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When you rub a balloon on your hair, it creates static electricity. The static charge in the balloon causes the balloon and your hair to have opposite charges, making them attracted to each other. The positively charged hair is attracted to the negatively charged balloon, causing the hair to stick up.
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Why does a balloon rubbed in your hair make your hair stand up?
When you rub a balloon against your hair, it creates static electricity. This transfer of electrons from the balloon to your hair causes the individual strands of your hair to become positively charged and repel each other, making them stand up.
What happens when you rub a balloon on your hair?
Rubbing a balloon on your hair creates static electricity, which transfers electrons from your hair to the balloon. This causes the balloon to become negatively charged, resulting in it sticking to objects due to the attraction of opposite charges between the balloon and the object's surface.
How do balloons get static electricity by rubbing it to your hair?
Rubbing a balloon on your hair transfers electrons from your hair to the balloon, creating a build-up of static electricity. The rubber balloon's insulating material helps to trap the charge, leading to the balloon becoming charged.
When you rub an air filles balloon with your dry hair and press it against the wall . Explain why?
Rubbing the balloon against your dry hair transfers electrons from your hair to the balloon, giving the balloon a negative charge. When you then place the negatively charged balloon against the wall, it creates an attraction with the positive charges in the wall, causing the balloon to stick due to static electricity.
Why does your hair stand on end when rubbed with a balloon?
Rubbing a balloon against your hair creates a build-up of static electricity on the surface of the balloon, which then applies an opposite charge to your hair. This causes your hair strands, which are similarly charged, to repel each other and stand on end.
When was The Balloon Goes Up created?
The Balloon Goes Up was created in 1942.
What is a person that goes up in a balloon called?
A person who goes up in a balloon is called a passenger or a balloonist.
Why does a balloon rubbed in your hair make your hair stand up?
When you rub a balloon against your hair, it creates static electricity. This transfer of electrons from the balloon to your hair causes the individual strands of your hair to become positively charged and repel each other, making them stand up.
What makes the hot air balloon go up and down?
A hot air balloon goes up when the air inside the balloon is heated, causing it to become less dense than the surrounding air. This creates lift. To descend, the air inside the balloon is allowed to cool, increasing its density, which causes the balloon to lower.
How is science related to energy?
Science is related to energy because you can have a balloon and make energy with it,You can do that by rubbing the balloon on the hair and then move the balloon up and the hair will stick up if yo uhave done it correctly.
What happens when you rub a balloon on your hair?
Rubbing a balloon on your hair creates static electricity, which transfers electrons from your hair to the balloon. This causes the balloon to become negatively charged, resulting in it sticking to objects due to the attraction of opposite charges between the balloon and the object's surface.
How do balloons get static electricity by rubbing it to your hair?
Rubbing a balloon on your hair transfers electrons from your hair to the balloon, creating a build-up of static electricity. The rubber balloon's insulating material helps to trap the charge, leading to the balloon becoming charged.
What if the heat source in a hot air balloon goes out?
what goes up, goes down!
How a hot air balloon goes up?
A hot air balloon goes up because the hot air inside is less dense than the surrounding air. Therefore, the hot air rises, bringing the balloon up with it.
Why does rubbing your hair with a balloon cause static electricity?
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.
When you rub an air filles balloon with your dry hair and press it against the wall . Explain why?
Rubbing the balloon against your dry hair transfers electrons from your hair to the balloon, giving the balloon a negative charge. When you then place the negatively charged balloon against the wall, it creates an attraction with the positive charges in the wall, causing the balloon to stick due to static electricity.
Why does your hair stand on end when rubbed with a balloon?
Rubbing a balloon against your hair creates a build-up of static electricity on the surface of the balloon, which then applies an opposite charge to your hair. This causes your hair strands, which are similarly charged, to repel each other and stand on end.
