Point charges of 7.00 µC and −3.25 µC are placed 0.400 m apart. (Assume the negative...

Point charges of 6.00 µC and −3.25 µC are placed 0.300 m apart. (Assume the negative...

Point charges of 6.00 µC and −3.25 µC are placed 0.300 m apart. (Assume the negative charge is located to the right of the positive charge. Include the sign of the value in your answers.) (a) Where can a third charge be placed so that the net force on it is zero? _________________m to the right of the −3.25 µC charge (b) What if both charges are positive? _________________m to the right of the 3.25 µC charge Please show detailed...

Point charges of 6.00 µC and ?2.00 µC are placed 0.100 m apart. (Assume the negative...

Point charges of 6.00 µC and ?2.00 µC are placed 0.100 m apart. (Assume the negative charge is located to the right of the positive charge. Include the sign of the value in your answers.) (a) Where can a third charge be placed so that the net force on it is zero? m to the right of the ?2.00 µC charge (b) What if both charges are positive? m to the right of the 2.00 µC charge

Point charges of 6.00 µC and ?2.00 µC are placed 0.100 m apart. (Assume the negative...

Point charges of 6.00 µC and ?2.00 µC are placed 0.100 m apart. (Assume the negative charge is located to the right of the positive charge. Include the sign of the value in your answers.) (a) Where can a third charge be placed so that the net force on it is zero? m to the right of the ?2.00 µC charge (b) What if both charges are positive? m to the right of the 2.00 µC charge

Point charges of 5.00 µC and –3.00 µC are placed 0.250 m apart. (a) Where can...

Point charges of 5.00 µC and –3.00 µC are placed 0.250 m apart. (a) Where can a third charge be placed so that the net force on it is zero? (b) What if both charges are positive?

point charges of 7.09 c and -4.99 c are placed 0.457 m apart. A) Where can...

point charges of 7.09 c and -4.99 c are placed 0.457 m apart. A) Where can the third charge be placed so that the net force on it is zero? measure the distance from the charge on the right. B) What if both charges are positive?

A 1.0 µC point charge and a 7.0 µC point charge are a distance L apart....

A 1.0 µC point charge and a 7.0 µC point charge are a distance L apart. Where should a third point charge be placed so that the electric force on that third charge is zero? (Use the following as necessary: L.) away from the 1.0 µC charge, ---Select--- between the charges on the far side of the 1 µC charge on the far side of the 7 µC charge .

Point charges of 28.0 µC and 43.0 µC are placed 0.500 m apart. (a) At what...

Point charges of 28.0 µC and 43.0 µC are placed 0.500 m apart. (a) At what point along the line connecting them is the electric field zero? How are the electric fields due to each charge related? How can you put the two distances in terms of one distance? m (from the smaller charge) (b) What are the magnitude and direction of the net electric field halfway between them? magnitude     N/C direction     ---Select--- toward the smaller charge toward the larger...

Point charges of -2.93 μC and +6.63 μC are placed 0.898 m apart, with the negative...

Point charges of -2.93 μC and +6.63 μC are placed 0.898 m apart, with the negative charge at the origin and the positive charge on the +y-axis. (a) At what location, in meters, is the electric field due to these charges zero?

One charge +5.00 µC charged particle is at x = 0.00 m, and the second charge(+7.00...

One charge +5.00 µC charged particle is at x = 0.00 m, and the second charge(+7.00 µC) farther along the x-axis. The net force from the charges is zero at x=45.8cm. Where is the +7.00 µC located on the x axis?

Point charges of -3.59 μC and +5.58 μC are placed 0.6 m apart, with the negative...

Point charges of -3.59 μC and +5.58 μC are placed 0.6 m apart, with the negative charge at the origin and the positive charge on the +y-axis. (a) At what location, in meters, is the electric field due to these charges zero? Do not enter units with your answer.