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Wool is a good example of static electricity because it is a natural insulator, allowing electrons to build up on its surface when rubbed. When two materials are rubbed together, one material gains electrons and becomes negatively charged (like wool), while the other loses electrons and becomes positively charged. This imbalance of charges creates static electricity.

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Which of these is an example of static electricity-?

Explanation of Materials that Cause Static Electricity. ... "Flyaway hair" is a good example of having a moderate positive (+) charge. Nylon. Wool. Lead ... It is surprising that these metals attract electrons almost as much as polyester. Polyester.


How does wool contribute to the generation of static electricity?

Wool contributes to the generation of static electricity because it is a good insulator and can build up a charge when rubbed against other materials, causing electrons to transfer and create a static charge.


How do you create static electricity with wool and styrofoam?

Rubbing a piece of wool fabric on a piece of styrofoam can create static electricity by transferring electrons between the two materials. As the wool gains electrons through friction, it becomes negatively charged, while the styrofoam loses electrons and becomes positively charged. This charge imbalance creates static electricity.


Rubbing a plastic comb with wool will produce more static electricity than rubbing a metal spoon with wool why is this?

This has to do with the transfer of electrons from one material to another through the contact of the materials. The transfer of electrons is static electricity, and because some materials have a higher tendency to gain or lost electrons than others, more or less static electricity is produced. Wool has a tendency to gain electrons. Both metal and plastic lose electrons; however, plastic has a far higher tendency to lose electrons than does metal. This is shown on the triboelectric series, a chart showing the relative tendencies of various materials to transfer electrons. Because plastic will lose more electrons to the wool than the metal will, more static electricity is produced.


Why does rubbing wool against plastic create static electricity?

Rubbing wool against plastic doesn't actually "create" static electricity. However, rubbing wool and plastic together does increase the surface area of the two materials that are coming into contact. When this happens electrons are exchanged between the two surfaces creating an imbalance. It is this imbalance of electrons that we see as static electricity.

Related Questions

Which of these is an example of static electricity-?

Explanation of Materials that Cause Static Electricity. ... "Flyaway hair" is a good example of having a moderate positive (+) charge. Nylon. Wool. Lead ... It is surprising that these metals attract electrons almost as much as polyester. Polyester.


How does wool contribute to the generation of static electricity?

Wool contributes to the generation of static electricity because it is a good insulator and can build up a charge when rubbed against other materials, causing electrons to transfer and create a static charge.


How do you create static electricity with wool and styrofoam?

Rubbing a piece of wool fabric on a piece of styrofoam can create static electricity by transferring electrons between the two materials. As the wool gains electrons through friction, it becomes negatively charged, while the styrofoam loses electrons and becomes positively charged. This charge imbalance creates static electricity.


Will two wool socks get static electricity in the dyer?

yes


Give a practical example of static electricity?

An example is rubbing your head with a balloon. If you rubbed hard enough, your hair should stand up. Also, when you are VERY close to lightning, your hair stands up!!


How do you use static electricity in experiments?

by using hair,wool,or polyester


Rubbing a plastic comb with wool will produce more static electricity than rubbing a metal spoon with wool why is this?

This has to do with the transfer of electrons from one material to another through the contact of the materials. The transfer of electrons is static electricity, and because some materials have a higher tendency to gain or lost electrons than others, more or less static electricity is produced. Wool has a tendency to gain electrons. Both metal and plastic lose electrons; however, plastic has a far higher tendency to lose electrons than does metal. This is shown on the triboelectric series, a chart showing the relative tendencies of various materials to transfer electrons. Because plastic will lose more electrons to the wool than the metal will, more static electricity is produced.


Why does rubbing wool against plastic create static electricity?

Rubbing wool against plastic doesn't actually "create" static electricity. However, rubbing wool and plastic together does increase the surface area of the two materials that are coming into contact. When this happens electrons are exchanged between the two surfaces creating an imbalance. It is this imbalance of electrons that we see as static electricity.


What happens when you rub a comb of a piece of wool?

The copper penny might get cleaner. If it were a rubber penny, then you would get static electricity.


Will rubbing a glass rod with a wool cloth create static electricity?

Yes, rubbing a glass rod with a wool cloth can create static electricity by transferring electrons between the two materials. This process causes the glass to become positively charged and the wool to become negatively charged, resulting in static electricity buildup.


What is the type of electricity produced by rubbing plastic on wool?

Static electricity, also known as frictional electricity, is produced when two objects - such as plastic and wool - are rubbed together and electrons transfer from one object to the other, creating an electric charge.


How can I decrease static electricity?

To decrease static electricity, you can use a humidifier to increase moisture in the air, wear natural fibers like cotton or wool, use an anti-static spray on clothing or surfaces, and avoid wearing clothes or shoes that generate static.