The movement of paper bits towards the rubbed plastic strip indicates the presence of static electricity. When the plastic is rubbed, electrons transfer from the plastic to the paper, causing the paper bits to be attracted to the strip due to opposite charges.
You can rub the plastic rod with a piece of cloth and then try to attract small pieces of paper such as tissue paper or small paper bits. Repeat this process multiple times. If the plastic rod has gained or lost charge, its ability to attract the paper will change, indicating a change in the rod.
No, a steel spoon rubbed with a woolen cloth will not attract bits of paper. This is because the steel spoon is not charged with static electricity through the rubbing process. The woolen cloth, however, can become charged with static electricity due to the friction between the wool fibers. This static charge is not transferred to the steel spoon in a way that would attract bits of paper.
Yes, rubbing a comb on the hair creates static electricity which can attract small bits of paper when they come close. The electric charge on the comb will cause the bits of paper to stick to it momentarily.
A charged comb can attract bits of paper due to the transfer of charge. When the comb is charged, it creates an electric field that interacts with the charged particles in the paper, causing them to be attracted to the comb. This phenomenon is a demonstration of electrostatic force.
The movement of paper bits towards the rubbed plastic strip indicates the presence of static electricity. When the plastic is rubbed, electrons transfer from the plastic to the paper, causing the paper bits to be attracted to the strip due to opposite charges.
You can rub the plastic rod with a piece of cloth and then try to attract small pieces of paper such as tissue paper or small paper bits. Repeat this process multiple times. If the plastic rod has gained or lost charge, its ability to attract the paper will change, indicating a change in the rod.
No, a steel spoon rubbed with a woolen cloth will not attract bits of paper. This is because the steel spoon is not charged with static electricity through the rubbing process. The woolen cloth, however, can become charged with static electricity due to the friction between the wool fibers. This static charge is not transferred to the steel spoon in a way that would attract bits of paper.
The reason why the pieces of paper are neutral is that they contain equal amount of positive and negative charges and so they cancel each other out. When you bring a charged plastic comb to the pieces of paper, the charge opposite to that of the plastic comb will be brought to a part of the surface of the paper where the plastic comb is. Opposite charges attract each other, and since you're holding the comb, the pieces of paper will be attracted to the comb.
Yes, rubbing a comb on the hair creates static electricity which can attract small bits of paper when they come close. The electric charge on the comb will cause the bits of paper to stick to it momentarily.
A charged comb can attract bits of paper due to the transfer of charge. When the comb is charged, it creates an electric field that interacts with the charged particles in the paper, causing them to be attracted to the comb. This phenomenon is a demonstration of electrostatic force.
The comb attracts the bits of paper when you rub it against your hair because your hair becomes charged with static electricity as the comb runs through it. The charged hair acts as a magnet, allowing the paper bits to stick to the comb. When the comb and paper bits are initially placed together without running through hair, there is no transfer of static charge to attract the paper.
A hard rubber comb can generate static electricity when it is rubbed against hair or certain materials. This static charge can attract lightweight objects like bits of paper due to the phenomenon of electrostatic attraction between charged objects of opposite charge.
The charged balloon creates an electric field around it, which polarizes the small bits of paper, causing them to be attracted towards the balloon. This is due to the interaction between the charged balloon's electric field and the charges within the paper.
When a glass rod is rubbed, it acquires a positive static charge. The small bits of paper become negatively charged by induction when the positively charged glass rod is brought nearby. Opposite charges attract, causing the paper bits to be attracted to the rod.
The tip of a ball pen is plastic. When plastic is rubbed in a person's hair it attracts light objects due to static electricity. It can be any plastic that will create the static electricity. Even an inflated balloon will do this trick.
When a comb is brought near pieces of paper, the comb might attract small bits of paper due to static electricity. This occurs because rubbing the comb against hair or fabric creates a charge imbalance on the comb, causing it to become temporarily charged and attract light objects like pieces of paper.