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 the wire on the right.

Tries 0/20

Calculate the net magnetic field at point P₂ - that is 21.6 cm to the left of the wire on the left.

Expert Solution

genius_generous answered 1 year ago

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...

Two long parallel wires carry currents of 2.0 A and 3.0 A in the same directions....

Two long parallel wires carry currents of 2.0 A and 3.0 A in the same directions. The wires are separated by 50 cm. At what point between the two wires the total magnetic field is zero? Please backup your solution with a picture!

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

Two parallel wires separated by d=30 cm carry currents of I1=2.0 A and I2=1.5 A in...

Two parallel wires separated by d=30 cm carry currents of I1=2.0 A and I2=1.5 A in the same direction. (a) [6] Use Ampere’s law to find the magnitude and direction of the field B21 on wire 2 created by the current in wire 1. Explain your use of the right-hand rule to determine the direction of the magnetic field B21. (b) [6] What is the magnitude and direction of force exerted on wire 2 by the current in wire 1?...

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...

Two concentric loops of wire are carrying currents in opposite directions as shown in (Figure 2)....

Two concentric loops of wire are carrying currents in opposite directions as shown in (Figure 2). Describe the net force and the torque on either of the current loops. There is a net torque on each loop that causes them to rotate in the same direction. There is a net force on each loop that causes them to repel each other. There is a net torque on each loop that causes them to rotate in opposite directions. There is no net force or torque...

Two stacked rings have currents in opposite directions as shown. There is a net magnetic force...

Two stacked rings have currents in opposite directions as shown. There is a net magnetic force exerted on the top ring due to the bottom ring. Is which direction is this force? to the right to the left downward upward The net force is zero.

Two parallel wires, 5.8 mm apart, carry currents of 100 A and 140 A respectively, in...

Two parallel wires, 5.8 mm apart, carry currents of 100 A and 140 A respectively, in opposite directions. The force per unit length in N/m of one wire on the other is:

Two long parallel wires 20 cm apart carry currents of 5.0 A and 8.0 A in...

Two long parallel wires 20 cm apart carry currents of 5.0 A and 8.0 A in opposite directions. At what point is the net magnetic field due to the two of them zero? 12 cm from th3 8-A wire 53 cm from the 5-A wire 33 cm from the 8-A wire There is no point where the net magnetic field is zero. 33 cm from the 5-A wire

Two current carrying wires carry currents of 4A and 3A. Calculate the magnetic field at point...

Two current carrying wires carry currents of 4A and 3A. Calculate the magnetic field at point P

Question