PROBLEM 1A: A rectangular strip of metal of height "h" [µm] and length "LO" [mm] is placed in a magnetic field "B" (T]. This magnetic field is perpendicular to the surface of the metal. A current "I" [A] is then made to pass along the length of the metal so that a voltage V [V] develops across its height. The number of charge carriers in the metal is "n" [1/m^3]. Using the given information find the potential that develops across the height "h". Enter your answer as a number, for example if your result is 20.2 [mm] enter 20.2 and select the correct units in part 2 of this question. You must determine the nearest correct unit scale; mm, mV, kg, g etc for each problem. h = 148.99 Lo = 4.23 Io =12.8 Bo = 0.86 n = 8.47 · 102*
PROBLEM 1A: A rectangular strip of metal of height "h" [µm] and length "LO" [mm] is placed in a magnetic field "B" (T]. This magnetic field is perpendicular to the surface of the metal. A current "I" [A] is then made to pass along the length of the metal so that a voltage V [V] develops across its height. The number of charge carriers in the metal is "n" [1/m^3]. Using the given information find the potential that develops across the height "h". Enter your answer as a number, for example if your result is 20.2 [mm] enter 20.2 and select the correct units in part 2 of this question. You must determine the nearest correct unit scale; mm, mV, kg, g etc for each problem. h = 148.99 Lo = 4.23 Io =12.8 Bo = 0.86 n = 8.47 · 102*
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![PROBLEM 1A: A rectangular strip of metal of height "h" [µm] and length "LO" [mm] is placed in a magnetic field "B" [T]. This magnetic field is
perpendicular to the surface of the metal. A current "I" [A] is then made to pass along the length of the metal so that a voltage V [V] develops across its
height. The number of charge carriers in the metal is "n" [1/m^3]. Using the given information find the potential that develops across the height "h".
Enter your answer as a number, for example if your result is 20.2 [mm] enter 20.2 and select the correct units in part 2 of this question. You must
determine the nearest correct unit scale; mm, mV, kg, g etc for each problem.
h = 148.99
Lo = 4.23
1о -12.8
Во - 0.86
n = 8.47. 1028](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F3f67e1bf-eea6-4e16-8a1c-15924bc5904f%2F29351ba7-9005-46be-ba6c-6b56cbf99b9b%2Fwfjckzc_processed.png&w=3840&q=75)
Transcribed Image Text:PROBLEM 1A: A rectangular strip of metal of height "h" [µm] and length "LO" [mm] is placed in a magnetic field "B" [T]. This magnetic field is
perpendicular to the surface of the metal. A current "I" [A] is then made to pass along the length of the metal so that a voltage V [V] develops across its
height. The number of charge carriers in the metal is "n" [1/m^3]. Using the given information find the potential that develops across the height "h".
Enter your answer as a number, for example if your result is 20.2 [mm] enter 20.2 and select the correct units in part 2 of this question. You must
determine the nearest correct unit scale; mm, mV, kg, g etc for each problem.
h = 148.99
Lo = 4.23
1о -12.8
Во - 0.86
n = 8.47. 1028
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