A long time after the switch is closed, what is the current in the circuit?

A long time after the switch is closed, what is the current in the circuit? - unanswered
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#11B (3 points possible)
A long time after the switch is closed, over which element does the potential created by the battery drop?

I do not see your circuit. I assume you have a combination of resistance, capacitance , and inductance, but have to know which and parallel or series.

To determine the current in the circuit a long time after the switch is closed, you need to consider the elements connected to the circuit and any relevant laws or principles.

One of the key principles to keep in mind is Ohm's Law, which states that the current flowing through a conductor is directly proportional to the voltage across the conductor and inversely proportional to the resistance of the conductor. The formula for Ohm's Law is I = V/R, where I represents the current, V represents the voltage, and R represents the resistance.

To determine the current in the circuit, you need to know the values of voltage and resistance for each element in the circuit. This information can be obtained from a given circuit diagram or from a description of the circuit.

Once you have the values of voltage and resistance, you can apply Ohm's Law to each element separately. Start by calculating the current for each individual element using the formula I = V/R. Then, if the elements are connected in series, you can sum up the individual currents to find the total current in the circuit. If the elements are connected in parallel, you can sum up the conductances (the reciprocal of resistance) of each element and then calculate the total current using the formula I = ΣG, where G represents the conductance.

It's important to note that if any capacitors or inductors are present in the circuit, the current may vary with time due to the charging or discharging of the capacitors or the magnetic field generated by the inductors. In this case, you may need to use additional equations and time-based analysis to determine the current at a specific time after the switch is closed.

In summary, to determine the current in a circuit a long time after the switch is closed, you need to apply Ohm's Law to each element in the circuit, considering the values of voltage and resistance. Then, depending on the configuration of the circuit, you can either sum up the individual currents or use conductance to find the total current in the circuit.