The current through a coil as a function of time is represented by the equation I(t) = Ae sin(wt), where A = 5.25 A, b = 1.75 x 1o-s, and w = 375 rad/s. At t = 0.860 s, this changing current induces an emf in a second coil that is close by. If the mutual inductance between the two coils is 4.58 mH, determine the induced emf. (Assume we are using a consistent sign convention for both coils. Include the sign of the value in your answer.)
The current through a coil as a function of time is represented by the equation I(t) = Ae sin(wt), where A = 5.25 A, b = 1.75 x 1o-s, and w = 375 rad/s. At t = 0.860 s, this changing current induces an emf in a second coil that is close by. If the mutual inductance between the two coils is 4.58 mH, determine the induced emf. (Assume we are using a consistent sign convention for both coils. Include the sign of the value in your answer.)
Chapter14: Inductance
Section: Chapter Questions
Problem 29P: An emf of 9.7 × 10-3 V is induced in a coil while the current in a nearby coil is decreasing at a...
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Transcribed Image Text:The current through a coil as a function of time is represented by the equation I(t) = Ae DE sin(wt), where A = 5.25 A, b = 1.75 x 10 s, and w = 375 rad/s. At t = 0.860 s, this changing current induces an emf in a second coil that is
close by. If the mutual inductance between the two coils is 4.58 mH, determine the induced emf. (Assume we are using a consistent sign convention for both coils. Include the sign of the value in your answer.)
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