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Consider an LR circuit as shown in the figure. The ideal battery provides an EMF of 11.00 V . The inductor has inductance L = 5.70 H , and the resistor has resistance R = 5.70 Ω. The switch is initially open as shown. At time t=0, the switch is closed.
Part A
At what rate is energy being delivered by the battery at time t = 1.050 s?
Part B
How much energy has been delivered by the battery during the first 2.100 s after the switch has been closed? Hint: you will need to integrate the power of the battery over the requested time period.
Part C
At what rate is energy being stored in the magnetic field of the inductor at time t = 1.050 s?
Part D
How much energy has been stored in the magnetic field of the inductor during the first 2.100 s after the switch has been closed?
Part E
At what rate is thermal energy being produced in the resistor at time t = 1.050 s?
Part F
How much thermal energy has been dissipated in the resistor during the first 2.100 s after the switch has been closed?
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