-q -q (+a) In which direction will the resultant or net force vector from the two equal negative charges move the negative charge shown in the figure? Note, the angle between the two pairs of positive and negative charges is the same with respected to the dotted horizontal line. Hint: Think about the components of the Coulomb force due to each negative charge. The net force due to both negative charges will move the positive charge to the east. The net force due to both negative charges will move the positive charge to the west. The net force due to both negative charges is 0, so the positive charge remains at rest. The net force due to both negative charges will move the positive charge to the northeast.

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-q -q +q In which direction will the resultant or net force vector from the two equal negative charges move the negative charge shown in the figure? Note, the angle between the two pairs of positive and negative charges is the same with respected to the dotted horizontal line. Hint: Think about the components of the Coulomb force due to each negative charge. The net force due to both negative charges will move the positive charge to the east. The net force due to both negative charges will move the positive charge to the west. The net force due to both negative charges is 0, so the positive charge remains at rest. The net force due to both negative charges will move the positive charge to the northeast.