Calculating Electric Field at Point D: Two Equal Charges

AI Thread Summary
Two equal charges of +0.80 nC are located at the corners of a square with a side length of 1.2 m, and the task is to calculate the electric field at point D. The initial calculations incorrectly used a distance of 1.7 m between the charges, leading to errors in the electric field magnitude. The correct approach involves calculating the electric field contributions from each charge separately, using the distance of 1.2 m. The resultant electric field at point D can be found by applying the Pythagorean theorem to the perpendicular components of the fields from each charge. The final accepted answer for the electric field magnitude at point D is 7.07.
Bob Loblaw
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Homework Statement


Two equal charges (Q = +0.80 nC) are situated at the diagonal corners A and B of a square of side x = 1.2 m as shown in the diagram. What is the magnitude of the electric field at point D?
p16-38.gif


Homework Equations



E=kQ/r^2

The Attempt at a Solution



First I converted 0.80 nC into C and got 8.0e-10 C.

Using pythagorean's theorum I found 1.7 m as the distance between the two charges.

I then used Coulomb's law as follows:

9e9*8e-10/1.7^2 which gave me 2.5.

Since we want point D, I took the sin(45)2.5 + cos(45)2.5 and came up with 3.52 which was wrong.

Any ideas where I goofed?
 
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The total field at D can just be considered as the field from particle A + the field from particle B. So the total equation is just E = 2 * k * Q / x^2
 
sarujin said:
The total field at D can just be considered as the field from particle A + the field from particle B. So the total equation is just E = 2 * k * Q / x^2

Thanks for the reply. I took 2(9e9*8e-10)/1.7^2 and came up with 4.98 which did not seem to work.
 
how about

square root of (2.5^2 + 2.5^2)?
 
Leong said:
how about

square root of (2.5^2 + 2.5^2)?

Tried that earlier and it did not seem to work.
 
how about

square root of (5^2 + 5^2) = 7.07?
 
Leong said:
how about

square root of (5^2 + 5^2) = 7.07?

That answer was accepted. Thank you. If you have a minute, would you mind telling me how you came up with that?
 
1. electric field at D due to A is acting downward: magnitude 5
2. electric field at D due to B is acting to the left:magnitude 5
3. these two electric fields are vectors and are perpendicular to each other
4. if you are only interested in finding the magnitude of the resultant field,you can just apply pythagorean theorem.
 
Thank you, Leong.
 
  • #10
make sure you use 1.2 m instead of 1.7 m because we find the field separately and individually; one by one and then only we find the overall/ resultant field.
 
  • #11
glad to help and see that you really appreciate that...
 

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