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.
Rubbing a balloon with a cloth can create static electricity on the surface of the balloon. This can cause the balloon to stick to objects or attract small items like pieces of paper.
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 woolen cloth will generate static electricity on the surface of the balloon. The balloon will then have a negative charge, attracting positively charged objects nearby, due to static electricity buildup.
they will repel
Yes, rubbing a balloon with a flannel cloth can create static electricity on the surface of the balloon, causing it to stick to the cloth due to electrostatic attraction.
Rubbing a balloon with a cloth can create static electricity on the surface of the balloon. This can cause the balloon to stick to objects or attract small items like pieces of paper.
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 woolen cloth will generate static electricity on the surface of the balloon. The balloon will then have a negative charge, attracting positively charged objects nearby, due to static electricity buildup.
they will repel
Yes, rubbing a balloon with a flannel cloth can create static electricity on the surface of the balloon, causing it to stick to the cloth due to electrostatic attraction.
The balloon will have static electricity after being rubbed on the woolen cloth. This results from the transfer of electrons between the balloon and the cloth, causing the balloon to become negatively charged.
When a balloon is rubbed against a cloth, electrons are transferred from the cloth to the balloon. This causes the balloon to become negatively charged and the cloth to become positively charged. The movement of electrons between the objects creates static electricity.
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.
One simple experiment to show that there are two types of electric charges (positive and negative) is to rub a balloon with a wool cloth. The balloon will gain a negative charge, while the cloth will gain a positive charge. When the negatively charged balloon is brought close to small pieces of paper or dust, they will be attracted to the balloon, demonstrating the presence of opposite charges.
electrons are transferred from the wool cloth to the balloon, leaving the balloon with more electrons than protons, giving it a negative charge.
When a rubber balloon is rubbed with a woolen cloth, electrons are transferred from the wool to the balloon, giving the balloon a negative charge and the cloth a positive charge. This causes the balloon to become electrostatically charged, making it stick to certain surfaces or repel other charged objects.
A balloon becomes negatively charged when rubbed with wool cloth. This happens because the balloon gains electrons from the wool cloth during the rubbing process, giving it a net negative charge.