What Is the Voltage Across the Resistor in an LC Circuit with Given Parameters?

AI Thread Summary
In the discussed LC circuit, the parameters include an inductance of 0.360 H, a resistance of 31.0 Ω, and a battery emf of 22.0 V. The current is increasing at a rate of 7.20 A/s. To find the voltage across the resistor (Vab), Kirchhoff's voltage law (KVL) can be applied, which states that the sum of potential changes around the loop should equal zero. The equation incorporates the battery voltage, the inductor's voltage (L * di/dt), and the resistor's voltage (V = IR). The correct approach involves setting up the KVL equation to solve for the unknown voltage across the resistor.
meaghan
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Homework Statement


In the following figure(Figure 1) switch S1 is closed while switch S2 is kept open. The inductance is L = 0.360 H, the resistance is R = 31.0 Ω , and the emf of the battery is 22.0 V . At time t after S1 is closed, the current in the circuit is increasing at a rate of di/dt = 7.20 A/s.
6754630015.jpg

At this instant what is Vab, the voltage across the resistor?

Homework Equations


Emf = L * di/dt
Kirchhoff's law
V= IR

The Attempt at a Solution


I tried to get the emf in the inductor and add it to the 22v given, but that didn't work.
should i add the current (22/31 A) to the change in current integrated? I would get 7.2t + 22/31.
 
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Can you write a KVL equation for the loop?
 
gneill said:
Can you write a KVL equation for the loop?
V total = 22V + (.360*7.2)
V total = E + L*di/dt
 
meaghan said:
V total = 22V + (.360*7.2)
V total = E + L*di/dt
What is V total?

The loop has three components that exhibit potential changes: The battery, the resistor, and the inductor. Your KVL equation should sum the potential changes for each component as you "walk" around the loop, and that sum should be zero. Since the potential across the resistor is the unknown that you wish to find, let it be represented by a variable.
 
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