Physics equations/22-Magnetism/Q:AmpereLawCALC

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pe22AmpereLawCalc A
{H is defined by, B=&mu;0H, where B is magnetic field. A current of 48A passes along the z-axis. Use symmetry to find the integral, $$\int \vec H\cdot\vec{d\ell}$$, from the point (0,6.7) to the point (6.7,0).} -a) 9.10E+00 amps -b) 9.98E+00  amps -c) 1.09E+01 amps +d) 1.20E+01  amps -e) 1.32E+01 amps {H is defined by, B=&mu;0H, where B is magnetic field. A current of 67A passes along the z-axis.  Use symmetry to find the integral, $$\int \vec H\cdot\vec{d\ell}$$, from the point ( - 6.1, 6.1) to the point (6.1, 6.1).} -a) 1.27E+01  amps -b) 1.39E+01 amps -c) 1.53E+01  amps +d) 1.68E+01 amps -e) 1.84E+01  amps {H is defined by, B=&mu;0H, where B is magnetic field. A current of 84A passes along the z-axis. Use symmetry to find the integral, $$\int \vec H\cdot\vec{d\ell}$$, from the point (0,9.3) to the point (9.3,9.3).} +a) 1.05E+01 amps -b) 1.15E+01  amps -c) 1.26E+01 amps -d) 1.38E+01  amps -e) 1.52E+01 amps {H is defined by, B=&mu;0H, where B is magnetic field. A current of 81A passes along the z-axis.  Use symmetry to find the integral, $$\int \vec H\cdot\vec{d\ell}$$, from  ( -&infin; ,6.4) to (+ &infin; ,6.4).} -a) 3.37E+01  amps -b) 3.69E+01 amps +c) 4.05E+01  amps -d) 4.44E+01 amps -e) 4.87E+01  amps

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