Two very long straight wires carry current I in opposite directions as shown below. The distance...

Two very long straight wires carry current I in opposite directions as shown below. The distance from the origin to each of the wires is d. Draw the magnetic field vector on the figure for each of the points listed below. You must indicate both the magnitude and direction of the magnetic field at all points.

The origin x=0, y=0
x= 2d, y=0
x= -2d, y=0
x=d, y = -d
x= -d, y=d

Solutions

Expert Solution

genius_generous answered 1 year ago

Next > < Previous

Related Solutions

Two straight parallel wires carry currents in opposite directions as shown in the figure. One of...

Two straight parallel wires carry currents in opposite directions as shown in the figure. One of the wires carries a current of I2 = 10.2 A. Point A is the midpoint between the wires. The total distance between the wires is d = 12.1 cm. Point C is 5.03 cm to the right of the wire carrying current I2. Current I1 is adjusted so that the magnetic field at C is zero. Calculate the value of the current I1.Calculate the...

2. Two long coaxial solenoids each carry current I, but in opposite directions, as shown to...

Two long coaxial solenoids each carry current I, but in opposite directions, as shown to the right. The solenoids are both of length L, which can be assumed to be very long, and are centered along the z-axis. The inner solenoid (radius a) has n turns per unit length, and the outer one (radius b) has the same n turns per unit length. \(\vec{B}\) inside the inner solenoid, \(=\mathbf{B}_{\text {inner }}=\mu_{0} I\left(n_{1}-n_{2}\right) \mathbf{z} \quad\) And \(\quad \mathbf{B}_{\text {middle }}=-\mu_{0} n_{2} I...

1. Imagine two very long, parallel, straight wires carrying a current, I, in equal but opposite...

1. Imagine two very long, parallel, straight wires carrying a current, I, in equal but opposite directions. (a) Discussing from a qualitative point of view, explain [8] i. why such a system can be considered to have an inductance; and ii. how one can set up an experiment to measure the inductance of such a system. (b) From a point of view of theoretically calculating the inductance of such a system, why can you not assume that these wires have...

The two wires carry currents of I = 5.24 A in opposite directions and are separated...

The two wires carry currents of I = 5.24 A in opposite directions and are separated by a distance of d0 = 8.93 cm. Calculate the net magnetic field at a point midway between the wires. Use the direction out of the page as the positive direction and into the page as the negative direction in your answer. Incorrect. Tries 3/20 Previous Tries Calculate the net magnetic field at point P1 - that is 8.62 cm to the right of...

Two long straight wires separated by 0.10 m carry current in the direction as shown. If...

Two long straight wires separated by 0.10 m carry current in the direction as shown. If I1=12 A and I2= 8 A, find the magnitude and the direction of the net magnetic field a) at point A at a distance of 4 cm from wire 2 in the region between wire 1 and 2 b) at point B at a distance 5 cm left of wire 1.

Three long, straight wires are seen end-on in the figure below. The distance between the wires...

Three long, straight wires are seen end-on in the figure below. The distance between the wires is r = 0.260 m. Wires A and B carry current IA = IB = 1.66 A, and wire C carries current IC = 3.18 A. Assume (for example) the only forces exerted on wire A are due to wires B and C. Find the force per unit length exerted on the following. (Express your answers in vector form.) (a) wire A fA =...

Two long, straight wires are perpendicular to the plane of the paper and at a distance...

Two long, straight wires are perpendicular to the plane of the paper and at a distance 0.2 m from each other, as shown in the figure. The wires carry currents of I1 = 2.6 A and I2 = 5 A in the direction indicated (out of the page). Find the magnitude and direction of the magnetic field (in µT) at a point A midway between the wires. You need to indicate the direction with a positive or a negative value...

Two long straight parallel wires are oriented north-south. Both wires carry constant current due North and...

Two long straight parallel wires are oriented north-south. Both wires carry constant current due North and are 20cm apart. The current in one cable is 30A and in the other 40A . a) Determine the magnitude of the total magnetic field induced by the two cables midway between them. b) determine the position between the cables where the total magnetic field induced by the cables is zero. Give your result as the distance from the 30A cable.

Problem 1- Two long, straight wires are at 0.20 m distance from each other, as shown...

Problem 1- 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. Find the magnitude of the magnetic field B1 and its direction due to I1 at point P at...

Three long straight parallel wires are each carrying a steady current I in the same direction....

Three long straight parallel wires are each carrying a steady current I in the same direction. They are equidistant from each other with separation d. What force per unit length does one wire experience due to the other two?

Subjects