Question

The dielectric strength of air, E = 3.0×106 V/m, is the maximum field that air can...

The dielectric strength of air, E = 3.0×106 V/m, is the maximum field that air can withstand before it breaks down and becomes conducting. How much charge can be placed on a spherical conductor with a 8.0- cm radius before the field at its surface exceeds the breakdown strength of the air?
The answer to this section is 2.14×10-6 C.

My question: What would be the electric potential at the surface of this conductor?

0 0
Add a comment Improve this question Transcribed image text
Answer #1

Determine the charge. Q-E(4e) Here, charge isQ. dielectric strength of air is E, permittivity of free space iseo, and radius

Add a comment
Know the answer?
Add Answer to:
The dielectric strength of air, E = 3.0×106 V/m, is the maximum field that air can...
Your Answer:

Post as a guest

Your Name:

What's your source?

Earn Coins

Coins can be redeemed for fabulous gifts.

Not the answer you're looking for? Ask your own homework help question. Our experts will answer your question WITHIN MINUTES for Free.
Similar Homework Help Questions
  • The dielectric strength of air (that is, the maximum electric field air can withstand before it...

    The dielectric strength of air (that is, the maximum electric field air can withstand before it becomes a conductor due to ionization) is 3.0 times 10^6 V/m. Small van de Graaf generators are commonly used in hair-raising demonstrations that must achieve a high electric potential. A spherical conductor has a radius of 30 cm (about 1 ft). What is the maximum charge that can be placed on the sphere before dielectric breakdown of the surrounding air occurs? For the charge...

  • The dielectric strength of air (that is, the maximum electric field air can withstand before it...

    The dielectric strength of air (that is, the maximum electric field air can withstand before it becomes a conductor due to ionization) is 3.0 times 10^6 V/m. Small van de Graaf generators are commonly used in hair-raising demonstrations that must achieve a high electric potential. a) A spherical conductor has a radius of 30 cm (about 1 ft). What is the maximum charge that can be placed on the sphere before dielectric breakdown of the surrounding air occurs? b) For...

  • An uncharged spherical conductor has a radius of 2.4 m. What is the maximum charge you...

    An uncharged spherical conductor has a radius of 2.4 m. What is the maximum charge you can deposit on the sphere before dielectric breakdown of the air around it occurs? -> determine the strength of the electric field at the surface of the conductor and compare it against the field strength of 3 × 106 V/m above which air becomes a conductor

  • show work please The maximum sustainable electric field strength in air is 3.0 x 106 V/m....

    show work please The maximum sustainable electric field strength in air is 3.0 x 106 V/m. (electric fields above this field strength will ionize the air and cause sparks to form). Find the magnitude of the maximum potential difference that can therefore be sustained between two parallel conducting plates separated by 1.49 cm of air. Select the correct answer O 13.1 kV O 54.6 kV 0 20.1 kV 44.7kV 33.3kV

  • If the magnitude of an electric field in air is as great as 3.00×106 N/C, the...

    If the magnitude of an electric field in air is as great as 3.00×106 N/C, the air becomes ionized and begins to conduct electricity. This phenomenon is called dielectric breakdown. A charge of 23.6 μC is to be placed on a conducting sphere. What is the minimum radius of a sphere that can hold this charge without breakdown?

  • If the magnitude of an electric field in air is as great as 3.00×106 N/C, the...

    If the magnitude of an electric field in air is as great as 3.00×106 N/C, the air becomes ionized and begins to conduct electricity. This phenomenon is called dielectric breakdown. A charge of 14.4 μC is to be placed on a conducting sphere. What is the minimum radius of a sphere that can hold this charge without breakdown?

  • Find the maximum net charge that can be placed on a spherical conductor of radius 64 cm before dielectric breakdown of...

    Find the maximum net charge that can be placed on a spherical conductor of radius 64 cm before dielectric breakdown of the air occurs. The dielectric strength of the air is 3

  • the maximum sustainable electric field strength in air is 3.0 x 10^6 V/m. (electric fields above...

    the maximum sustainable electric field strength in air is 3.0 x 10^6 V/m. (electric fields above this field strength will ionize the air and cause sparks to form). Find the magnitude of the maximum potential difference that can therefore be sustained between two parallel conducting plates separated by 1.32 cm of air

  • break domn strength for air (3 x 106 v/m). The plates are separated by 3,29 mm...

    break domn strength for air (3 x 106 v/m). The plates are separated by 3,29 mm and a (a) Determine the electric field strength between two paralel conducting plates to see if t wit exceed the potential difference of 4800 V is applied (b) How close together can the plates be with this applied voltage without exceeding the breakdown Addtional Materials Reading

  • (a) Find the maximum net charge that can be placed on a spherical conductor of radius...

    (a) Find the maximum net charge that can be placed on a spherical conductor of radius 18 cm before dielectric breakdown of the air occurs. 1.08 (b) What is the potential of the sphere when it carries this maximum charge? kV eBook

ADVERTISEMENT
Free Homework Help App
Download From Google Play
Scan Your Homework
to Get Instant Free Answers
Need Online Homework Help?
Ask a Question
Get Answers For Free
Most questions answered within 3 hours.
ADVERTISEMENT
ADVERTISEMENT