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∙ 11y agoWhen the balloon is rubbed with wool, it gains a negative charge while the tissue paper remains positively charged. Opposite charges attract, causing the tissue paper to stick to the balloon. This is due to the transfer of electrons from the wool to the balloon, creating an electric charge imbalance between the two objects.
Yes, small pieces of tissue paper would likely stick to a rubbed balloon because the balloon becomes charged with static electricity when rubbed, creating an attractive force between the balloon and the tissue paper. This attraction is due to the transfer of electrons from one surface to another, resulting in static cling between the two materials.
The balloon becomes statically charged when rubbed against hair or clothing, attracting the neutral paper bits. This is due to the static charge on the balloon causing an electrostatic force between the balloon and the paper, causing the paper bits to stick to the balloon.
No, a balloon filled with static electricity will not stick to metal if rubbed against your head. The static charge on the balloon and your head would not be strong enough to hold the balloon to the metal.
When balloons are rubbed against tissues, they become charged with static electricity. The tissues also become charged, but with the opposite charge. This opposite charge attraction between the balloon and tissue causes them to stick together.
The rubbed balloon becomes negatively charged from the transfer of electrons. The wooden wall becomes positively charged because it loses some electrons to the balloon. Opposite charges attract, causing the balloon to stick to the wall.
Yes, small pieces of tissue paper would likely stick to a rubbed balloon because the balloon becomes charged with static electricity when rubbed, creating an attractive force between the balloon and the tissue paper. This attraction is due to the transfer of electrons from one surface to another, resulting in static cling between the two materials.
The balloon becomes statically charged when rubbed against hair or clothing, attracting the neutral paper bits. This is due to the static charge on the balloon causing an electrostatic force between the balloon and the paper, causing the paper bits to stick to the balloon.
No, a balloon filled with static electricity will not stick to metal if rubbed against your head. The static charge on the balloon and your head would not be strong enough to hold the balloon to the metal.
static electricity
When balloons are rubbed against tissues, they become charged with static electricity. The tissues also become charged, but with the opposite charge. This opposite charge attraction between the balloon and tissue causes them to stick together.
The rubbed balloon becomes negatively charged from the transfer of electrons. The wooden wall becomes positively charged because it loses some electrons to the balloon. Opposite charges attract, causing the balloon to stick to the wall.
Rubbing a balloon on hair or a sweater causes it to accumulate a static charge. When the charged balloon comes near the paper, it can actually induce the opposite charge on the paper, creating an attractive force between the two objects. This is known as static electricity.
When a balloon is rubbed with wool, the balloon becomes negatively charged and the wall becomes positively charged. Opposite charges attract each other, causing the balloon to stick to the wall. This is due to the electrostatic force of attraction between the charges on the balloon and the wall.
A balloon rubbed against your head will most likely stick to a surface like a wall or ceiling, as the rubbing generates static electricity which can cause the balloon to attract to surfaces with opposite charges.
When a balloon is rubbed on a jumper, it becomes negatively charged. The wall, which is typically neutrally charged, attracts the negatively charged balloon due to electrostatic forces, causing the balloon to stick. This phenomenon is a result of the transfer of electrons between the balloon and the jumper, creating an imbalance in charges that leads to the attraction.
When a balloon is rubbed on a carpet, it becomes negatively charged due to the transfer of electrons from the carpet to the surface of the balloon. The wall, being neutral or slightly positively charged, is then attracted to the negatively charged balloon, causing it to stick to the wall due to electrostatic forces.
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.