Static Electricity
The force responsible for the balloon sticking to the wall is static electricity. When the balloon is rubbed against the synthetic cloth, it becomes charged with static electricity, causing it to be attracted to the oppositely charged surface of the wall.
When a balloon is rubbed against a material (such as wool or hair), it acquires an electrostatic charge. This charge creates a force between the balloon and the ceiling, causing the balloon to stick. This force is due to 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.
When a balloon is rubbed with polythene, electrons transfer between the two materials causing the balloon to become negatively charged. The negatively charged balloon will attract the neutral piece of paper due to the electrostatic force between opposite charges.
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.
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The force responsible for the balloon sticking to the wall is static electricity. When the balloon is rubbed against the synthetic cloth, it becomes charged with static electricity, causing it to be attracted to the oppositely charged surface of the wall.
When a balloon is rubbed against a material (such as wool or hair), it acquires an electrostatic charge. This charge creates a force between the balloon and the ceiling, causing the balloon to stick. This force is due to 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.
When a balloon is rubbed with polythene, electrons transfer between the two materials causing the balloon to become negatively charged. The negatively charged balloon will attract the neutral piece of paper due to the electrostatic force between opposite charges.
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.
When a balloon is rubbed on your hair, electrons are transferred from your hair to the balloon, giving the balloon a negative charge and your hair a positive charge. This results in an overall negative net charge on the balloon.
When a rubber balloon is rubbed against wool, the balloon gains electrons from the wool due to the friction between the two materials. This transfer of electrons causes the balloon to become negatively charged while the wool becomes positively charged. The balloon will then be attracted to positively charged objects and can even stick to them momentarily due to this electrostatic force.
When a balloon is rubbed with wool, the wool transfers electrons to the balloon, giving the balloon a net negative charge. Negative charges from the wool are transferred to the balloon, causing the balloon to become negatively charged.
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.
Yes, when a balloon is rubbed with wool, electrons are transferred from the wool to the balloon. This causes the balloon to become negatively charged as it gains extra electrons. This process is known as static electricity.
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.