I:23) Constants I Periodic TableTwo long parallel wires 8.20 cm apart carry 16.5-Acurrents in the same direction.Part ADetermine the magnetic field vector at a point P, 12.0 cm from one wire and 13.0 cm fromthe other. See the figure(Figure 1). [Hint: Use the law of cosines.]?|B| =TSubmitRequest AnswerFigure<) 1 of 1Part BAssume that positive x axis is parallel to the shortest side of the triangle and points to theright.12.0 cm 13.0 cmΑΣφ?° below the negative x-axis- 8.20 cmSubmitRequest Answer

Given: The current I is 16.5 A. Distance between two parallel wires is 8.2 cm

Two long parallel wires 8.20 cm apart carry 16.5-A currents in the same direction. Part A Determine the magnetic field vector at a point P, 12.0 cm from one wire and 13.0 cm from the other. See the figure(Figure 1). [Hint: Use the law of cosines.] V AE | = T Submit Request Answer Figure 1 of 1 Part B Assume that positive x axis is parallel to the shortest side of the triangle and points to the right. 12.0 cm 13.0 cm ΑΣφ ? below the negative x- axis 8.20 cm

Two long parallel wires 8.20 cm apart carry 16.5-A currents in the same direction. Part A Determine the magnetic field vector at a point P, 12.0 cm from one wire and 13.0 cm from the other. See the figure(Figure 1). [Hint: Use the law of cosines.] V AE | = T Submit Request Answer Figure 1 of 1 Part B Assume that positive x axis is parallel to the shortest side of the triangle and points to the right. 12.0 cm 13.0 cm ΑΣφ ? below the negative x- axis 8.20 cm

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Question

I:23)

Constants I Periodic Table
Two long parallel wires 8.20 cm apart carry 16.5-A
currents in the same direction.
Part A
Determine the magnetic field vector at a point P, 12.0 cm from one wire and 13.0 cm from
the other. See the figure(Figure 1). [Hint: Use the law of cosines.]
?
|B| =
T
Submit
Request Answer
Figure
<) 1 of 1
Part B
Assume that positive x axis is parallel to the shortest side of the triangle and points to the
right.
12.0 cm 13.0 cm
ΑΣφ
?
° below the negative x-
axis
- 8.20 cm
Submit
Request Answer

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