When you rub a balloon on your hair, friction between the balloon and your hair causes electrons to transfer from your hair to the balloon, creating an imbalance of negative and positive charges on the surfaces. This imbalance results in the balloon becoming negatively charged as it gains extra electrons from your hair, while your hair becomes positively charged from losing electrons.
When you rub a balloon against your hair, electrons are transferred from your hair to the balloon, leaving the balloon with a negative charge and your hair with a positive charge. This creates an imbalance of charges, resulting in the balloon becoming electrically charged.
When you rub a balloon on your hair, the balloon becomes charged with static electricity. This causes the hair to stick to the balloon due to the attraction between the charged balloon and the oppositely charged hair.
When you rub a balloon against your hair or clothes, it becomes charged with static electricity. The paper is also charged with static electricity, and opposites attract - the negatively charged paper sticks to the positively charged balloon.
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.
A balloon can be used to demonstrate the concept of static electricity. When you rub a balloon against your hair or a wool cloth, it gains extra electrons and becomes negatively charged, allowing it to stick to surfaces. This is a simple way to show how objects can become electrically charged through friction.
When you rub a balloon against your hair, electrons are transferred from your hair to the balloon, leaving the balloon with a negative charge and your hair with a positive charge. This creates an imbalance of charges, resulting in the balloon becoming electrically charged.
When you rub a balloon on your hair, the balloon becomes charged with static electricity. This causes the hair to stick to the balloon due to the attraction between the charged balloon and the oppositely charged hair.
Rubbing a balloon on your hair creates static electricity, which causes your hair to have a positive charge. The balloon, in turn, becomes negatively charged. Opposite charges attract, so the negatively charged balloon will attract the positively charged hair, causing it to stick to the balloon.
When you rub a balloon against your hair or clothes, it becomes charged with static electricity. The paper is also charged with static electricity, and opposites attract - the negatively charged paper sticks to the positively charged balloon.
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.
An insulator
A balloon can be used to demonstrate the concept of static electricity. When you rub a balloon against your hair or a wool cloth, it gains extra electrons and becomes negatively charged, allowing it to stick to surfaces. This is a simple way to show how objects can become electrically charged through friction.
You rub it on your hair. This causes static electricity, thus making your hair stand stick up.P.S:Sorry i know its not a big deal but it makes it sound like your hair was sitting and then it gets up.
When you rub a balloon in your hair, the balloon gains electrons from the hair, resulting in a negative charge on the balloon. This process is known as triboelectric charging, where materials can become charged through friction. As a result, the hair loses electrons and becomes positively charged. Thus, the balloon ends up with a surplus of electrons.
A charged balloon sticks to a wall because of static electricity. The balloon becomes charged when rubbed against hair or clothing, causing it to attract the opposite charge on the wall. This attraction leads to the balloon sticking to the wall until the charges dissipate.
1. Rubbing the balloon to your hair causes the balloon to "steal" electrons from your hair. 2.The balloon has a buildup of electron so it has a negative charge. your hair has lost electrons so it becomes positively charged. 3.Because opposites attract the negatively charged balloon will stick or if there are enough electrons on the balloon they will try and "Jump" the wall and will make a small zap by:Zimran Reubin
This has to do with the charge of the objects. Positively charged items stick to negatively charged items (think "opposites attract"). Though objects like hair and balloons are generally neutral (without a charge) and do not attract anything, this can be changed through the transfer of electrons. Electrons are negatively charged subatomic particles that can be transferred between items through contact. When you rub a balloon on your hair, the contact between your hair and the balloon allows electrons to be transferred, known as the triboelectric effect. Some materials are more likely to gain electrons and become more negative, while others are more likely to lose electrons and become more positive. In the case of hair and a balloon, the electrons are transferred from your hair to the balloon, so the balloon becomes negative. Now that electrons have been transferred, your hair and the balloon are of opposite charged and attract one another; therefore, your hair sticks to the balloon. Before the balloon contacts the hair, they both have a stable balance of electrons and protons. Once the balloon is rubbed on the hair, it takes electrons from the hair. Thus leaving the hair positively charged and the balloon negatively charged. Once the balloon is pulled away the hair sticks to it. This happens because opposite charges attract and since the hair was positively charged, and the balloon is negatively charged, they attract.