a) A rectangular loop of wire is subjected to a varying magnetic field given by B(t) = 4.0 sin(20 t), where B is in Tesla and t in seconds. The loop has a length of 15 cm and a width of 10 cm. The loop has a resistance of 50 Q. R= 50 ohms %3D (i) Calculate the magnitude of the emf (voltage) induced in the loop as a function of t. (ii) What is the maximum current induced in the loop?
a) A rectangular loop of wire is subjected to a varying magnetic field given by B(t) = 4.0 sin(20 t), where B is in Tesla and t in seconds. The loop has a length of 15 cm and a width of 10 cm. The loop has a resistance of 50 Q. R= 50 ohms %3D (i) Calculate the magnitude of the emf (voltage) induced in the loop as a function of t. (ii) What is the maximum current induced in the loop?
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![a) A rectangular loop of wire is subjected to a varying
magnetic field given by B(t) = 4.0 sin(20 t), where B is
in Tesla and t in seconds. The loop has a length of 15 cm
and a width of 10 cm. The loop has a resistance of 50 Q.
R= 50 ohms
(i) Calculate the magnitude of the emf (voltage) induced in
the loop as a function of t.
(ii) What is the maximum current induced in the loop?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc32b968b-488e-45bf-96fb-8ba662bacbb0%2F217b7162-2a36-4fdb-89a1-05eba1b5b88f%2Fss76txa_processed.jpeg&w=3840&q=75)
Transcribed Image Text:a) A rectangular loop of wire is subjected to a varying
magnetic field given by B(t) = 4.0 sin(20 t), where B is
in Tesla and t in seconds. The loop has a length of 15 cm
and a width of 10 cm. The loop has a resistance of 50 Q.
R= 50 ohms
(i) Calculate the magnitude of the emf (voltage) induced in
the loop as a function of t.
(ii) What is the maximum current induced in the loop?
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