30.5 A loop of wire in the shape of a rectangle of width w and length L and a long, straight wire carrying a current I lie on atabletop as shown in the figure below.| L(a) Determine the magnetic flux through the loop due to the current I. (Use any variable stated above along with thefollowing as necessary: Mo.)=W(b) Suppose the current is changing with time according to I = a + bt, where a and b are constants. Determine themagnitude of the emf (in that is induced in the loop if b = 18.0 A/s, h = 1.00 cm, w = 20.0 cm, and L = 1.15 m.V(c) What is the direction of the induced current in the rectangle?clockwise000counterclockwiseThe magnitude is zero.What If? Suppose a constant current of I=6.00 A flows in the straight wire and the loop moves from an initial positionho = 1.00 cm toward the bottom of the figure at a constant speed of v =22.0 cm/s.(d) What is the magnitude of the induced emf (in V) in the loop 1.00 s after it begins to move?V

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A loop of wire in the shape of a rectangle of width w and length L and a long, straight wire carrying a current I lie on a tabletop as shown in the figure below. + (a) Determine the magnetic flux through the loop due to the current I. (Use any variable stated above along with the following as necessary: Mo.) = W (b) Suppose the current is changing with time according to I = a + bt, where a and b are constants. Determine the magnitude of the emf (in V) that is induced in the loop if b = 18.0 A/s, h = 1.00 cm, w = 20.0 cm, and L = 1.15 m. V (c) What is the direction of the induced current in the rectangle? Oclockwise O counterclockwise O The magnitude is zero.

A loop of wire in the shape of a rectangle of width w and length L and a long, straight wire carrying a current I lie on a tabletop as shown in the figure below. + (a) Determine the magnetic flux through the loop due to the current I. (Use any variable stated above along with the following as necessary: Mo.) = W (b) Suppose the current is changing with time according to I = a + bt, where a and b are constants. Determine the magnitude of the emf (in V) that is induced in the loop if b = 18.0 A/s, h = 1.00 cm, w = 20.0 cm, and L = 1.15 m. V (c) What is the direction of the induced current in the rectangle? Oclockwise O counterclockwise O The magnitude is zero.

Glencoe Physics: Principles and Problems, Student Edition

1st Edition

ISBN:9780078807213

Author:Paul W. Zitzewitz

Publisher:Paul W. Zitzewitz

Chapter24: Magnetic Fields

Section: Chapter Questions

Problem 103A

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Concept explainers

Magnetic Field Of Coaxial Cable

The word coaxial means same axis. So for a long straight cable to be coaxial, it must have concentric cylindrical shaped conductor around it. Coaxial cable (popularly called ‘coax’) has various applications ranging from current conductors to radiofrequency signal transmitters. This cable has lower emission losses and provides protection from electromagnetic interference which allows signals with less power to transmit over longer distances.For example, currents produced in the pickup of a stereo turntable generally travel to the amplifier through a coaxial cable.The self-inductance of a coaxial cable is another important characteristic, because it influences the propagation of electrical signals in the cable.

Question

30.5

A loop of wire in the shape of a rectangle of width w and length L and a long, straight wire carrying a current I lie on a
tabletop as shown in the figure below.
| L
(a) Determine the magnetic flux through the loop due to the current I. (Use any variable stated above along with the
following as necessary: Mo.)
=
W
(b) Suppose the current is changing with time according to I = a + bt, where a and b are constants. Determine the
magnitude of the emf (in that is induced in the loop if b = 18.0 A/s, h = 1.00 cm, w = 20.0 cm, and L = 1.15 m.
V
(c) What is the direction of the induced current in the rectangle?
clockwise
000
counterclockwise
The magnitude is zero.
What If? Suppose a constant current of I
=
6.00 A flows in the straight wire and the loop moves from an initial position
ho = 1.00 cm toward the bottom of the figure at a constant speed of v =
22.0 cm/s.
(d) What is the magnitude of the induced emf (in V) in the loop 1.00 s after it begins to move?
V

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