Elec. flux through the top side of a cube with q at a corner

AI Thread Summary
To find the electric flux through the top side of a cube with a charge 'q' at the origin, Gauss's law and symmetry are applied. The initial assumption was that the flux through each surface of a larger cube (with the charge at the center) is q/(6ε₀), as a cube has six faces. The correct approach indicates that the flux through half of the upper surface is actually q/(24ε₀), not q/(16ε₀) as initially thought. This demonstrates that the flux is independent of the cube's length. The final conclusion confirms the calculated flux value is accurate.
Pushoam
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Homework Statement


Find the electrix flux through the top side of a cube. The cube's corner is on the origin, and is 'a' units on length. The charge 'q' is located at the origin, with the corner of the cube.

Homework Equations


Gauss's law and symmetry

The Attempt at a Solution


I take 8 cubes of length 2a in such a way that the charge q is at the center.

Then, the flux through the half of the upper surface of this bigger cube is the required answer. Right?

Using Gauss's law and symmetry ,

Flux through each surface of the bigger cube is ## \frac {q } {8\epsilon_0 } ##.

Now, again using symmetry, flux through half of the surface is ## \frac {q } {16\epsilon_0 } ##, which is equal to the required answer.

Is this correct?
[/B]
 
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Pushoam said:
Flux through each surface of the bigger cube is ## \frac {q } {8\epsilon_0 } ##.
Because? A cube has eight faces??
 
haruspex said:
Because? A cube has eight faces??
Sorry, it is 6.
]Flux through each surface of the bigger cube is ## \frac {q } {6\epsilon_0 }## .

Pushoam said:
Then, the flux through the half of the upper surface of this bigger cube is the required answer. Right?
The above is also wrong. It is ¼, not ½.
Now, again using symmetry, flux through ¼ of the bigger surface is ## \frac {q } {24\epsilon_0 }##, which is equal to the required answer.[/QUOTE]
 
Pushoam said:
Sorry, it is 6.
]Flux through each surface of the bigger cube is ## \frac {q } {6\epsilon_0 }## .The above is also wrong. It is ¼, not ½.
Now, again using symmetry, flux through ¼ of the bigger surface is ## \frac {q } {24\epsilon_0 }##, which is equal to the required answer.
[/QUOTE]
Looks right.
 
Thank you.
The flux is independent of the length of the cube.
 

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