A varying current i(t) = t(10-t) A (t in seconds) flows through a long straight wire that lies along the x-axis. The current produces a magnetic field B whose magnitude at a distance r from the wire is B = T. Furthermore, at the point P, B points away from the observer as shown in the figure. Hol 2кг Wire loop C Incorrect Φ(t) = Rectangular region R Volt meter Incorrect x=0 E. dr = B Calculate the flux (1), at time t, of B through a rectangle of dimensions L x H = 7 x 2 m whose top and bottom edges are parallel to the wire and whose bottom edge is located d = 0.5 m above the wire. Assume that the rectangle and the wire are located in the same plane. (Use symbolic notation and fractions where needed. Let I = i(t) and express your answer in terms of μo and I.) 56 107 P = (x, y) y In (5) H Use Faraday's Law to determine the voltage drop around the rectangular loop (the boundary of the rectangle) at time t = 3. Assume μ = 4 . 10-7 T.m/A. (Use symbolic notation and fractions where needed.) x = L T.m² V Quest
A varying current i(t) = t(10-t) A (t in seconds) flows through a long straight wire that lies along the x-axis. The current produces a magnetic field B whose magnitude at a distance r from the wire is B = T. Furthermore, at the point P, B points away from the observer as shown in the figure. Hol 2кг Wire loop C Incorrect Φ(t) = Rectangular region R Volt meter Incorrect x=0 E. dr = B Calculate the flux (1), at time t, of B through a rectangle of dimensions L x H = 7 x 2 m whose top and bottom edges are parallel to the wire and whose bottom edge is located d = 0.5 m above the wire. Assume that the rectangle and the wire are located in the same plane. (Use symbolic notation and fractions where needed. Let I = i(t) and express your answer in terms of μo and I.) 56 107 P = (x, y) y In (5) H Use Faraday's Law to determine the voltage drop around the rectangular loop (the boundary of the rectangle) at time t = 3. Assume μ = 4 . 10-7 T.m/A. (Use symbolic notation and fractions where needed.) x = L T.m² V Quest
Principles of Physics: A Calculus-Based Text
5th Edition
ISBN:9781133104261
Author:Raymond A. Serway, John W. Jewett
Publisher:Raymond A. Serway, John W. Jewett
Chapter22: Magnetic Forces And Magnetic Fields
Section: Chapter Questions
Problem 51P
Related questions
Question
![A varying current i(t) = t(10-t) A (t in seconds) flows through a long straight wire that lies along the x-axis. The current
produces a magnetic field B whose magnitude at a distance r from the wire is B = T. Furthermore, at the point P, B points
away from the observer as shown in the figure.
Hol
2кг
Wire loop C
Incorrect
Φ(t) =
Rectangular
region R
Volt meter
Incorrect
x=0
E. dr =
B
Calculate the flux (1), at time t, of B through a rectangle of dimensions L x H = 7 x 2 m whose top and bottom edges are
parallel to the wire and whose bottom edge is located d = 0.5 m above the wire. Assume that the rectangle and the wire are
located in the same plane.
(Use symbolic notation and fractions where needed. Let I = i(t) and express your answer in terms of μo and I.)
56
107
P = (x, y)
y
In (5)
H
Use Faraday's Law to determine the voltage drop around the rectangular loop (the boundary of the rectangle) at time t = 3.
Assume μ = 4 . 10-7 T.m/A.
(Use symbolic notation and fractions where needed.)
x = L
T.m²
V
Quest](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F1e4efaad-01e1-4524-af61-c7099ab2b615%2F53222017-bdc6-4b9a-a5d1-2d217edaea4f%2F5hy8afb_processed.png&w=3840&q=75)
Transcribed Image Text:A varying current i(t) = t(10-t) A (t in seconds) flows through a long straight wire that lies along the x-axis. The current
produces a magnetic field B whose magnitude at a distance r from the wire is B = T. Furthermore, at the point P, B points
away from the observer as shown in the figure.
Hol
2кг
Wire loop C
Incorrect
Φ(t) =
Rectangular
region R
Volt meter
Incorrect
x=0
E. dr =
B
Calculate the flux (1), at time t, of B through a rectangle of dimensions L x H = 7 x 2 m whose top and bottom edges are
parallel to the wire and whose bottom edge is located d = 0.5 m above the wire. Assume that the rectangle and the wire are
located in the same plane.
(Use symbolic notation and fractions where needed. Let I = i(t) and express your answer in terms of μo and I.)
56
107
P = (x, y)
y
In (5)
H
Use Faraday's Law to determine the voltage drop around the rectangular loop (the boundary of the rectangle) at time t = 3.
Assume μ = 4 . 10-7 T.m/A.
(Use symbolic notation and fractions where needed.)
x = L
T.m²
V
Quest
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