Calculating Electric Flux Through a Square: Is Gauss' Law the Only Method?

AI Thread Summary
The discussion revolves around calculating electric flux through a square surface due to a point charge placed above it. The initial confusion stems from incorrectly assuming the electric field is perpendicular to the surface and using an incorrect distance for calculations. By recognizing the symmetry of the situation and considering a surrounding cube, it is concluded that the flux through the square is one-sixth of that through the entire cube, leading to the correct answer of Q / 6ε0. Participants confirm this understanding and question whether alternative methods exist for deriving the result. The consensus is that Gauss' Law provides the most straightforward approach in this scenario.
stunner5000pt
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This is SUPPOSED to be easy but i seemingly find find it hard...

A poin charge of +Q is places a distance d/2 above the centre of a square surface of side d. Find the electric flux through the square.

so i know that

E dA = EA (because the flux through the square is all at 90 degree angles) = kQd^2 / (d/2)^2 = Q / pi epsilon0

But the answer is Q / 6epsilon0

have i got the concept wrong here?

please do help!
 
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stunner5000pt said:
so i know that

E dA = EA (because the flux through the square is all at 90 degree angles) = kQd^2 / (d/2)^2 = Q / pi epsilon0
The electric field at the surface is not simply kQ/(d/2)^2: the distance to the surface is not just d/2! Furthermore, the electric field is not perpendicular to that surface! (The field from a point charge radiates out from the center.) To calculate the flux directly, you need to find the component of the field perpendicular to the surface and integrate.

But don't do that. Instead, take advantage of symmetry. Hint: Imagine other sides were added forming a cube around the point charge. (It is easy.)
 
I think i figured something out, if flux is Qenc / permittivity

then the charge +Q in a cube of side d is simply Qenc / permit

But sinc this is a square, the flux is one sixth (since a cbe has six sides) of what a cube is so it is Q / 6permit

am i right??
 
Why would you think the electric field is everywhere normal to the surface?
 
Tide said:
Why would you think the electric field is everywhere normal to the surface?

i thought wrong, read my second post, i believe it is more relevant
 
stunner5000pt said:
I think i figured something out, if flux is Qenc / permittivity

then the charge +Q in a cube of side d is simply Qenc / permit

But sinc this is a square, the flux is one sixth (since a cbe has six sides) of what a cube is so it is Q / 6permit

am i right??
Yes, you are right.
 
can't we derive it by any other method?
 

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