Electrostatic Lab: Rub a Balloon for Styrofoam Repulsion

In summary, when rubbing a balloon with Styrofoam against a sweater or wool/fur, the balloon becomes negatively charged and the Styrofoam becomes positively charged due to induction. When touching the balloon with a finger, the electrons flow onto the surface of the balloon, neutralizing the spot where the finger touches. This removes the attraction between the balloon and the Styrofoam, causing the Styrofoam to be repelled by the still negatively charged areas on the balloon's surface. This is due to the opposite polarizations of the balloon and the Styrofoam.
  • #1
shawshank
62
0
Rub a balloon containing a few pieces of Styrofoam towards your sweater or a piece of wool/fur. What do you observe when you touch with your finger one of the piece through the balloon? Why does this happen?

The Styrofoam repels within the balloon. You charge the balloon negative by rubbing it against your sweater and the electrons of the neutral Styrofoam are pushed as far as possible from the walls of the balloon making the side of the Styrofoam touching the balloon
positive. When you put your finger on where the Styrofoam is touching the balloon, you are grounding the electrons on the surface of the balloon into your hand and making that spot on the balloon positively charged. Since the side of the Styrofoam touching the balloon is charged positive and you've made that spot positive, the Styrofoam repels.

Am I on the right track or just talking crap?
 
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  • #2
please help it's due tomorrow ;(
 
  • #3
:( :(
 
  • #4
Electrons will flow into the surface of the balloon and the positively polarized region on the styrofoam where you touch it. This means that the surface is neutralized where it is touched, but the styrofoam is effectively charged negatively by induction. The rest of the charged surface of the balloon then repels the styrofoam.
 
  • #5
Why would electrons flow onto the surface of the balloon, shouldn't they flow off into my finger since the balloon is negatively charged.
 
  • #6
If anyone is online, this is due in an hour. thanks
 
  • #7
dammit, it's due in 30 mins :(
 
  • #8
Ok, I give up. Going to hand this in. Andre I kind of got what you mean, but I can't see how electrons will flow from the balloon into the Styrofoam (they're not conductors) and why electrons would flow onto the surface of the balloon when it is already negatively charged in that spot.

What I wrote is that the finger neutralizes the spot you touch through conduction and the paper no longer feels attraction at that point since both objects are neutral. However, the charges of the Styrofoam have been polarized so when you destroy the attraction to the wall, that side of the the Styrofoam (the side away from the wall) is repelled by the still existing negative charge on other spots on the surface of the balloon.
 
  • #9
The styrofoam sticks to the wall due to its opposite polarization by the charged wall of the balloon. When one touches the balloon it becomes locally neutralized - also the side of the styrofoam that is positively induced. This removes the sticky connection between the wall and the styrofoam, but the styrofoam now has a net negative charge and it is repelled by the wall.
 

1. What is electrostatic lab and how does it work?

Electrostatic lab is a scientific experiment that involves the study of electric charges and their behavior. It works by creating a static charge on an object, such as a balloon, and observing the interaction between the charged object and other objects.

2. What materials are needed for the electrostatic lab?

The materials needed for the electrostatic lab include a balloon, a piece of styrofoam, a cloth, and a table or other surface to work on. Optional materials may include a ruler and other small objects to test the repulsion.

3. How do you perform the electrostatic lab experiment?

To perform the electrostatic lab experiment, first rub the balloon against the cloth to create a static charge. Then, hold the balloon near the styrofoam and observe the repulsion between the two objects. You can also try different objects and distances to test the strength of the repulsion.

4. What is the science behind the rub a balloon for styrofoam repulsion?

The science behind this experiment is based on the concept of static electricity. When you rub the balloon against the cloth, it creates a negative charge on the surface of the balloon. When the negatively charged balloon is brought near the neutral styrofoam, it induces a positive charge on the surface of the styrofoam. Since opposite charges attract, the balloon and styrofoam will repel each other.

5. What other experiments can be done using the principles of electrostatics?

There are many other experiments that can be done using the principles of electrostatics. Some examples include making a Leyden jar, creating a Van de Graaff generator, and using a plasma globe. These experiments can help in understanding the behavior of electric charges and their applications in everyday life.

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