What is the electric flux through the rectangle

AI Thread Summary
The discussion focuses on calculating electric flux through a rectangle and a box in different electric fields. For the rectangle in the xz-plane, the electric field E=(50i+100k) N/C has no j component, indicating that the flux through the rectangle is zero since the field is parallel to the surface. In the second problem, the electric field E=(50i+100j) N/C has a j component of 100 N/C, which contributes to the flux through the box. The area of the box is 1 cm², and with the electric field strength of 1000 N/C, the calculated flux is 0.001. The discussion emphasizes understanding the components of electric fields in relation to the surfaces they interact with.
spatel600
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Question 1: A 2cm x 3cm rectangle lies in the xz-plane. What is the electric flux through the rectangle if

E=(50i+100k) N/C

and


E=(50i+100j) N/C

Question 2:
A 1cm x 1cm x 1cm box is between the plates of a parallel-plate capacitor with two faces of the box perpendicular to E . The electric field strength is 1000 N/C.

What is the electric flux?

So far i have gotten .001
Any suggestions?

PLEASE HELP!


When it comes to the i,j,k stuff I always can never figure it out. Please help!
 
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hello, could u help me with my physics homework?
 
elizabethg: Please don't "hijack" someone else's thread. All homework questions should be posted in the appropriate homework forum- ask specific questions and show what you have done on the problem yourself.

SpateI600: The rectangle is in the x-z plane so only that part of the field in the y (or j) direction give flux through it.
In problem 1, E=(50i+100k) N/C which has NO j component- it is parallel to the rectangle and doesn't cross it. What does that tell you about the flux through the rectangle?

In problem2, E=(50i+100j) N/C. The j component is 100j N/C. Now think about what N and C mean and the area of the rectangle.
 

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