# 2) Two long, straight wires are at 0.20 m distance from each other, as shown in the figure. The direction of the current in the wire on the left ( I1…

2) Two long, straight wires are at 0.20 m distance from each other, as shown in the figure. The direction of the current in the wire on the left ( I1 = 15.0 A) is out of the paper and the direction of the current in the wire on the right ( I2 = 25.0 A ) is into the paper.

**SHOW YOU COMPLETE SOLUTION UNDER EACH PART OF THE PROBLEM.**

**1 solid blue circle indicates the direction of the electric current is out of the paper**

**2 solid blue circle with a cross sign indicates the direction of the electric current goes in to the paper**

X

I1 = 15.0 A p I2 = 25.0

a) Find the __magnitude __of the magnetic field B1and its direction due to I1 atpoint **P**at 0.05 m from the current I1between the two wires.

b) Find the __magnitude __of the magnetic field B2 and show its __direction__ due to I2 atthe same point P. **Show the formula and complete solution.**

c) Find the net magnitude and show the direction of the magnetic field at that point (P).

**Show the formula and complete soltion.**

2) Two long, straight wires are at 0.20 m distance from each other, as shown in the figure. Thedirection of the current in the wire on the left ( I1 = 15.0 A) is out of the paper and the directionof the current in the wire on the right ( 12 = 25.0 A ) is into the paper.SHOW YOU COMPLETE SOLUTION UNDER EACH PART OF THE PROBLEM.solid blue circle indicates the direction of the electric current is out of the paper2 solid blue circle with a cross sign indicates the direction of the electric current goesin to the paperXI1 = 15.0 A12 = 25.0a) Find the magnitude of the magnetic field Bi and its direction due to I, at point P at0.05 m from the current I/ between the two wires.b) Find the magnitude of the magnetic field B2 and show its direction due to /2 at thesame point P. Show the formula and complete solution.c) Find the net magnitude and show the direction of the magnetic field at that point (P).Show the formula and complete soltion.