Difference between revisions of "Chapter 26 Problem 49"

Problem

The RC circuit

In this circuit all resistors have the same resistance R. At ${\displaystyle t=0}$ with the capacitor C uncharged, the switch is closed.

(a) At ${\displaystyle t=0}$ the three currents can be determined by analyzing a simpler, but equivalent, circuit. Identify this simpler circuit and use it to find the values of ${\displaystyle I_{1}}$, ${\displaystyle I_{2}}$ and ${\displaystyle I_{3}}$ at ${\displaystyle t=0}$

(b) At the currents can be determined by analyzing a simpler, equivalent circuit. Identify this simpler circuit and implement it in finding the values of ${\displaystyle I_{1}}$, ${\displaystyle I_{2}}$ and ${\displaystyle I_{3}}$ at ${\displaystyle t=\infty }$

(c) At ${\displaystyle t=\infty }$ what is the potential difference across the capacitor?

Solution

(a)

At ${\displaystyle t=0}$ capacitor is "hungry" for charge, and can be considered as a short. Thus the simpler circuit is simply a circuit with capacitor removed.

${\displaystyle R_{\textrm {eq}}=R+\left({\frac {1}{R}}+{\frac {1}{R}}\right)^{-1}={\frac {3}{2}}R}$ ${\displaystyle \rightarrow I_{1}={\frac {\mathcal {E}}{R_{\textrm {eq}}}}={\frac {2{\mathcal {E}}}{3R}}}$

${\displaystyle \rightarrow I_{2}=I_{3}={\frac {1}{2}}I_{1}={\frac {\mathcal {E}}{3R}}}$

(b)

At ${\displaystyle t=\infty }$ capacitor is "full" for charge, and no current will flow through it. Thus the simpler circuit is simply a circuit with the branch with capacitor removed.

${\displaystyle R_{\textrm {eq}}=R+R=2R}$

${\displaystyle \rightarrow I_{1}=I_{2}={\frac {\mathcal {E}}{R_{\textrm {eq}}}}={\frac {\mathcal {E}}{2R}}}$

${\displaystyle I_{3}=0}$

(c)

At ${\displaystyle t=\infty }$ capacitor is "full" for charge, and no current will flow through it. Thus the voltage drop through ${\displaystyle I_{3}}$ branch is 0.