A rectangular loop of length L = 0.3 m and width W = 0.45 m carrying a current I = 2 A is exposed to a uniform magnetic field of magnitude B = 6 T, in the plane of the page and pointing to the right, as shown in the left-hand figure (Front View). BO Front View 8 W B B What is the magnitude of the torque on the loop? O (a) 7 = 1.522 N.m (b) 70.631 N.m O (c) T=0.554 N.m Top View W At the instant shown, the wire loop makes an angle = 20° with the horizontal. 100

icon
Related questions
Question
A rectangular loop of length L = 0.3 m and width W = 0.45 m carrying a current I = 2 A is exposed to a
uniform magnetic field of magnitude B = 6 T, in the plane of the page and pointing to the right, as shown in
the left-hand figure (Front View).
BO
Front
View
Le
W
B
B
What is the magnitude of the torque on the loop?
(a) 7 = 1.522 N.m
(b) 70.631 N.m
O (c) T = 0.554 N.m
Top View
W
At the instant shown, the wire loop makes an angle = 20° with the horizontal.
Transcribed Image Text:A rectangular loop of length L = 0.3 m and width W = 0.45 m carrying a current I = 2 A is exposed to a uniform magnetic field of magnitude B = 6 T, in the plane of the page and pointing to the right, as shown in the left-hand figure (Front View). BO Front View Le W B B What is the magnitude of the torque on the loop? (a) 7 = 1.522 N.m (b) 70.631 N.m O (c) T = 0.554 N.m Top View W At the instant shown, the wire loop makes an angle = 20° with the horizontal.
Expert Solution
trending now

Trending now

This is a popular solution!

steps

Step by step

Solved in 3 steps with 2 images

Blurred answer
Similar questions