Two equal positive charges are held fixed and separated by d

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The discussion focuses on calculating the electric field vector along the perpendicular bisector of two equal positive charges separated by distance D. It is established that the electric field in the i^ direction is zero due to symmetry, while the electric field vector is expressed as E = 2Kq/(y^2) j^, where y is the distance from the center. Participants discuss the need to vectorially add the electric fields from each charge to determine the y component, leading to confusion about incorporating D into the calculations. The correct expressions for the x and y components of the force exerted on a test charge are clarified, emphasizing the importance of proper trigonometric considerations. The final components are confirmed as k*q*q*D/(2*((d^2)/4 + y^2)^(3/2)) for the x component and k*q*q*y/((d^2)/4 + y^2)^(3/2) for the y component.
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Homework Statement


Two equal positive charges are held fixed and separated by distance D. Find the electric field vector along their perpendicular bisector. Then find the position relative to their center where the field is a maximum

There was another thread with this question but the suggestions/answer is unclear

The Attempt at a Solution


[/B]
From symmetry, should E along the i^ direction be 0 along the perpendicular bisector ?

and since the charges is the same, the E vector should be E = 2Kq/(y^2) j^. Am i correct for the first part of this question? Y is the distance along the perpendicular bisector relative to the center of the two charges.

I am stuck at the second part of this question
 
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You need to add the electric fields associated with each of the two charges vectorially. What is the y component of each of these fields (in terms of D and y)?
 
Chestermiller said:
You need to add the electric fields associated with each of the two charges vectorially. What is the y component of each of these fields (in terms of D and y)?
Hi,

Is this regarding the second portion of the question or the first?
 
Hamdi Allam said:
Hi,

Is this regarding the second portion of the question or the first?
Both.
 
Chestermiller said:
Both.
Would it be kq/y^2? I am not sure how D would be incorporated in the y component of the field
 
Hamdi Allam said:
Would it be kq/y^2? I am not sure how D would be incorporated in the y component of the field
What would be the magnitude of the force exerted by the charge at (-D/2,0) on a positive test charge q* located at (0,y)? What would be the x and y components of this force?
 
Chestermiller said:
What would be the magnitude of the force exerted by the charge at (-D/2,0) on a positive test charge q* located at (0,y)? What would be the x and y components of this force?
would the magnitude be: K*q*q/((d^2)/4 + y^2)
x component: K*q*q/((d^2/4)
y component: K*q*q/(y^2)
 
Hamdi Allam said:
would the magnitude be: K*q*q/((d^2)/4 + y^2)
x component: K*q/((d^2/4)
y component: K*q/(y^2)
The magnitude is correct, but the components are incorrect. You need to reconsider the trigonometry.
 
Chestermiller said:
The magnitude is correct, but the components are incorrect. You need to reconsider the trigonometry.
ohhhhhh, silly mistake

the x component would be: k*q*q*D/(2*((d^2)/4 + y^2)^3/2))
the y component would be: k*q*q*y/((d^2)/4 + y^2)^3/2)

Is this correct?
 
  • #10
Hamdi Allam said:
ohhhhhh, silly mistake

the x component would be: k*q*q*D/(2*((d^2)/4 + y^2)^3/2))
the y component would be: k*q*q*y/((d^2)/4 + y^2)^3/2)

Is this correct?
yes
 

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