QUESTION 3 A 5.0-cm-radius conducting loop with a resistance of 4.0 is in the presence of a uniform magnetic field of strength 300 μT that is perpendicular to the plane of the loop as shown in the diagram below. The strength of the magnetic field is then decreased to 120 µT in a time of 0.15 s while the direction of the magnetic field remains constant. What current is induced in the conducting loop and what is its direction? B₁ 300 µTA = Bf = 120 μT, Before: t₁ = 0.00 s 4.0 2 Resistor a. 5.0 µA right-to-left across the resistor b. 2.4 μA left-to-right across the resistor O c. 3.5 µA right-to-left across the resistor d. 5.0 µA left-to-right across the resistor After: tf = 0.15 s

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QUESTION 3
A 5.0-cm-radius conducting loop with a resistance of 4.0
is in the presence of a uniform magnetic field of strength
300 µT that is perpendicular to the plane of the loop as
shown in the diagram below. The strength of the magnetic
field is then decreased to 120 µT in a time of 0.15 s while
the direction of the magnetic field remains constant. What
current is induced in the conducting loop and what is its
direction?
B₁ = 300 μ.
Bf = 120 μ.,
After: tf = 0.15 s
Before: t₁ = 0.00 s
4.0 Resistor
a. 5.0 μA right-to-left across the resistor
b. 2.4 µA left-to-right across the resistor
c. 3.5 µA right-to-left across the resistor
d. 5.0 µA left-to-right across the resistor
e. 1.8 µA left-to-right across the resistor
Transcribed Image Text:QUESTION 3 A 5.0-cm-radius conducting loop with a resistance of 4.0 is in the presence of a uniform magnetic field of strength 300 µT that is perpendicular to the plane of the loop as shown in the diagram below. The strength of the magnetic field is then decreased to 120 µT in a time of 0.15 s while the direction of the magnetic field remains constant. What current is induced in the conducting loop and what is its direction? B₁ = 300 μ. Bf = 120 μ., After: tf = 0.15 s Before: t₁ = 0.00 s 4.0 Resistor a. 5.0 μA right-to-left across the resistor b. 2.4 µA left-to-right across the resistor c. 3.5 µA right-to-left across the resistor d. 5.0 µA left-to-right across the resistor e. 1.8 µA left-to-right across the resistor
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