Difference between revisions of "Chapter 26 Problem 71"

Problem

The Wheatstone bridge

A Wheatstone bridge is a type of “bridge circuit” used to make measurements of resistance. The unknown resistance to be measured, ${\displaystyle R_{x}}$ , is placed in the circuit with accurately known resistances ${\displaystyle R_{1}}$ ,${\displaystyle R_{2}}$ , and ${\displaystyle R_{3}}$. One of these, ${\displaystyle R_{3}}$, is a variable resistor which is adjusted so that when the switch is closed momentarily, the ammeter A shows a zero current flow.

(a) Determine ${\displaystyle R_{x}}$ in terms of ${\displaystyle R_{1}}$ ,${\displaystyle R_{2}}$ , and ${\displaystyle R_{3}}$.

(b) If a Wheatstone bridge is “balanced” when ${\displaystyle R_{1}=630\Omega }$, ${\displaystyle R_{2}=972\Omega }$, and ${\displaystyle R_{3}=78.6\Omega }$, what is the value of the unknown resistance?

Solution

(a)

No current means the potential difference between B and D is zero. Thus

${\displaystyle V_{\textrm {BA}}=<math>V_{\textrm {DA}}}$ ${\displaystyle \rightarrow I_{3}R_{3}=I_{1}R_{1}}$ ${\displaystyle \rightarrow {\frac {R_{3}}{R_{1}}}={\frac {I_{1}}{I_{3}}}}$

${\displaystyle V_{\textrm {CB}}=V_{\textrm {CD}}}$ ${\displaystyle \rightarrow I_{3}R_{x}=I_{1}R_{2}}$ ${\displaystyle \rightarrow R_{x}=R_{2}{\frac {I_{1}}{I_{3}}}={\frac {R_{2}R_{3}}{R_{1}}}}$

(b)

${\displaystyle R_{x}={\frac {R_{2}R_{3}}{R_{1}}}={\frac {972\times 78.6}{639}}\Omega =121\Omega }$