Four point charges of equal strength but two different polarities are arranged on the corners of a square as shown. The strength of each charge is measured in nC and can be varied using the slider. You can mouse-down to read the magnitude of the field at any point in the animation (position is given in meters and electric field strength is given in newtons/coulomb). Restart. Find a formula for the electric field midway between charge 2 and 3 (indicated by the small black dot) as a function of the strength of the charges. Include a vector diagram that also shows the
Four point charges of equal strength but two different polarities are arranged on the corners of a square as shown. The strength of each charge is measured in nC and can be varied using the slider. You can mouse-down to read the magnitude of the field at any point in the animation (position is given in meters and electric field strength is given in newtons/coulomb). Restart. Find a formula for the electric field midway between charge 2 and 3 (indicated by the small black dot) as a function of the strength of the charges. Include a vector diagram that also shows the
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Transcribed Image Text:Problem 23.9: Equation for the electric field
1
charge
+0
Four point charges of equal strength but two different polarities are arranged on the corners of a
square as shown. The strength of each charge is measured in nC and can be varied using the
slider. You can mouse-down to read the magnitude of the field at any point in the animation
(position is given in meters and electric field strength is given in newtons/coulomb).
Restart.
Find a formula for the electric field midway between charge 2 and 3 (indicated by the small black
dot) as a function of the strength of the charges. Include a vector diagram that also shows the
direction of the resultant field.
2
3
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