What Happens When An Electrically Charged Pencil Is Placed Close To Water Running From A Faucet? (2 Points)A. The Pencil Attracts The Water. B. The Pencil Becomes Positively Charged. C. The Water Attracts The Pencil. D. The Water Repels The Pencil.

What happens when an electrically charged pencil is placed close to water running from a faucet?

Understanding the Interaction between Electrically Charged Objects and Water

When an electrically charged pencil is placed close to water running from a faucet, several factors come into play. The interaction between the charged pencil and the water can be explained by the principles of electrostatics and the behavior of polar molecules in water.

The Nature of Electric Charges

Electric charges can be either positive or negative. When a pencil is rubbed against a cloth or another object, it can become electrically charged due to the transfer of electrons. If the pencil gains electrons, it becomes negatively charged, while losing electrons results in a positive charge.

The Behavior of Water Molecules

Water molecules (H2O) are polar, meaning they have a slightly positive charge on the hydrogen atoms and a slightly negative charge on the oxygen atom. This polarity allows water molecules to interact with electrically charged objects.

The Interaction between the Charged Pencil and Water

When a negatively charged pencil is placed close to water running from a faucet, the water molecules are attracted to the pencil due to the opposite charges. The negatively charged pencil creates an electric field around itself, which induces a dipole moment in the water molecules. The water molecules, with their slightly positive charge on the hydrogen atoms, are attracted to the negatively charged pencil.

On the other hand, if the pencil is positively charged, the water molecules will be repelled by the pencil due to the like charges. The positively charged pencil creates an electric field around itself, which induces a dipole moment in the water molecules. The water molecules, with their slightly negative charge on the oxygen atom, are repelled by the positively charged pencil.

Conclusion

In conclusion, when an electrically charged pencil is placed close to water running from a faucet, the interaction between the charged pencil and the water depends on the type of charge on the pencil. If the pencil is negatively charged, the water molecules are attracted to the pencil, while a positively charged pencil repels the water molecules.

Key Takeaways

• Electrically charged objects can interact with water molecules due to the polarity of water.
• Negatively charged objects attract water molecules, while positively charged objects repel them.
• The behavior of water molecules in response to electrically charged objects is a fundamental aspect of electrostatics.

Recommended Reading

For a deeper understanding of the interaction between electrically charged objects and water, we recommend exploring the following topics:

• Electrostatics: The study of electric charges and their interactions.
• Polar molecules: Molecules with a permanent electric dipole moment.
• Electric fields: Regions around charged objects where the electric force can be detected.

Frequently Asked Questions

Q: What happens when a positively charged pencil is placed close to water running from a faucet? A: The water molecules are repelled by the positively charged pencil due to the like charges.

Q: Can a negatively charged pencil attract water molecules? A: Yes, a negatively charged pencil can attract water molecules due to the opposite charges.

Q: What is the significance of the polarity of water molecules in electrostatics? A: The polarity of water molecules allows them to interact with electrically charged objects, making them an essential aspect of electrostatics.

Additional Resources

For further learning and exploration, we recommend the following resources:

• Online courses: Websites like Coursera, edX, and Khan Academy offer courses on electrostatics and physics.
• Textbooks: "Electricity and Magnetism" by Edward M. Purcell and "Physics for Scientists and Engineers" by Paul A. Tipler are excellent resources for learning about electrostatics.
• Experiments: Conducting experiments with electrically charged objects and water can help illustrate the concepts discussed in this article.
  Q&A: Electrically Charged Pencil and Water

Frequently Asked Questions

We've received many questions about the interaction between an electrically charged pencil and water running from a faucet. Here are some of the most frequently asked questions and their answers:

Q: What happens when a pencil is rubbed against a cloth and then placed close to water running from a faucet?

A: When a pencil is rubbed against a cloth, it can become electrically charged due to the transfer of electrons. If the pencil gains electrons, it becomes negatively charged, while losing electrons results in a positive charge. When the charged pencil is placed close to water running from a faucet, the water molecules are attracted to the pencil due to the opposite charges.

Q: Can a pencil become positively charged by rubbing it against a cloth?

A: Yes, a pencil can become positively charged by rubbing it against a cloth. When the pencil loses electrons, it becomes positively charged. In this case, the water molecules will be repelled by the positively charged pencil due to the like charges.

Q: What is the significance of the polarity of water molecules in electrostatics?

A: The polarity of water molecules allows them to interact with electrically charged objects, making them an essential aspect of electrostatics. The slightly positive charge on the hydrogen atoms and the slightly negative charge on the oxygen atom of water molecules enable them to respond to electric fields and interact with charged objects.

Q: Can a charged pencil attract or repel other objects besides water?

A: Yes, a charged pencil can attract or repel other objects besides water. Any object with a charge will interact with the charged pencil, either attracting or repelling it depending on the type of charge. For example, a negatively charged pencil will attract a positively charged object, while a positively charged pencil will repel a negatively charged object.

Q: How can I demonstrate the interaction between a charged pencil and water?

A: You can demonstrate the interaction between a charged pencil and water by rubbing a pencil against a cloth and then placing it close to a faucet. Observe how the water molecules respond to the charged pencil. You can also use a glass of water and a charged pencil to demonstrate the attraction or repulsion between the two.

Q: What are some real-world applications of the interaction between charged objects and water?

A: The interaction between charged objects and water has several real-world applications, including:

• Water purification: Charged particles can be used to remove impurities from water.
• Electrostatic precipitation: Charged particles can be used to remove dust and other particles from the air.
• Medical applications: Charged particles can be used to deliver medications or other substances to specific areas of the body.

Q: Can a charged pencil be used to charge other objects?

A: Yes, a charged pencil can be used to charge other objects. When a charged pencil is brought close to another object, it can transfer its charge to the object, either attracting or repelling it depending on the type of charge.

Q: How can I safely handle a charged pencil?

A: When handling a charged pencil, it's essential to exercise caution to avoid electrical shock or other injuries. Make sure to handle the pencil by the handle, avoiding contact with the charged tip. Also, avoid touching other objects or people with the charged pencil to prevent electrical shock.

Q: Can a charged pencil be used in a variety of environments?

A: Yes, a charged pencil can be used in a variety of environments, including dry, humid, or wet conditions. However, it's essential to note that the effectiveness of the charged pencil may vary depending on the environment.

Q: How can I store a charged pencil?

A: When storing a charged pencil, it's essential to keep it away from other objects and people to prevent electrical shock. You can store the pencil in a sealed container or bag to prevent it from coming into contact with other objects.

Q: Can a charged pencil be used for educational purposes?

A: Yes, a charged pencil can be used for educational purposes to teach students about electrostatics and the behavior of charged particles. It's an excellent tool for demonstrating complex concepts in a hands-on and engaging way.