they will repel
When a charged balloon is brought close to a wall, the charges on the balloon induce an opposite charge on the wall due to electrostatic induction. This causes the wall to be attracted to the balloon. If the charges on the balloon are strong enough, the wall may even stick to the balloon momentarily.
When the rubbed balloon is brought close to the can, electrons will transfer from the can to the balloon, creating a net positive charge on the can. This causes the can to be attracted to the negatively charged balloon, leading to the can moving towards the balloon until they touch or reach a balance in the electrostatic forces.
The balloon would shrink in the cold weather because the air molecules inside the balloon lose kinetic energy and move closer together, resulting in a decrease in volume.
Rubbing a balloon against your hair can create static electricity on both objects, causing them to be charged. When the charged balloon is brought close to a neutral wall, the opposite charges attract each other, making the balloon stick momentarily before the charges equalize.
The can will be attracted towards the balloon due to static electricity. The rubbing of the balloon with the woollen cloth creates a charge imbalance, causing the can to be attracted to the charged balloon. This is due to the principle of static electricity where opposite charges attract each other.
The balloon will be attracted to the rod.
The balloon will be attracted to the rod.
When a charged balloon is brought close to a wall, the charges on the balloon induce an opposite charge on the wall due to electrostatic induction. This causes the wall to be attracted to the balloon. If the charges on the balloon are strong enough, the wall may even stick to the balloon momentarily.
When the rubbed balloon is brought close to the can, electrons will transfer from the can to the balloon, creating a net positive charge on the can. This causes the can to be attracted to the negatively charged balloon, leading to the can moving towards the balloon until they touch or reach a balance in the electrostatic forces.
The balloon would shrink in the cold weather because the air molecules inside the balloon lose kinetic energy and move closer together, resulting in a decrease in volume.
so you can compare it
It would probably fill up with water, and then you'd have a water balloon.
Rubbing a balloon against your hair can create static electricity on both objects, causing them to be charged. When the charged balloon is brought close to a neutral wall, the opposite charges attract each other, making the balloon stick momentarily before the charges equalize.
The can will be attracted towards the balloon due to static electricity. The rubbing of the balloon with the woollen cloth creates a charge imbalance, causing the can to be attracted to the charged balloon. This is due to the principle of static electricity where opposite charges attract each other.
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.
Circle Justice
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.