Max Charge on Sphere: Calculating with Electric Fields

In summary, the conversation discusses the maximum charge that can be placed on an empty, hollow, spherical conductor with a radius of 20 cm in order to avoid electrical breakdown. The equations F = k(q/r^2) and F = Eq are mentioned, and the attempt at a solution involves rearranging these equations to find q. However, the conversation concludes that there may be something missing in the problem statement, as the electric field should be in relation to another conductor.
  • #1
MrRandom66
38
0

Homework Statement


An empty, hollow, spherical conductor with radius R = 20 cm is supported in air. Electrical breakdown occurs when the electric field at the conducting surface exceeds 3.0 × 106 V m−1.
What is the maximum charge that can be placed on the sphere?

Homework Equations


F = k (q/r^2)
F = Eq

The Attempt at a Solution



Trying to rearrange these to find q, however all I can get is something which cancels out q.
 
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  • #2
MrRandom66 said:

Homework Statement


An empty, hollow, spherical conductor with radius R = 20 cm is supported in air. Electrical breakdown occurs when the electric field at the conducting surface exceeds 3.0 × 106 V m−1.
What is the maximum charge that can be placed on the sphere?

Homework Equations


F = k (q/r^2)
F = Eq

The Attempt at a Solution



Trying to rearrange these to find q, however all I can get is something which cancels out q.

I think there is something missing in the problem statement. The electric field has to be with respect to another conductor, placed some distance away (unless you can use infinity somehow). Is there anything else in the problem statement?
 
  • #3
berkeman said:
I think there is something missing in the problem statement. The electric field has to be with respect to another conductor, placed some distance away (unless you can use infinity somehow). Is there anything else in the problem statement?

No, that's all.
 
  • #4
You certainly learned that the electric field of a metal sphere is the same as if its whole charge concentrated in the centre.

Pretend that Q charge is in he centre of the sphere. What is the electric field at the surface of the sphere (R=20 cm)? ehild
 
  • #5
Hi berkeman,

I think you meant electric potential, but it is electric field strength here.

ehild
 
  • #6
Thread closed for Moderation...
 

FAQ: Max Charge on Sphere: Calculating with Electric Fields

What is the formula for calculating the maximum charge on a sphere?

The formula for calculating the maximum charge on a sphere is Q = 4πε₀R²E, where Q is the maximum charge, ε₀ is the permittivity of free space, R is the radius of the sphere, and E is the electric field strength.

How do you determine the electric field strength for a given charge and distance?

To determine the electric field strength at a given distance from a charge, you can use the formula E = kQ/r², where E is the electric field strength, k is the Coulomb constant, Q is the charge, and r is the distance from the charge.

What is the significance of the maximum charge on a sphere?

The maximum charge on a sphere represents the point at which the electric field strength becomes infinite. This is known as the breakdown point and it indicates that the charges on the sphere have reached their maximum limit.

What factors affect the maximum charge that can be placed on a sphere?

The maximum charge that can be placed on a sphere is affected by the radius of the sphere, the permittivity of free space, and the electric field strength. As the radius increases, the maximum charge also increases, while a higher permittivity or electric field strength can decrease the maximum charge.

How does the maximum charge on a sphere relate to the concept of electric potential?

The maximum charge on a sphere is directly related to the concept of electric potential. The electric potential at a point is defined as the electric potential energy per unit charge at that point. As the maximum charge on a sphere increases, the electric potential also increases, reaching its maximum at the breakdown point.

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