A 1.80-H inductance coil and a 11.2 2 resistor are connected in series with a battery whose emf is 115 V and a switch. Initially, the switch is open. At t = 0, the switch is closed. (a) Determine the rate at which energy is stored in the magnetic field at t = 0.170 s. 94.93 x At what rate is energy stored in the magnetic field at the given time? W (b) Determine the rate at which thermal energy is dissipated through the resistance at t = 0.170 s. W (c) Determine the rate at which the battery delivers energy at t = 0.170 s. W
A 1.80-H inductance coil and a 11.2 2 resistor are connected in series with a battery whose emf is 115 V and a switch. Initially, the switch is open. At t = 0, the switch is closed. (a) Determine the rate at which energy is stored in the magnetic field at t = 0.170 s. 94.93 x At what rate is energy stored in the magnetic field at the given time? W (b) Determine the rate at which thermal energy is dissipated through the resistance at t = 0.170 s. W (c) Determine the rate at which the battery delivers energy at t = 0.170 s. W
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Transcribed Image Text:A 1.80-H inductance coil and a 11.2 2 resistor are connected in series with a battery whose emf is 115 V and a switch. Initially, the switch is open. At t = 0, the switch is closed.
(a) Determine the rate at which energy is stored in the magnetic field at t = 0.170 s.
94.93
x
At what rate is energy stored in the magnetic field at the given time? W
(b) Determine the rate at which thermal energy is dissipated through the resistance at t = 0.170 s.
W
(c) Determine the rate at which the battery delivers energy at t = 0.170 s.
W
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