ldarko210 Posted February 10, 2013 Posted February 10, 2013 I had this info: q1 at origin q2 at coordinates (x2,y2,z2) q3 at coordinates (x3,y3,z3) I had to calculate the force exerted on q1. So I calculated the distances of q2 and q3 from q1. Then I calculated intensities of electric fields of q2 and q3 at origin (using calculated distances). Than I calculated resultant intensity (by adding separate intensities). Finally, I multiplied charge q1 by resultant electric field to obtain the force. So, was this correct? I'm pretty sure it was, but I'm checking.
swansont Posted February 10, 2013 Posted February 10, 2013 Yes. You could also sum the forces directly. They both obey superposition.
mathematic Posted February 10, 2013 Posted February 10, 2013 I had this info: q1 at origin q2 at coordinates (x2,y2,z2) q3 at coordinates (x3,y3,z3) I had to calculate the force exerted on q1. So I calculated the distances of q2 and q3 from q1. Then I calculated intensities of electric fields of q2 and q3 at origin (using calculated distances). Than I calculated resultant intensity (by adding separate intensities). Finally, I multiplied charge q1 by resultant electric field to obtain the force. So, was this correct? I'm pretty sure it was, but I'm checking. Did you take into account that the forces are vectors?
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