For the wire arrangement on the right (the square), with currents, directions, and dimensions as shown, calculate the forces per unit length (N/m) on the upper-left wire due to a) upper-right wire. Force = ______ mN/m at a vector angle of _____ degrees. b) lower-right wire. Force = _______ mN/m at a vector angle of _____ degrees. c) lower-left wire. Force = _______ mN/m at a vector angle of _______ degrees. d) The net force on the upper-left wire is then ________ mN at a vector angle of _____ degrees.

For the wire arrangement on the right (the square), with currents, directions, and dimensions as shown, calculate the forces per unit length (N/m) on the upper-left wire due to a) upper-right wire. Force = ____ mN/m at a vector angle of _ degrees. b) lower-right wire. Force = ___ mN/m at a vector angle of _ degrees. c) lower-left wire. Force = _ mN/m at a vector angle of _ degrees. d) The net force on the upper-left wire is then __ mN at a vector angle of _ degrees.

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I need help understanding this problem.

For the wire arrangement on the right (the square), with currents, directions, and dimensions as shown, calculate the forces per unit length (N/m) on the upper-left wire due to

a) upper-right wire. Force = ______ mN/m at a vector angle of _____ degrees.

b) lower-right wire. Force = _______ mN/m at a vector angle of _____ degrees.

c) lower-left wire. Force = _______ mN/m at a vector angle of _______ degrees.

d) The net force on the upper-left wire is then ________ mN at a vector angle of _____ degrees.

Hello Vectors (AGAIN)!!! There is a Support Video for this class of problems.