Electric Flux Through Shown Surface

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Homework Help Overview

The discussion revolves around calculating the electric flux through a specified surface, with participants referencing the definition and formula for electric flux in the context of an electric field and surface area.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants express uncertainty about how to approach the problem, with some suggesting the need to define electric flux and relate it to the given scenario. Others discuss the formula for electric flux and the importance of correctly interpreting the angle involved.

Discussion Status

The discussion is ongoing, with various participants offering insights into the definition and application of electric flux. Some have provided guidance on identifying relevant quantities and using the formula, while others are still seeking clarity on the problem.

Contextual Notes

There are indications of confusion regarding the angle and its application in the formula, as well as a reminder for participants to show their own work in future posts.

kyang002
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What is the electric flux through the surface shown in the figure (attachment)?
 

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What ideas do you have?
 
I'm unsure of how to do this problem. No ideas so far.
 
What is the definition of electric flux?
(Look up in your book)

And, do NOT double post (posting the same question twice or more), and show your own work or at least your ideas/what you are uncertain of in the future.
 
Well, of course as he/she said: he/she has no ideas so far
 
Just saying "I have no idea" is like asking to NOT be helped. At least, for sure, kyang002 can find the definition of electric flux, and then try at least to correlate it with the problem.

Actually, just typing the definition here will provide a starting point for others to help.
 
I think writing down the equation for electric flux would just about answer this question completely...(after plugging in 2 numbers)
 
Electric Flux would be E x A or EA cos theta.
 
The answer is 1. But I have no idea of doing it. Again no help is given.
 
  • #10
kyang002 said:
Electric Flux would be E x A or EA cos theta.

I simply hope u didn't mean
[tex]|\vec{E}\times\vec{A}|=EA\cos\theta[/tex]

That "x" would invite to an erroneous interpretation.

To the OP:It's only about applying the (simple) definition and using a bit of trigonometry...

Daniel.
 
  • #11
kyang002 said:
Electric Flux would be E x A or EA cos theta.
E*A*Cos(theta)

Ok, they give you E,A,and theta. PLUG IT IN A CALCULATOR

You see, flux is the measurement of the field passing through the surface, times the area of the surface (simplest, non integral way).

So if your field is at a 30 degree angle to the horizontal surface, you need what's passing perpindicularly(right-angle) to the surface.

So its a right triangle,
/|
/ |
----

And if you want the Y edge, Cos(left angle) = Height/Hypot
Hypot = E field so
Efield*(cos(theta)) = Height

So E*Cos(theta) * Area = fllux
 
  • #12
kyang:
1. Could you identify the quantities you have been given?
2. Where should those quantities be plugged into the formula you have presented?
(That is, the flux is given by [tex]EA\cos\theta[/tex])

Note: Be careful with the angle!
 
  • #13
Now I understand. Thanks guys.
 

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