When a balloon is rubbed against hair or fabric, it becomes charged with static electricity. The charged balloon creates an electric field around it. The small bits of paper are also charged or polarized by the electric field of the balloon, causing them to be attracted to the balloon.
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 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.
A charged ruler attracts small pieces of paper due to the electrical force between the charges. The ruler becomes charged when electrons are transferred to or from it, creating an electric field around it that exerts a force on the neutral pieces of paper, causing them to be attracted to the ruler.
The small piece of paper sticks to the charged comb because of static electricity. When the comb gets charged by rubbing it against a material like fabric or fur, it gains excess electrons which create a negative charge. The negative charge on the comb attracts the positively charged protons in the paper, causing the paper to stick to the comb.
Rubbing a piece of cloth on a balloon creates static electricity. The friction between the cloth and the balloon transfers negatively charged electrons from the cloth to the balloon, causing the balloon to become negatively charged. This static charge can then attract or repel other objects, such as small pieces of paper or hair.
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.
Yes, a negatively charged balloon can pick up small pieces of paper due to the attraction between the negative charge on the balloon and the positive charge on the paper. This phenomenon is a result of static electricity.
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.
Pepper sticks to a balloon due to static electricity. When the balloon is rubbed on a surface, it becomes negatively charged, creating an electric field. The charged balloon attracts the small, lightweight pepper particles, which may become polarized and cling to the balloon's surface. This phenomenon demonstrates the principles of static electricity and charge interaction.
A charged ruler attracts small pieces of paper due to the electrical force between the charges. The ruler becomes charged when electrons are transferred to or from it, creating an electric field around it that exerts a force on the neutral pieces of paper, causing them to be attracted to the ruler.
The small piece of paper sticks to the charged comb because of static electricity. When the comb gets charged by rubbing it against a material like fabric or fur, it gains excess electrons which create a negative charge. The negative charge on the comb attracts the positively charged protons in the paper, causing the paper to stick to the comb.
Rubbing a piece of cloth on a balloon creates static electricity. The friction between the cloth and the balloon transfers negatively charged electrons from the cloth to the balloon, causing the balloon to become negatively charged. This static charge can then attract or repel other objects, such as small pieces of paper or hair.
The process by which a negatively charged rubber rod picks up small neutrally charged pieces of paper is called electrostatic induction. When the rod approaches the neutral paper, it causes the electrons in the paper to move away from the rod, creating a positive charge on the side nearest to the rod. This induced positive charge then attracts the negatively charged rod, allowing it to pick up 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.
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 two objects with opposite charges are brought close together, they will attract each other due to the electromagnetic force. This can be seen in everyday activities when a comb charged with static electricity attracts small pieces of paper or when a balloon charged with static electricity sticks to a wall.
Rubbing a balloon on your hair or woolen material creates static electricity. This causes the balloon to become negatively charged and attract positively charged objects, such as small pieces of paper or hair. The static charge on the balloon can also cause your hair to stand on end due to the repulsion of like charges.