesive. As the water evaporates, the balloons will separate.
When you rub two balloons together, they become charged with static electricity, creating an electrostatic field. When you place the charged balloons near a piece of paper, the paper is attracted to the balloons due to the static electric forces. This is a simple demonstration of static electricity in action.
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.
what happens when 2 positive charges interact
You get two charged balloons, which both stick to the wall but repel each other.
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.
When you rub two balloons together, they become charged with static electricity. This causes them to repel each other due to the build-up of negative charges on their surfaces. If you bring the balloons close to each other after rubbing them, they will either stick together or push each other away, depending on the orientation of the charges.
Induction happens
When a negatively charged object and a positively charged object are brought together, they will attract each other due to their opposite charges. Electrons from the negatively charged object will move towards the positively charged object, equalizing the charge distribution between the two objects. This exchange of electrons will cause the objects to neutralize each other's charge.
When you rub two balloons together, the friction between them causes electrons to transfer from one balloon to the other, creating a static electric charge. This charge causes the balloons to become positively or negatively charged, depending on the number of electrons transferred. The balloons will then repel or attract each other due to their opposite charges.