A wire with the current Io = 4 A flowing out of the page is placed next to a ring carrying current I = 0.5 A, which is perpendicular to the plane, as shown. The distance between the wire and the center of the loop is d = 1 cm, and the radius of the ring is R = 7 mm. lo wire a) What is the magnitude of the torque that the wire exerts on the loop? Give your answer in Nm without units. Use exponential notations (for example, enter 5 x 10-5 as 5e-5). N.m b) What is the equilibrium orientation of the loop? Frontal (a 90° turn about the vertical axis). d Vertical, as now in the figure. In the horizontal plane (a 90° turn about the axis going into the page). R

icon
Related questions
Question
A wire with the current Io = 4 A flowing out of the page is placed next to a ring carrying current I = 0.5 A,
which is perpendicular to the plane, as shown. The distance between the wire and the center of the loop is
d = 1 cm, and the radius of the ring is R = 7 mm.
lo
wire
a) What is the magnitude of the torque that the wire exerts on the loop?
Give your answer in N·m without units. Use exponential notations (for example, enter 5 x 10-5 as 5e-5).
N.m
b) What is the equilibrium orientation of the loop?
Frontal (a 90° turn about the vertical axis).
d
Vertical, as now in the figure.
In the horizontal plane (a 90° turn about the axis going into the page).
R
Transcribed Image Text:A wire with the current Io = 4 A flowing out of the page is placed next to a ring carrying current I = 0.5 A, which is perpendicular to the plane, as shown. The distance between the wire and the center of the loop is d = 1 cm, and the radius of the ring is R = 7 mm. lo wire a) What is the magnitude of the torque that the wire exerts on the loop? Give your answer in N·m without units. Use exponential notations (for example, enter 5 x 10-5 as 5e-5). N.m b) What is the equilibrium orientation of the loop? Frontal (a 90° turn about the vertical axis). d Vertical, as now in the figure. In the horizontal plane (a 90° turn about the axis going into the page). R
Expert Solution
steps

Step by step

Solved in 4 steps with 7 images

Blurred answer