What is the voltage across an inductor in an LR circuit?

AI Thread Summary
In an LR circuit connected to a 12V battery, the current at 0.940ms is measured at 4.86mA, increasing to 6.45mA over time. The resistance is calculated to be 1860 Ohms based on the steady-state current. The voltage across the inductor is not equal to the voltage across the resistor, as the battery's presence must be considered. The correct equation for the voltage across the inductor involves the term 1 - exp(-t/(L/R)). The solution provided was not accepted by MasteringPhysics due to this oversight regarding the battery's role in the circuit.
xSpartanCx
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Homework Statement


An inductor is connected to the terminals of a battery that has an emf of 12.0Vand negligible internal resistance. The current is 4.86mA at 0.940ms after the connection is completed. After a long time the current is 6.45mA.

Homework Equations


V = IR
V(t) = V0 (exp(-t/τ))

The Attempt at a Solution


At infinite time, an inductor appears like a wire. Therefore, 12V = 6.45mA * R
R = 1860 Ohms

V(t) = V0 exp(-t/(L/R))
(4.86mA * 1860 Ohm) = 12V exp(-t/(L/R))
.753 = exp(-t/(L/R))
natural log both sides...
.28 = t / (L/R)
L/R = 0.0033
L = 6.18 H

However, MasteringPhysics does not accept this solution.
 
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Derp. should've been using 1- exp(-t/(L/R))
 
xSpartanCx said:

Homework Statement


An inductor is connected to the terminals of a battery that has an emf of 12.0Vand negligible internal resistance. The current is 4.86mA at 0.940ms after the connection is completed. After a long time the current is 6.45mA.

Homework Equations


V = IR
V(t) = V0 (exp(-t/τ))

The Attempt at a Solution


At infinite time, an inductor appears like a wire. Therefore, 12V = 6.45mA * R
R = 1860 Ohms

V(t) = V0 exp(-t/(L/R))
What is V(t)? The voltage across what?

xSpartanCx said:
(4.86mA * 1860 Ohm) = 12V exp(-t/(L/R))
.753 = exp(-t/(L/R))
natural log both sides...
.28 = t / (L/R)
L/R = 0.0033
L = 6.18 H

However, MasteringPhysics does not accept this solution.

You completely ignored the battery. It is present. You can consider the coil as an ideal inductor connected in series with its resistance and connected to the battery. The voltage across the inductor is not the same as the voltage across the resistor.
 

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