Static Electricity: Charging by Friction: Understanding MIT demo

In summary, the MIT Physics Demo called "Rubber and Glass Rods with Tinsel and Balloon" demonstrates electrostatic induction. The tinsel is repelled by the charged rod, indicating that it has the same charge as the rod. This charge is induced through the process of friction and does not require direct contact between the rod and tinsel. The balloon is also charged through conduction, using an insulator instead of the typical conductor. This phenomenon is further explained by the concept of electric dipoles in non-conducting objects.
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poonintoon
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MIT has a Physics Demo called "Rubber and Glass Rods with Tinsel and Balloon"
(Not sure if I can post links but easily found on youtube). I have watched the video several times but am a bit puzzled.

First the lab technician charges the rod by friction but then when he moves it close to the tinsel, the tinsel is repelled. Therefore the tinsel must already have the same charge as the rod. How did it get charged? The rod and tinsel never touch.

Also when he touches the balloon is this just charging by conduction but with an insulator/conductor instead of the more usual conductor/conductor pair?

Thank you for any help
 
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  • #2
poonintoon said:
First the lab technician charges the rod by friction but then when he moves it close to the tinsel, the tinsel is repelled. Therefore the tinsel must already have the same charge as the rod. How did it get charged? The rod and tinsel never touch.

See http://en.wikipedia.org/wiki/Electrostatic_induction, in particular this diagram:

280px-Electroscope_showing_induction.png


The induced negative charge on the electroscope is closer to the rod than the induced positive charge, therefore it is attracted more strongly than the positive charged is repelled. There is a net attractive force.

You also get this effect with non-conducting objects in which the molecules act as electric dipoles. See the section Induction in dielectric objects at the end of the Wikipedia article.
 
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Related to Static Electricity: Charging by Friction: Understanding MIT demo

1. What is static electricity?

Static electricity is a type of electrical charge that is created when two objects rub against each other, causing electrons to transfer from one object to the other. This results in one object becoming positively charged and the other becoming negatively charged.

2. How does friction cause objects to become charged?

When two objects rub against each other, some of their electrons are transferred from one object to the other. This results in one object having an excess of electrons, making it negatively charged, and the other object having a deficit of electrons, making it positively charged.

3. What is the MIT demo for understanding static electricity charging by friction?

The MIT demo is a demonstration that shows the effects of static electricity by using a Van de Graaff generator. The generator creates a large amount of static electricity, which is then used to make objects stick to each other or repel each other.

4. Why do some objects become positively charged and others become negatively charged?

This depends on the materials that are rubbing against each other. Some materials, such as rubber and wool, have a higher affinity for electrons and will easily gain an excess of electrons, making them negatively charged. Other materials, such as glass and silk, have a lower affinity for electrons and will easily lose electrons, making them positively charged.

5. How is static electricity different from current electricity?

Static electricity is a build-up of electrical charge on the surface of an object, while current electricity is the flow of electrons through a conductor. Static electricity is usually short-lived and discharges quickly, while current electricity can be sustained for a longer period of time.

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