When a balloon is rubbed against a wall, it becomes negatively charged due to the transfer of electrons. The negatively charged balloon repels the electrons in the wall, causing the wall to become slightly positively charged. This electrostatic force between the balloon and the wall causes them to repel each other.
When you place the balloon against the wall, it induces a separation of charges in the wall. The negative charges in the balloon repel the negative charges in the wall, leaving an excess of positive charges near the surface of the wall where the balloon is placed.
Rubbing a balloon against a wall transfers electrons from the wall to the balloon, giving the balloon a negative charge. This charge causes the balloon to stick to the wall due to electrostatic attraction.
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.
Answer: When you put the balloon on the wall after you rubbed it on the sweater. the balloon would either stick to the wall or repel from the wall depending on what kind of electrons there are on the sweater
As long as it isn't excessively humid, the balloons will pick up a significant static electricity charge. Because they pick up the same charge - they will tend to repel each other, but be attracted to other surfaces including your hands - and if you want to have some fun - walls, where you can place them and have them remain more or less in place.
When you place the balloon against the wall, it induces a separation of charges in the wall. The negative charges in the balloon repel the negative charges in the wall, leaving an excess of positive charges near the surface of the wall where the balloon is placed.
i dont know ask your friends at school. if your old, live with it. A Negative Charge or a collection of negative charges will repel other negative charges. A negatively charged balloon will therefore repel those few negative charges in a wall that are capable of moving a little bit. That area of the wall close to the negatively charged balloon will therefore become positively charged. A positively charged wall will attract a negatively charged balloon and the two will stick together.
It has 8 Electorns!
Rubbing a balloon against a wall transfers electrons from the wall to the balloon, giving the balloon a negative charge. This charge causes the balloon to stick to the wall due to electrostatic attraction.
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.
Answer: When you put the balloon on the wall after you rubbed it on the sweater. the balloon would either stick to the wall or repel from the wall depending on what kind of electrons there are on the sweater
As long as it isn't excessively humid, the balloons will pick up a significant static electricity charge. Because they pick up the same charge - they will tend to repel each other, but be attracted to other surfaces including your hands - and if you want to have some fun - walls, where you can place them and have them remain more or less in place.
The balloon is electrified by transferring elect rons from/to your hair. This electrified balloon then attracts electrons on the wall and this attraction force causes the balloon to stick to the wall until the charges decay form leakage to the wall or air.
When you rub a balloon with wool, electrons are transferred from the wool to the balloon, creating a static charge on the balloon. This static charge allows the balloon to stick to a wall because opposite charges attract and the charged balloon is attracted to the neutral wall.
When an inflated balloon is pressed against a wall, the air inside the balloon gets compressed, creating a higher pressure inside the balloon. This higher pressure forces the balloon to stick to the wall due to the imbalance of pressures pushing against the wall.
This effect occurs due to the polarization of the water molecules. Initially, the balloon causes the water molecules to align in such a way that the positive side is attracted to the balloon. Upon repetition, this alignment can reverse, leading to a repelling force between the balloon and the stream of water.
A balloon clings to a wall because of static electricity. The balloon becomes charged when rubbed against hair or fabric, causing it to be attracted to the opposite charge on the wall. This attraction creates a temporary bond between the balloon and the wall.