Answer for the wrong answer. Three charged particles are located at the corners of an equilateral triangle as shown in the figure below (let q = 1.20 µC, and L = 0.510 m). Calculate the total electric force on the 7.00-µC charge.1.1magnitudeIf you calculate the magnitude of the force that each charge exerts on the 7.00 µC charge, the net charge can then be found from the vector sum of those forces. Ndirection313.88° (counterclockwise from the +x axis)7.00 μC60.0°-4.00 μC

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Three charged particles are located at the corners of an equilateral triangle as shown in the figure below (let g = 1.20 µC, and L = 0.510 m). Calculate the total electric force on the 7.00-µC charge. 1.1 If you calculate the magnitude of the force that each charge exerts on the 7.00 µC charge, the net charge can then be found from the vector sum of those forces. N magnitude direction 313.88 v • (counterclockwise from the +x axis) 7.00 μC 60.0° -4.00 μC

Three charged particles are located at the corners of an equilateral triangle as shown in the figure below (let g = 1.20 µC, and L = 0.510 m). Calculate the total electric force on the 7.00-µC charge. 1.1 If you calculate the magnitude of the force that each charge exerts on the 7.00 µC charge, the net charge can then be found from the vector sum of those forces. N magnitude direction 313.88 v • (counterclockwise from the +x axis) 7.00 μC 60.0° -4.00 μC

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Question

Answer for the wrong answer.

Three charged particles are located at the corners of an equilateral triangle as shown in the figure below (let q = 1.20 µC, and L = 0.510 m). Calculate the total electric force on the 7.00-µC charge.
1.1
magnitude
If you calculate the magnitude of the force that each charge exerts on the 7.00 µC charge, the net charge can then be found from the vector sum of those forces. N
direction
313.88
° (counterclockwise from the +x axis)
7.00 μC
60.0°
-4.00 μC

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