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How does a charged comb affect bits of paper?
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.
Will a comb rubbed on the hair once attract bits of paper very they come close?
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.
When you place a comb in bits of paper it does not stick but if you run the comb through your hair it sticks after combing your hair?
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.
What happen when the comb put near on the pieces of paper?
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.
How do you explain why a charged comb often attracts smaller bits of papers that fly away when they touch the comb?
When the comb is charged, it creates an electric field around it. When the charged comb is brought close to the small bits of paper, it induces a charge in them by polarizing their electrons. Opposite charges attract, so the paper bits move towards the comb due to the attraction between the comb's charge and the induced charge in the paper bits.
How does a charged comb affect bits of paper?
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.
Why can rubber rubbed with wool attract small 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.
Will a comb rubbed on the hair once attract bits of paper very they come close?
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.
When you place a comb in bits of paper it does not stick but if you run the comb through your hair it sticks after combing your hair?
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.
What happen when the comb put near on the pieces of paper?
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.
How do you explain why a charged comb often attracts smaller bits of papers that fly away when they touch the comb?
When the comb is charged, it creates an electric field around it. When the charged comb is brought close to the small bits of paper, it induces a charge in them by polarizing their electrons. Opposite charges attract, so the paper bits move towards the comb due to the attraction between the comb's charge and the induced charge in the paper bits.
Which type of force acts when tiny bits of paper are pulled by a rubber comb?
The force which acts is the electrostatic force.
Why do bits of paper adhere to a comb that was rubbed with a flannel cloth?
When you rub a comb with a flannel cloth, it creates static electricity on the comb's surface. The bits of paper are attracted to the comb because of the static charge. This phenomenon is known as static electricity, where opposite charges attract each other.
When you rub comb on dry hair why I t attracts small piece of paper?
When you rub a comb on dry hair, it generates static electricity. This static charge causes the comb to attract small pieces of paper because the paper bits become negatively charged, while the positively charged comb attracts them.
Why does a comb run through dry hair and attract small pieces of non conductive paper.?
When a comb is run through dry hair, it becomes charged with static electricity due to the friction between the comb and hair. The non conductive paper is attracted to the comb because of this buildup of static electricity, causing the paper bits to stick to the comb.
Why doesn't an iron comb attract pieces of paper?
An iron comb does not attract pieces of paper because iron is not a material that is naturally magnetic. In order to attract pieces of paper, the comb would need to be made of a magnetic material such as iron that has been magnetized.
Why tiny bits of dry paper are pulled by a rubber comb?
Tiny bits of dry paper are pulled by a rubber comb due to the static electricity generated when the rubber comb is rubbed against the paper. The rubber comb becomes negatively charged, attracting the positively charged paper bits through electrostatic forces.
