Charge Q1 = 1.21 µC is located at Charge Q2 = 4.72 μC is located at F = 72 = (8.00 m) - (4.55 m) - (9.00 m) k The force on the first charge due to the second charge can be written, using Cartesian unit vectors, as follows: F = Fxî + Fyj + F₂ k 7₁ = (3.43 m) - (2.00 m) + (4.89 m) k What is the magnitude, in newtons, of the force on the first charge due to the second charge? N What is the value, in newtons, of the x component of the force on the first charge due to the second charge? What is the value, in newtons, of the y component of the force on the first charge due to the second charge? What is the value, in newtons, of the z component of the force on the first charge due to the second charge?

Charge Q1 = 1.21 µC is located at Charge Q2 = 4.72 μC is located at F = 72 = (8.00 m) - (4.55 m) - (9.00 m) k The force on the first charge due to the second charge can be written, using Cartesian unit vectors, as follows: F = Fxî + Fyj + F₂ k 7₁ = (3.43 m) - (2.00 m) + (4.89 m) k What is the magnitude, in newtons, of the force on the first charge due to the second charge? N What is the value, in newtons, of the x component of the force on the first charge due to the second charge? What is the value, in newtons, of the y component of the force on the first charge due to the second charge? What is the value, in newtons, of the z component of the force on the first charge due to the second charge?

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Question

Questions:

What is the magnitude, in newtons, of the force on the first charge due to the second charge?
What is the value, in newtons, of the r component of the force on the first charge due to the second charge?
What is the value, in newtons, of the y component of the force on the first charge due to the second charge?
What is the value, in newtons, of the z component of the force on the first charge due to the second charge?