static electricity
The balloon acquires a charge through the transfer of electrons. When the balloon is rubbed against the hair, electrons are transferred from the hair to the balloon, giving the balloon a negative charge. This negative charge allows the balloon to stick to the wall due to the attraction between the negatively charged balloon and the positively charged wall.
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.
This static electricity makes my hair stand on end!
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.
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.
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 balloon is rubbed against a material like hair, it gains static electric charge. The balloon becomes negatively charged, and the wall becomes positively charged as electrons move away. Opposite charges attract, causing the balloon to stick to the wall due to the electrostatic force between them.
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 a balloon is rubbed against a jumper, it gains a negative charge due to the transfer of electrons. The wall, being neutral, has positive charges in its atoms. Opposite charges attract, so the negatively charged balloon is attracted to the positively charged wall, causing it to stick.
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.
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 a balloon carries a static electric charge, it can induce an opposite charge on the wall it approaches. These opposite charges attract each other, causing the balloon to stick to the wall due to electrostatic forces.