Isabella is researching how to charge objects through friction. Isabella rubs a balloon on her hair. When she pulls the balloon away from her hair, the hair is attracted to the balloon. Which BEST explains why the hair becomes attracted to the balloon? (1 point)
Responses
Rubbing the balloon along her hair creates electrons that will stick to both the balloon and her hair.
Rubbing the balloon along her hair creates electrons that will stick to both the balloon and her hair.
Rubbing the balloon along her hair moves electrons from her hair to the balloon.
Rubbing the balloon along her hair moves electrons from her hair to the balloon.
Rubbing the balloon along her hair moves protons from the balloon to her hair.
Rubbing the balloon along her hair moves protons from the balloon to her hair.
Rubbing the balloon along her hair creates protons that will stick to both the balloon and her hair.
Rubbing the balloon along her hair moves electrons from her hair to the balloon.
The correct answer is: Rubbing the balloon along her hair moves electrons from her hair to the balloon.
The correct answer is: "Rubbing the balloon along her hair moves electrons from her hair to the balloon."
Explanation: When Isabella rubs the balloon along her hair, friction occurs between the two surfaces. This friction results in the transfer of electrons from her hair to the balloon. Electrons are negatively charged particles. This means that the balloon gains a negative charge as it receives extra electrons, while Isabella's hair becomes positively charged as it loses electrons.
Since opposite charges attract, the negatively charged balloon is attracted to the positively charged hair, causing them to stick together. This is why the hair becomes attracted to the balloon. It's important to note that this attraction happens because of the transfer of electrons, not protons. Protons, which are positively charged particles, are not involved in the charging process through friction.