Rubbing the balloons on jeans transfers electrons between them, creating a charge imbalance. One balloon becomes negatively charged while the other becomes positively charged. Opposite charges attract each other, leading to the balloons being drawn together.
Yes, it is possible for two balloons to stick together after being rubbed together. This is due to a build-up of static electricity on the surface of the balloons, causing them to attract and stick to each other.
When balloons are rubbed on a sweater, they become charged with static electricity. The balloons acquire a net negative charge, causing them to repel each other due to their like charges. This phenomenon is known as electrostatic repulsion.
Yes, when you rub two balloons with wool and create static electricity, the balloons will become charged. As a result of this charge, the balloons will then attract each other due to the electromagnetic forces between them.
When two balloons are rubbed with a sock, they become charged with static electricity. When brought close to each other, the like charges repel each other, causing the balloons to push away from each other due to the electrostatic force.
By rubbing the balloons on your hair or clothing, you can create a static electric charge on the surface of the balloons. Since like charges repel and opposite charges attract, the balloons will become attracted to each other due to the opposite charges on their surfaces.
Yes, it is possible for two balloons to stick together after being rubbed together. This is due to a build-up of static electricity on the surface of the balloons, causing them to attract and stick to each other.
It's due to static electricity build up. The balloons have become charged with electricity and it is the same charge on both balloons (either positive or negative). Opposite charges attract, identical charges repel each other.
When balloons are rubbed on a sweater, they become charged with static electricity. The balloons acquire a net negative charge, causing them to repel each other due to their like charges. This phenomenon is known as electrostatic repulsion.
Yes, when you rub two balloons with wool and create static electricity, the balloons will become charged. As a result of this charge, the balloons will then attract each other due to the electromagnetic forces between them.
When two balloons are rubbed with a sock, they become charged with static electricity. When brought close to each other, the like charges repel each other, causing the balloons to push away from each other due to the electrostatic force.
By rubbing the balloons on your hair or clothing, you can create a static electric charge on the surface of the balloons. Since like charges repel and opposite charges attract, the balloons will become attracted to each other due to the opposite charges on their surfaces.
Yes, when you rub two balloons together, they will create a static charge. This static charge can attract lightweight objects like a plastic bag, causing it to stick to the balloons.
Opposites attract and equals deflect.
When a straw is rubbed with a piece of paper, it acquires a positive charge due to the transfer of electrons from the paper. Two positively charged straws will repel each other. However, when a straw is rubbed with a sheet of paper, it acquires a negative charge, and opposite charges attract, resulting in the straws being attracted to each other.
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.
When the balloons rub against the sweater, they pick up extra electrons, giving them a negative charge. Similar charges repel each other, so the negatively charged balloons are attracted to the positively charged areas on each other. This causes the balloons to stick together momentarily due to electrostatic forces before the charges eventually spread out and they separate.
When an eraser is rubbed with wool, it becomes charged with static electricity. This charge can attract small pieces of paper due to the phenomenon of electrostatic attraction. The rubbing action transfers electrons from the wool to the eraser, giving the eraser a negative charge, which then attracts the positively charged paper bits.